Nile Delta Drill Core and Sample Database for 1985-1994: Mediterranean Basin (MEDIBA) Program with N Mins Mihm Cabell SERIES PUBLICATIONS OF THE SMITHSONIAN INSTITUTION Emphasis upon publication as a means of “diffusing knowledge” was expressed by the first Secretary of the Smithsonian. In his formal plan for the institution, Joseph Henry outlined a program that included the following statement: “It is proposed to publish a series of reports, giving an account of the new discoveries in science, and of the changes made from year to year in all branches of knowledge.” This theme of basic research has been adhered to through the years by thousands of titles issued in series publications under the Smithsonian imprint, commencing with Smithsonian Contributions to Knowledge in 1848 and continuing with the following active series: Smithsonian Coniributions to Anthropology Smithsonian Contributions to Botany Smithsonian Contributions to the Earth Sciences Smithsonian Contributions to the Marine Sciences Smithsonian Contributions to Paleobiology Smithsonian Contributions to Zoology Smithsonian Folklife Studies Smithsonian Studies in Air and Space Smithsonian Studies in History and Technology In these series, the Institution publishes small papers and full-scale monographs that report the research and collections of its various museums and bureaux or of professional colleagues in the world of science and scholarship. The publications are distributed by mailing lists to libraries, universities, and similar institutions throughout the world. Papers or monographs submitted for series publication are received by the Smithsonian Institution Press, subject to its own review for format and style, only through departments of the various Smithsonian museums or bureaux, where the manuscripts are given substantive review. Press requirements for manuscript and art preparation are outlined on the inside back cover. |. Michael Heyman Secretary Smithsonian Institution SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES e NUMBER Nile Delta Drill Core and Sample Database for 1985-1994: Mediterranean Basin (MEDIBA) Program Daniel Jean Stanley, James E. McRea, Jr., and John C. Waldron SMITHSONIAN INSTITUTION PRESS Washington, D.C. 1996 Sa ABSTRACT Stanley, Daniel Jean, James E. McRea, Jr., and John C. Waldron. Nile Delta Drill Core and Sample Database for 1985-1994: Mediterranean Basin (MEDIBA) Program. Smithsonian Contributions to the Marine Sciences, number 37, 428 pages, 10 figures, 2 tables, 1996.—This document is designed to serve as the catalog for a complete set of lithologic logs of 87 sediment borings drilled in the northern Nile delta of Egypt in the course of the Nile Delta Project, from 1985 to 1994. The project, part of the Mediterranean Basin (MEDIBA) Program, was initiated to interpret the recent geological evolution of this depocenter, from the time of its formation about 8000 years ago to the present. The data set includes the major petrologic attributes of these borings, which range in length from ~20 to 60 m. The results of textural and sand-sized compositional analyses of 2500 core samples are provided, as well as the ages of 358 radiocarbon-dated samples to as old as ~35,000 years before present. These data constitute the foundation of the Nile Delta Project’s investigation. A review of the methods employed in the field and laboratory and an inventory of published articles and theses completed through 1994 as part of this multidisciplinary and multinational effort also are presented. This database facilitates the distinction between anthropogenic and natural factors that determine the evolution of the delta. It is intended to provide a comprehensive record of subsurface deposits in the northern delta, accumulating in late Pleistocene to Holocene time, to be used by those agencies and specialists responsible for monitoring the rapidly changing Nile delta depocenter. The information published in this document is accessible electronically on the Internet from the Smithsonian Institution’s National Museum of Natural History Gopher Server at URL “gopher://nmnhgoph.si.edu/11/.paleo” or via hypertext document (http) at “http://nmnhwww.si.edu/gopher-menus/.” Further information can be obtained from the National Museum of Natural History’s Collection and Research Information System (CRIS) Program, Washington, D.C. 20560. OFFICIAL PUBLICATION DATE is handstamped in a limited number of initial copies and is recorded in the Institution’s annual report, Smithsonian Year. SERIES COVER DESIGN: Seascape along the Atlantic Coast of eastern North America. Library of Congress Cataloging-in-Publication Data Stanley, Daniel J. Nile Delta drill core and sample database for 1985-1994: Mediterranean Basin (MEDIBA) Program / Daniel Jean Stanley, James E. McRea, Jr., and John C. Waldron. p. cm. — (Smithsonian contributions to the marine sciences ; no. 37) Includes bibliographical references (p. 426-428). 1. Borings—Egypt—Nile River Delta—Catalogs. 2. Geology, Stratigraphic—Quaternary—Catalogs. 3. Geology—Egypt—Nile River Delta—Catalogs. I. McRea, James E. II. Waldron, John C. III. Title. IV. Series. QE328.S73 1996 551.7’9’09621-dc20 96-17239 The paper used in this publication meets the minimum requirements of the American National Standard for Permanence of Paper for Printed Library Materials Z39.48—1984. Contents Page MtROGUCHOMEs rey curate ten yrs Heater cidisis ory sacs) yey lorricriey Wintel aah oxo suse oes we Gh, eh ee ee 1 AACKNIOWICUOMIEMISm Mery crtem en tir ire Mire ee Grete wee thie beta, means rahi: 3 Methodst o. Gar eee hile Pe, she cht: Pe ol ke vol Shee Ghye ok ete ttte ray cw sete ee ees 4 CorerCollectione wt sere eer we ey ie A NER RE IW te ecient 4 Baboratony-e Amal y Ses) tsurs nye) wurst ee oes hia ashe po moi Sion tice Wea os ey Sas a ee tas i Radiocarboni ating ars pausts sfc: as le tits. ow) ocak ects on chee Sires, O oiss 10 Nile Delta Project Data Used in Scientific Literature. ................ 11 Studiesmistedvibys Location aevcgerece ore Saeko Ge aie pede geen ee ar see 11 StudiessEistedibymlopiczandimiineme? ss. yu es es ee 12 Petrology,;Compositionsand Texture = 4.6. Fence re Bs es es es 12 auNaleAMAlySES ve torte miaritsd ate of suse ena esd cM eee wy ositeioto@ esate Seite ore 13 lorale Amal SCS ieee ie cou sca ot crcrncur tide ote ss ak hs vee Se Gere Oe alae Basset ele 13 GeochemicalAnalySesi ne ary renee Ne ksh oat cee gee bas Yer s 13 INeotectonismuand Its: Effects‘on thesDelta.... 2 525 ss a te 13 Sea-level and Climatic Factors Affecting the Delta. .............. 13 Chrono- and Lithostratigraphic Correlations. .................. 18 Provenance; Dispersal,,and Paleopeography 2... ee ew a ee 18 Archeological: Considerations.) 4) e320 ic. ote eos tee ests ee aiteal ites ata vale 18 Anthropogenic:Factors. and Impact... 5 2 2508 es eS a 18 Niles Deltaalcasoons sh cou pouetey su ot te Bike ean ee eo alee ee eile 19 Comparing the Nile with Other World Deltas.................. 19 Applications for Delta;Management.. = 2. 2. 222s Sey Se 19 Appendix tc ‘Core: (ithological Logs. . ccs aires ee Wn oe ee eee we 21 Appendix.2+= core Sample: Data Listings 2.25 cn a ee eee 2 ete 205 Miteratures Cited owen i asic Bens enege cree, oa hee Get a einne wantends le dete send 426 ill Nile Delta Drill Core and Sample Database for 1985-1994: Mediterranean Basin (MEDIBA) Program Daniel Jean Stanley, James E. McRea, Jr., and John C. Waldron Introduction Modern marine deltas are vital agricultural and aquacultural resources for the world’s rapidly growing population. These coastal depocenters are generally low-lying and thus highly vulnerable to natural environmental changes, such as global sea-level oscillations and vertical displacement of land relative to sea level. Most of the world’s large deltas are subsiding, largely as an isostatic response to loading by thick depositional sequences and their compaction. Thus, even if global sea level were not to rise in the future, the lower plains and coasts of deltas are particularly prone to incursion by the sea, which will induce land loss and reduce agricultural productivity at a time when it is most needed. The situation will be substantially aggravated if global sea level should rise, as predicted by some for the next century (Wigley and Raper, 1992). Until recently, surprisingly little research pertaining to deltas has focused on differentiating the effects of global rise in sea level from those of lowering of land by isostasy, tectonism, and sediment compaction. This problem is of considerable concern, Daniel Jean Stanley, Deltas-Global Change Program, Department of Paleobiology, National Museum of Natural History, Smithsonian Institution, Washington, D.C. 20560. James E. McRea, Jr., Division of Paleobotany, Department of Paleobiology, National Museum of Natural History, Smithsonian Institution, Washington, D.C. 20560. John C. Waldron, Deltas-Global Change Program, Department of Paleobiology, National Museum of Natural History, Smithsonian Institution, Washington, D.C. 20560. Review Chairman: William A. DiMichele, Department of Paleobiol- ogy, National Museum of Natural History, Smithsonian Institution. Reviewers: Terry A. Nelsen, Atlantic Oceanographic and Meteorolog- ical Laboratory, National Oceanic and Atmospheric Administration, 4301 Rickenbacker Causeway, Miami, Florida 33149; and Donald J.P. Swift, Department of Oceanography, Old Dominion University, Norfolk, Virginia 23529. particularly in view of the increased effects of humans on world river and coastal systems. For example, emplacement of dams, diversion and dredging of river channels, intensification of agricultural projects, construction of increasingly complex and dense irrigation systems, and modification of coastlines are producing unexpected and frequently deleterious side-effects in deltaic areas. Coastal management reports on deltas all concur that this interaction of natural and anthropogenic factors is presently inducing accelerated changes in delta plains and coasts (Kay, 1993), and that these environments now require more active monitoring by scientists and engineers. Geologists can play a valuable role in this type of environmental monitoring in that they are trained to map and evaluate changes in time and space. Moreover, they are adept in using a multidisciplinary approach that integrates stratal geometry and petrologic, biological, and chemical information (Broussard, 1975; Coleman, 1982; Posamentier and Vail, 1987; Stanley and Warne, 1993a). It is recalled that the Nile delta, positioned in a desert environment on the northeastern African margin, was one of the first such depocenters to attract the attention of scholars interested in recording deltaic phenomena. In the mid-fifth century B.C., the Greek historian Herodotus called attention to some general sedimentological aspects of the Nile delta, and to its triangular shape giving rise to the term “delta” to denote this type of geographical feature. Despite this early interest, no systematic, comprehensive geological and environmental study of the Nile delta had been undertaken prior to the end of this century. A project to define the late Quaternary geological evolution of the lower Nile delta plain of northern Egypt, taking into account both natural and anthropogenic factors, was thus initiated in 1985 at the National Museum of Natural History, SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES “enasoy ‘Y pue ‘ejJop UssseayIIOU oY) UT TeuRD Zang 94} UO 10d URsURLISIIPIA| ay) ‘preg 10d “Sd ‘eseUTeD ‘D ‘enerueg ‘q ‘weg ‘g ‘eupueXeTy ‘y :BUIMOTIOJ OU) OPNJOU! SAHIO [EISBOD puL EI[IpP UIOYLON ‘saojuOWOId Jay) puke ‘(soyoueIg ENaSOY pur ENoTUTE) saLTeInqusIp TIN UTeW OM) “(GN = Te] ‘eyezuey] = ue] ‘nyp] =] ‘snyjnmg = ng) suooge] feseoo moj ay) are pajousp OSTY ‘sos SuLIOg JUcUIIPas URTUOSYyITWS /g ay) Jo suONIsod Sutmoys WdX3q Jo BIOP TIN UIOyION— | TANDLA SHoCE OEoCE SToE O00CE SbolE OfoTE STolE OOoTE SOE 0£00€ iSTOOE ,00.0€ \e L8 foe] n a & m S a) - N Vg tid a NVadad SINJOWO[TY CZ SOTA ST { T re [_srete OEE SToE O007E SPIE LTE SToIE OOoTE SPOE 0£00€ STOE 00.0¢ S067 0£067 000TE SToIE OfoTE SPoIE SPo6T 10£067 NUMBER 37 Smithsonian Institution. The Nile delta depocenter was specifically selected for several reasons: (1) this delta is the major breadbasket for Egypt, where the population is now approaching 60 million; (2) Egypt’s already limited percapita arable land has declined steadily to about 0.06 ha, now the lowest figure of any country in Africa (Biswas, 1993); (3) the delta’s northern sector is near (elevation of little more than 1 m) and in some areas below sea level, and thus it is particularly vulnerable to even small changes of sea level; (4) the delta has long been occupied, cultivated, and modified by humans (Butzer, 1976; Stanley and Warne, 1993b); and (5) its fluvial regime has been completely altered since the beginning of the century by intensified irrigation projects and emplacement of two dams at Aswan and also a series of barrages along the Nile from upper Egypt to near the Mediterranean coast (Waterbury, 1979). Following closure of the High Aswan Dam in 1964, numerous studies have focused on increased problems related to land reclamation (Waterbury, 1979; Biswas, 1993) and erosion of the Nile delta coast (UNDP/UNESCO, 1976, 1977, 1978; Abdel-Kader, 1982; Frihy, 1988; Smith and Abdel- Kader, 1988). Recent changes offshore (Stanley and Maldo- nado, 1977; Maldonado and Stanley, 1978; Coleman et al., 1981; Frihy and Lotfy, 1994), including those in the northern sector of the Suez Canal that crosses the northeastern delta (Morcos and Messieh, 1973; Stanley et al., 1982; Gerges and Stanley, 1985), have also been considered. It is of note, however, that as recently as the early 1980s, no systematic analyses had been made of the recent geological history of the landward part of the delta. In 1983, the senior author was invited to Egypt to assess the possibility of initiating a long-term geological study of the Nile delta and its evolution from latest Pleistocene to Holocene time. The Nile Delta Project was formalized and officially initiated in early 1985, and for ten years it became the major activity of staff and visiting scientists participating in the Mediterranean Basin (MEDIBA) Program. Throughout this period, the project was directed from the United States’ National Museum of Natural History, Smithsonian Institution, in Washington, D.C., and involved the cooperation of Egyptian scientists at the Coastal Research Institute in Alexandria, the Ain Shams University in Abassiya, Cairo, and the University of Cairo. More than 40 scientists from North America, Egypt, Europe, and Asia have been part of the Nile Delta Project team. To interpret the late Pleistocene and Holocene history of the northern Nile delta, including its coastal plain, lagoons, marshes, and strandline, the project emphasized study of a series of radiocarbon-dated sediment cores. A large number of borings were recovered from drill sites established across the northern delta (Figure 1), enabling us to interpret sedimentary facies and evaluate their changes in time and space by study of the petrology, geochemistry, fauna, and flora of approximately 3500 core samples. Remote sensing and archeological data were also used in this project. As a direct result of this joint effort, 52 articles have been published in scientific journals, 7 3 theses have been completed, and 25 presentations have been made at scientific meetings by the end of 1994. A synthesis article summarizing the salient aspects of the late Quaternary history (the past ~30,000 years are considered) of the northern Nile delta, based in large part on the study of the numerous core samples, was recently published (Stanley and Warne, 1993a). The present monograph serves as a companion document and detailed data source to this synthesis and also to earlier project publications. Its main purpose is to present a complete set of simplified lithologic logs of the 87 sediment cores (Appendix 1) and the results of textural and sand-size compositional analyses of 2496 core samples (Appendix 2) that constitute the foundation of Nile Delta Project investigations. We also provide herein a brief review of the various methods employed, and an inventory of specific topics and interpreta- tions published in scientific journals and as theses derived from these and other data collected as part of the project during the past 10 years. The present document is thus intended to provide a comprehensive database for the northern Nile delta during the late Pleistocene to Holocene that may be used by those responsible for monitoring changes in the rapidly evolving Nile delta depocenter. To facilitate data computer exchange and distribution, all the information published in this document (~75 megabytes) is accessible to users of the Internet from the Smithsonian Institution’s National Museum of Natural History Gopher Server at URL “gopher://nmnhgoph.si.edu/11/.paleo” or via hypertext document (http) at “http://nmnhwww.si.edu/go- pher-menus/.” Further information can be obtained from the National Museum of Natural History’s Collections and Research Information System (CRIS) Program, Washington, D.C. 20560. ACKNOWLEDGMENTS.—The Nile Delta Project within the Mediterranean Basin (MEDIBA) Program has been a team effort in every sense, involving the valued cooperation of many specialists from diverse organizations. The research has benefited greatly from their collaboration, input, and interac- tion during the past 10 years. Most came to the Smithsonian Institution, some for extended research visits of up to two years. We are indebted to the following for active contributions to various aspects of the research (listed in alphabetical order): H.S. El D. Abdel Wahab (Ain Shams University, Cairo), M. Abu-Zeid (Ain Shams University, Cairo), D. Arbouille (Petro- Consultants, Geneva), D. Arnold (Metropolitan Museum of Art, New York), M.P. Bernasconi (University of Calabria, Cosenza), Z. Chen (East China Normal University, Shanghai), V. Coutellier (Laboratoire de Géodynamique, Villefranche-sur- Mer), H.R. Davis (Environmental Protection Agency, Wash- ington), J. Dominik (University of Geneva, Versoix), G. Drapeau (University of Quebec, Rimouski), A. Foucault (Muséum National d’ Histoire Naturelle, Paris), G.L. Freeland (Freeland and Associates, Miami), O.E. Frihy (Coastal Re- search Institute, Alexandria), C.D. Gerber (Woodward-Clyde Consultants, Washington), M.A. Gerges (UNDP/UNESCO, Nairobi), H. Goedicke (The Johns Hopkins University, Baltimore), G.A. Goodfriend (Carnegie Geophysical Labora- tory, Washington), N. Gupta (Ohio State University, Colum- + bus), H.A. Hamroush (University of Cairo, Cairo), F.H. Hamza (Ain Shams University, Cairo), H.L. Howa (University of Bordeaux, Talence), M. Kontrovitz (Northeast Louisiana University, Monroe), V.A. Kulyk (The George Washington University, Washington), S. Leroy (Université Catholique de Louvain, Louvain-la-Neuve), N. Liyanage (Air Liquide Labo- ratories, Tsukuba), J.-L. Loizeau (University of Geneva, Versoix), F. Longo (University of Calabria, Cosenza), M. Morsi (Ain Shams University, Cairo), Y. Pan (Wuhan College of Geology, Hubei), A. Pimmel (Texas A & M, College Station), N. Pugliese (University of Trieste, Trieste), G. Randazzo (University of Catania, Catania), J. Schneiderman (Pomona College, Claremont), H. Sheng (National Museum of Natural History, Washington), B.S. Shergill (University of Kentucky, Lexington), F.R. Siegel (The George Washington University, Washington), M.L. Slaboda (The George Washing- ton University, Washington), J.M. Slack (Bossier Parish Community College, Bossier City, Louisiana), B. Thomas (Université Pierre et Marie Curie, Paris), and A.G. Warne (Waterways Experiment Station, Vicksburg). Our most special appreciation is expressed to our good friend, Dr. Bahay Issawi, Assistant Secretary for State in Cairo, for his strong support of our project. His recognition of the potential value of our research for Egypt, as well as his firm backing and persuasive initiatives to facilitate our field work in the delta, made all the difference. Dr. A. Bassiouni, Chairman of the Department of Geology, Ain Shams University, Cairo, encouraged the Faculty of Science and some of his staff to become involved in Nile delta research. We are indebted to Engineer A. Madi of MISR Raymond International in Cairo for maintaining technical interest in our project, with friendship, flexibility, and good will, and to Mr. M. Hamzawi, MISR Raymond supervisor in Ismailia, for his gentle and even humor, ingenuity, and human qualities that kept the work on schedule during those five drilling expeditions. We will also remember the long hours in the field shared with the drilling teams, which in 1985, 1987, 1988, 1989, and 1990 were so ably led by field supervisors Awad, Saleh, Moustafa, and El Moati. We express our gratitude to numerous persons who provided valuable assistance at the Smithsonian Institution: W. Boykins, H. Sheng, and J. Wingerath for processing samples in the Sedimentology Laboratory; R.L. Stuckenrath, Radiobiological Laboratory, for radiocarbon analyses made at the beginning of the Project; D.A. Dean, for thin section preparation in the Department of Paleobiology; M. Parrish, for drafting graphs and plates, at the Department of Paleobiology Illustration Laboratory; and V. Krantz, L. Thomas, and M.E. McCaffrey, for assistance at the Smithsonian’s Department of Photographic Services. Funding for the Nile Delta Project during the period 1985-1994 was provided primarily by numerous Smithsonian Institution awards and grants, including those from the Scholarly Studies Program, Office of the Assistant Secretary for Science, Office of Fellowships and Grants, Director of the SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES National Museum of Natural History, and the Museum’s Department of Paleobiology. A large part of the field expenses, including drilling, were generously borne by the Research and Exploration Committee of the National Geographic Society. We also gratefully acknowledge the much needed support to meet field, laboratory, and postdoctoral research expenses given by AMOCO, ARCO, ELF-Aquitaine (Washington), IEOC-Cairo, and TEXACO-USA. This monograph was kindly reviewed by T.A. Nelsen and D.J.P. Swift, and also by Z. Chen and A.G. Warne. Methods CORE COLLECTION.—The northern Nile delta plain is characterized by low gentle relief and dense vegetal cover, and by the general absence of surface exposures of older Holocene and late Pleistocene deposits. These attributes, plus the variable thickness (< 10 m to >50 m) and gentle inclination of subsurface Holocene strata, thus required that drilling be used to study the late Quaternary geological evolution of the Nile delta. The basis of the drilling strategy was to systematically recover complete sections of Holocene marine, brackish, and alluvial deposits of the modern Nile delta and portions of the underlying late Pleistocene alluvial deposits. Our preliminary surveys indicated that the area of major interest should extend across the entire deltaic arc, from the east at the Gulf of Tineh to the outskirts of Alexandria as far as Burg el Arab in the west (a distance of ~225 km). The study area in the low-lying northern third of the delta also extends as far south as ~30 km from the present Mediterranean coast (Figure 1) to ensure that long drill cores collected in this sector would allow reasonably detailed stratigraphic correlations and paleogeographic inter- pretations of former interfingering fluvial, deltaic, and marine sections to be made. It was anticipated that the region selected for drilling would help define those areas of the delta most susceptible to rising sea level and land subsidence. A total of 87 Smithsonian cores (S1-S87) ranging in depth from ~20 to 60 m (lithologic logs in Appendix 1) and relatively evenly spaced (~10 km) across the northern Nile delta were recovered (Figure 1). These were collected during five field seasons: cores S1-S17 in September—October 1985; cores S18-S30 in April-May 1987; cores S$31-S46 in August- September 1988; cores S47-S65 in September 1989; and cores $66-S87 in August-September 1990. Drilling of the cores was made progressively from east to west across the northern Nile delta. Positioning of drill sites in the field was determined using recent detailed contour maps (scale 1:50,000) compiled since the 1970s by the U.S. Defense Mapping Agency Hydrographic/Topographic Center in Washington, D.C. (DMA Map Series P 773 and 1501 NH 36), and also diverse sets of satellite images. Core number, total core length, date of core recovery, latitude and longitude, and approximate geographic position of each of the 87 core sites is listed in Table 1. Accuracy of core site positions in most cases is to NUMBER 37 TABLE 1.—Data pertaining to Smithsonian boring sites S1-S87 collected as a primary base for the Nile Delta Project in 1985, 1987, 1988, 1989, and 1990. General information lists the total length of core, date of recovery, latitude, longitude, and approximate location of the drill site (see Figure 1). U.S. Defense Mapping Agency chart series P 773 and 1501 NH 36 served as a control for latitude and longitude, which provides accuracy to within 6 seconds, or ~200 m. Borehole number Total Date Approximate length (m) recovered Latitude Longitude location 28.96 9/25/1985 31°26'54”N 31°46'42”E In Abbas Zahir 19.81 9/29/1985 31°18'18"N 31°36'18”E 1.2 km ENE Abu Hammuda 29.87 9/23/1985 31°17'48"N 31°43'24"E 0.9 km SW El Ghuneimiya 32.46 9/30/1985 31°13’42”N 31°30'54’E 1.5 km NNW El Hisas 27.43 9/19/1985 31°11’36’”N 31°39'30"E 1 km NW Nas! Ez. Hasan Shakir 26.37 9/16/1985 31° 6'30”N 31°42’36"E 1.5 km E El Gineina 24.38 9/12/1985 31° 7'48’N 31°52’18"E 6.5 km SW Manzalah 41.30 9/8/1985 31°12’48’N 32° 2:18°E 2.5 km N El Matariya 15.70 9/4/1985 30°58’42”N 31°52’42”E 1 km E San El Hagar El Qibliya 24.38 9/2/1985 30°51’24”N B22 2GE: 2 km NNE El Munagat El Kubra 29.87 9/8/1985 30°55’12”N 32°18'24’"E 3.5 km SE Ez. El Cop 23.77 9/12/1985 31° 3’48”N 32°33'18"E 2.5 km NE Tel El Farama 30.48 9/15/1985 31° 4’42’”N 32°23'36"E Israeli Rd. 7.8 km E of Suez Canal 23.16 9/18/1985 30°59’54”N =. 332°28'12”E 7.5 km WSW Baluza 35.36 9/22/1985 31° 7'30’N 32°30'18”E 9 km NW Tel El Farama 28.04 9/30/1985 31°21’36’N 32° 3'48’E 1 km WSW Ez. Shalabi El Rudi 43.28 10/1/1985 31222742 Ni 9 31°S7/S45E 0.7 km NE Geziret Umm Abdalla 53.19 4/26/1987 31° 4’42’N 32°20'30"E 11.5 km WNW Tel Farama 12.19 5/2/1987 31° 2'54’N 32°33’ O”’E At Tel Farama 50.29 5/4/1987 31° 6'36’N 3221187 (67E 1 km W Suez Canal NE Extension 49.38 5/17/1987 31°13’48’N — 32°20'30"E 3 km SE Port Fouad 37.80 5/12/1987 31° 1/18’N 32°12'30°E 2 km W Ushash Arab Zeidan 13.72 5/10/1987 30°49’48”"N 3221S pl2cE In Alawi Umm El Rish 10.97 5/9/1987 30°51’ 6”N 32°10'18’E 5.5 km SW Ushash Ibrahim Abu Muh 14.33 5/13/1987 30°57'42”N —-32°10’48”E 4 km SW Ushash Arab El Gadadia 13.72 5/12/1987 30°54’24"N =. 32°: 1’48”E 0.2 km SE Minshat Abu Omar 15.24 5/16/1987 31° 0'24’N B22 PSS aE! 3 km S Ubash Mallaha 36.58 5/24/1987 31°26’30’N = 31°33’18"E 0.7 km SSW Ez. El Gamasa El Shardya 39.62 5/25/1987 31°21°42”N 31°27) 69E 0.5 km W Ez. El Mazia 42.67 5/22/1987 31°24’30"N = 32° (0'42”E 4 km NW Ez. Shalabi Rudi 45.72 8/21/1988 31°22’ 6’N 31°36’ O”E 2.5 km E Kafr Wastani 21.34 9/1/1988 31°16'48"N = 3.1924’30"E 0.3 km SW Hagg Shirbin Ez. Bahr El Ish 25.91 8/27/1988 31°24’42”N —- 331°21’48”"E 0.5 km N Ez. El Gezira 39.62 8/29/1988 S27 2ZNiee o1c2301 878 2 km N Abu Madi 35.05 8/24/1988 31°31’42”N 31°18’30°E 1 km SE Qabr Sidi Durrgnam 45.72 9/5/1988 31°27'48”N 31°15'24"E 0.5 km W ruins Kom Niqueza 21.34 8/31/1988 31°22’12”N 31°16'48”E 3.3 km SE Kabira Gazireyet El Darfil 27.43 9/8/1988 31°25'18’N = 31°10'24”E In Ez. El Baralsa 18.29 8/29/1988 31°25’12”N 31° 4’24"E 0.75 km SE Kom El Masura 28.19 8/24/1988 31°30'48’N 31° 830°E 1.7 km NNE Hammad Mahattet El Kasha 51.82 9/14/1988 31°34’30”N 31°12 189E In Hammad Mahattet El Kasha 45.72 9/13/1988 31°35’54”N 31° 5’48’E 0.7 km E Baltim Resort Center 42.67 8/25/1988 31°35/12”N 30°58'42’”E In El Burg 21.34 9/4/1988 31°26'12”N 30°59’30"E 1.8 km SE Geziret El Isbiryas 30.48 8/30/1988 31°30'30’N 31° 1’54”E In Rsa El Bar 45.72 9/10/1988 31°24’ 0”’N 30° 8'54”E 3.5 NNE Kom El Nashwein 42.67 9/3/1989 31°32’24”N 30°50'12”E In Arab El Hanafi 43.28 9/6/1989 31°30'12”N 30°46’30’E 4.5 km SW Kiman El Saiyar 41.15 9/4/1989 31°28’30’N 30°41’ 6”E 1 km SW Kom Mastaroh 41.15 9/5/1989 31°26’ 6”N 30°34'54”E 3.5 km SSW Kom Mishtil 41.15 9/6/1989 31°22'12”N 30°29'42”E 0.4 km S Ez. El Sakara 41.15 9/7/1989 31°24’24”N 30°46'12”E 2 km NE Ras EI Husan 27.43 9/8/1989 31°23’42’N 30°40'36"E 0.4 km SW Atlet El Bagar 19.51 9/9/1989 31°1936”N 30°47'30°"E 0.4 km N El Haddadi 19.81 9/9/1989 31°18’54”N 30°40'18”E In Ez. El Saiyid Mansur 19.81 9/10/1989 31°19’30’N 30°31'24’"E 1 km SW Minyet El Murshid Borehole Total Date number |length(m) recovered Latitude S57 19.81 9/10/1989 31°22’24’”N $58 22.86 9/11/1989 31°23’ 6’N $59 41.15 9/12/1989 31°27'42”N S60 30.48 9/12/1989 31°19’42”N S61 41.15 9/13/1989 31°13’36’N $62 24.38 9/14/1989 31°16’30”N $63 22.25 9/14/1989 31°21’ O”N S64 41.15 9/16/1989 31°24’30"N S65 48.62 9/15/1989 31°28’36"N S66 20.12 8/29/1990 31°16’ 6’N $67 19.81 9/1/1990 31°10'30"N S68 44.20 8/30/1990 31°16’30"N S69 19.81 10/1/1990 31°1136”N $70 19.81 9/2/1990 31°10'54’N S71 44.20 9/2/1990 31°15’54"N $72 19.81 9/3/1990 31°13’54’"N $73 44.20 9/3/1990 31°16'36"N $74 18.29 9/4/1990 31°13’24”N S75 24.38 9/4/1990 31°16'24"N S76 19.81 10/4/1990 31°13’48’N S77 40.54 10/6/1990 31°10’48”N S78 19.81 10/8/1990 31° 9’ O’N $79 42.67 9/5/1990 31° 6/12”N S80 45.72 9/7/1990 31° 6’ 6’N S81 21.34 10/10/1990 31° 3/12”N $82 30.48 9/8/1990 31° 3’ O’N $83 45.72 9/9/1990 31° 3’24’N $84 22.86 9/11/1990 30°59’36”N $85 10.21 9/10/1990 30°55’24”"N S86 41.15 10/11/1990 30°5118”N 9/12/1990 30°44’24”"N within 200 m. More detailed notations made during the course of drilling, including more exact position of boring sites (to within 50 m), are recorded in a series of 12 field books permanently archived at the National Museum of Natural History. Two ACKER II trailer-mounted rigs were used concurrently by two drilling teams during each of the five expeditions (Figure 2). Casing was used at sites where thick subsurface sections of sand or soft mud prevailed (Figure 3). Sediment recovery at each drill site was continuous, by progressively connecting iron core tube barrels of either 5 foot (1.52 m) or 10 foot (3.05 m) lengths. Sediment core diameter ranged from 8 to 10 cm. Recovery of moderate to well-indurated mud-rich sections was good to excellent, preserving original physical and biogenic structures. Extrusion of very stiff mud, usually highly consolidated clayey silts of late Pleistocene age, was usually accomplished by high-pressure pumping of circulated water (Figure 4). Collection of very soft (undersaturated) mud and thick sand mud sequences proved more difficult. Where sections were comprised essentially of sand, washings from pumped circulated water (rather than cores) were obtained from core tubes (Figure 5), usually at 1 to 2 m depth intervals. Original structures are not preserved in these washings. In the SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES Approximate Longitude location 30°35’42”E Fish market 1 km SE Gazayir El Minsirib 30°25'48”E 0.7 km N Giddiya 30°26'30”E 3 km NE Abu Khashaba 30°24'36”E 0.4 km SE El Buseili Station 30°22’18”E 6 km WSW Hamad Dumeih 30°19'42”E 3.3 km SE Idku 30°18'54”E 1.6 km NE El Nawa Fort 30°20’42”E 0.2 km SW El Farash Fort 30°21’30"E 0.6 km SSE Sidi Mansur 30°27'24”"E 2.2 km W El Faiza 30°19'54”E 1.5 km S Ibr Zaiyat Ez. Kom Aziza 30°13’54’E 1.5 km NNE Gazayir El Tawila 30°16’30"E 1 km NNE Barsig Pumping Station 30°10'24”E 0.5 km SE Minshat Bulin 30°10'24”E 0.5 km SW El Miaddiya Outlet 30° 8’ O’E In Kom Tarfa 30° 5’ O”’E 0.6 km N Ez. Hod #4 30° 4’42”E 0.8 km NNE El Akhdar 30° 2'48”E In Ez. Maqnas 30° 0°48”E 3 km SSE Ez. Farqon 29°55'54”E 1 km SW Fouad 1 Airport 30° 2’24’E 1.5 km NE Kom Lunsan 29°56'54”"E 3 km SW Prince Omar Tusan’s kiosks 29°51/12”E 1.8 km NW Kom El Shuran 29°59'30°E 1.8 km NE Prince Omar Tusan’s house 29°52’24”"E 2 km E Kom Mitauwh 29°46'12”E 5.5 km NW El Gamiriya 29°37’ 6"E 0.8 km SSW Manaret fish market 29°31'36"E 1.5 km NW Burg El Arab 30°47'48”"E 3 km Kafr El Zaiyat 31° 1'54’E 0.7 km S El Malwani Mosque western part of the study area, between Alexandria and Burg el Arab, semiconsolidated to indurated carbonate sections were recovered (Figure 6) beneath thin Holocene sections. Upon extrusion from the drill barrel, sediment core sections were cut into ~1.5 m lengths (Figure 7), laid in plastic liners, described, photographed, and then wrapped and sealed with plastic sheeting and placed in specially prepared 1.5 m-long wooden boxes (Figure 8). Washings were collected in plastic jars. Cores were assigned consecutive roman numerals, whereas washings received consecutive arabic numerals, down-boring. Cores and washings were then transported by air to the Smithsonian Institution in Washington, D.C., where they were stored in a refrigerated room prior to study. Upon recovery, representative core and washing samples (30-40 per core) were also selected from each boring and provided to our Egyptian counterpart organizations: cores $1-S17, to Dr. M. Khafagy at the Coastal Research Institute, Alexandria, in 1985; and cores $18-S87, to Dr. A. Bassiouni at the Department of Geology at Ain Shams University in Abbassia, Cairo, in 1987, 1988, 1989, and 1990. Descriptions recorded in the field for each recovered core section include depth, length of drill barrel used, length of sediment section recovered, sediment color, gross texture and NUMBER 37 obvious sedimentary structures, biogenic features (such as shell and peat), and sediment density (hardness, consistency) using a pocket penetrometer. Color, texture, and unusual features were also recorded for sands collected as washings. Upon recovery, 35 mm color slide photographs were made of every core section at approximately 50 cm length intervals, with some overlap, and these include a metric scale to determine core length. These photographs and data notations in field books are maintained at the National Museum of Natural History. In addition to the above, lithologic logs and representative samples from nine long drill cores collected earlier in the Manzala Lagoon area were provided by the Coastal Research Institute in Alexandria to the Nile Delta Project team for additional study in Washington (Stanley and Liyanage, 1986). We also consulted lithologic logs of northern Nile delta drill borings from various unpublished sources, such as engineering consulting firms, the Egyptian Ministry of Irrigation and Agriculture departments, the Suez Canal authority, and U.S. AID reports, and in publications including those of Attia (1954) and UNDP/UNESCO (1978). These valuable documents supplemented information from the five Smithsonian drilling surveys (published in, respectively, from east to west: Coutellier and Stanley, 1987; Stanley, Warne et al., 1992; Arbouille and Stanley, 1991; Chen et al., 1992; Warne and Stanley, 1993b). Two Smithsonian cores collected in the central delta near Kafr El-Zaiyat and Tanta (S86 and S87) are described by Chen and Stanley (1993). In addition to the long drill cores cited above, a suite of about 100 short cores, for the most part less than | m in length (Figure 9), along with approximately 200 surficial samples, were also collected for more specific study of the Nile delta lagoons (Manzala, Burullus, and Idku), former Abu Qir Lagoon, and Lake Mariut. These sediment samples are not presented in this monograph, but they are described in archival field books and detailed in publications by Randazzo (1992), Loizeau and Stanley (1993), Bernasconi and Stanley (1994), Loizeau and Stanley (1994), and Siegel et al. (1994). Also described elsewhere in a series of publications are data on short cores and surficial samples collected seaward of the delta on the shelf and Nile Cone (Stanley and Maldonado, 1983; Anastasakis and Stanley, 1984, 1985; Stanley, 1985, 1988a; Frihy et al., 1995), in the Suez Canal (Stanley et al., 1982), and in the River Nile (Schneiderman, 1995). LABORATORY ANALYSES.—Extensive petrological, geo- chemical, faunal, and floral studies of the 87 long drill cores (S1-S87) were made so as to define the major late Pleistocene and Holocene (to modern) lithofacies in the northern Nile delta and to more precisely distinguish among prodelta, delta-front, strandline, lagoon, and floodplain deposits. This information was then used to make lithostratigraphic correlations and paleogeographic maps of the northern delta, to calculate land subsidence rates, and to interpret sea-level and climate changes through time. FIGURE 2.—Trailer-mounted ACKER II equipment of the type used during the five Nile delta drilling surveys described in this study. Photograph taken at site S69 in September 1990. The core sections were placed in a high humidity refrigerated room, with the temperature maintained at 4° C, until they were ready for study. After the cores were split, all sections were x-radiographed using 14 x 17 inch (35.6 x 43.2 cm) industrial film, and positive prints (1:1 scale) were made from the x-radiographs. Split core sections, while still moist, were then photographed, using 35 mm color slide film, at about 40 cm length intervals, with some overlap. A detailed lithological log was made of each Smithsonian core on the basis of visual observations, including color, details of sedimentary and biogenic structures in the strata, subtle features noted in x-radiographs, and penetrometer sediment hardness readings of the split cores. These notations were compiled and recorded during the period 1985 to 1992 in laboratory books presently archived, along with the complete set of x-radiographs and SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES FIGURE 3.—Large-diameter pipes in foreground are used for casing, particularly when drilling in thick sections of sand and/or soft mud. Note 10-foot (3.05 m) lengths of drill pipe assembled near the drilling equipment. Photograph taken at site S11 in September 1985. ee FIGURE 4.—Extrusion from drill pipe of stiff clayey silt of late Pleistocene age, using high pressure pumping of circulated water. Photograph taken at site S55 in September 1989. NUMBER 37 FIGURE 5.—Recovery of sediment from washings of circulated water in a thick sand sequence. Photograph taken at site S77 in September 1990. color slides of split cores, at the National Museum of Natural History. Petrologic attributes for core sections and washings derived from these documents were used to draft detailed lithologic logs of the 87 borings. Simplified logs are presented in Appendix 1. To obtain more detailed petrologic information, samples were collected down-boring at every change of lithology, or in the case of homogenous sections at a minimum of 50 cm intervals (except in the case of washings) along the entire length of the boring. More than 2500 samples were selected from the 87 borings, or an overall average of ~30 samples per core, for standard textural and compositional analyses (data listed in Appendix 2). Core and washing sample numbers and depths in this listing correspond to those shown on the lithologic logs in Appendix 1. FIGURE 6.—Drilling through consolidated carbonate section of late Pleistocene age in the region west of Alexandria. Pumped water is typically white when circulated through drilled carbonate sequences. Photograph taken at site S85 in September 1990. The proportions of sand (> 63 um), silt (2-63 ym), and clay (<2 um) fractions were determined by sieve and pipette analyses. A separate study of the relative percentages of components forming the sand-sized fraction in all samples was made using a binocular microscope, following the petrographic method of Coutellier and Stanley (1987), Frihy and Stanley (1988), and Stanley and Chen (1991). Relative percentages of major sand-sized components were calculated from point counts of > 300 grains for all samples. The 16 components counted include 8 mineralogical (light and heavy minerals, mica, glauconite/verdine, pyrite, evaporite/gypsum, lithic fragments, aggregate), 6 faunal (indeterminate shell fragments, foraminifera, ostracod, gastropod, pelecypod, sponge), and 2 floral (plant fragments, including seed and fiber, and diatom). FIGURE 7.—Mud-rich sediment core of Holocene age placed in a plastic liner after extrusion from the drill barrel. Photograph taken at site S18 in April 1987. Proportions of the various sand-sized compositional compo- nents and their positions along the core length (data in Appendix 2) are graphically depicted on each of the core lithologic logs (Appendix 1). All this information has been used in a series of geological studies of the northern delta, including the five regional surveys by Coutellier and Stanley (1987), Arbouille and Stanley (1991), Stanley, Warne et al. (1992), Chen et al. (1992), and Warne and Stanley (1993b). In addition to the 2500 samples taken from the 87 long cores cited above, another ~1000 core samples were selected for separate, more specific, petrographic and faunal study. These include those of the sand-sized fraction examined for glauco- nite/verdine (Pimmel and Stanley, 1989), surface features of quartz (Frihy and Stanley, 1987; Stanley and Chen, 1991), heavy minerals (Stanley et al., 1988; Foucault and Stanley, 1989; Stanley, 1989), and carbonates (Stanley and Hamza, SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 1992). Biogenic fractions of sand-sized material in numerous core samples also were examined: foraminifera (Kulyk, 1987); ostracods (Pugliese and Stanley, 1991); molluscs (Bernasconi et al., 1991; Longo, 1992; Bernasconi and Stanley, 1994); and plant matter (Howa and Stanley, 1991). Volcanic shards (Stanley and Sheng, 1986) and pollen (Leroy, 1992) were detailed in the silt-size fraction of some long core samples in the Manzala Lagoon area. Analyses of clay minerals also were made (Stanley and Liyanage, 1986; Abu-Zeid and Stanley, 1990; Abdel Wahab and Stanley, 1991). Geochemical analyses of long core samples were made in the northeastern Nile delta using either the sand fraction (Hamroush and Stanley, 1991; Allen et al., 1993), the silt and clay fractions (Dominik and Stanley, 1993), or primarily the clay fraction (Gerber, 1988; Gupta, 1989; Shergill, 1990; Siegel et al., 1995). The petrology, including structures, petrography, and tex- ture, of short core sections and surficial grab samples in different localities was also examined, using methods compara- ble to those employed for study of the long cores. These areas include the following: the Nile delta shelf and Nile Cone (Stanley and Maldonado, 1983; Anastasakis and Stanley, 1984, 1985; Stanley, 1985, 1988a, 1989; Frihy et al., 1995); Suez Canal (Stanley et al., 1982); delta lagoons (Randazzo, 1992; Longo, 1992; Loizeau and Stanley, 1993, 1994; Siegel et al., 1994); and the River Nile between Aswan and the Mediterra- nean coast (Schneiderman, 1995). RADIOCARBON DATING.—An essential part of the Nile delta core study was to clearly distinguish subsurface Holocene from late Pleistocene sections and to subdivide Holocene sections into viable mappable stratigraphic sequences. It was anticipated that by obtaining a large set of radiocarbon dates we could establish a chronostratigraphic framework that would enhance regional litho- and biostratigraphic correlations. A total of 412 samples in 86 of the borings (all except core S65) were submitted for radiocarbon dating (Table 2); of these samples, 358 provided radiocarbon ages, and 54 had insufficient carbon for reliable dates. This constitutes a base of approximately four dates per boring. Sample positions and depth in the borings are shown in the lithologic logs in Appendix 1. Material selected for dating was obtained from split core sections 10-12 cm in length. Most of these dates were obtained using total carbon in dark olive organic-rich layers (for the most part lagoonal deposits) and peats (marsh deposits); shell matter was also used in a few instances. Most analyses were made by Beta Analytic Inc.© of Miami, Florida; an additional 19 samples, selected from borings S7 and S8, were treated by the Smithsonian Institution’s Radiobiology Laboratory. The dates are shown in Table 2 and in Appendices 1 and 2, and the permanent radiocarbon record numbers are also listed in Table 2. Chronostratigraphic correlations based on these data are depicted in a series of published studies made across the northern delta, from east to west: Coutellier and Stanley (1987); Stanley, Warne et al. (1992); Arbouille and Stanley (1991); Chen et al. (1992); and Warne and Stanley (1993b). NUMBER 37 11 FIGURE 8.—After extraction from the drill barrel, mud-rich sediment cores are cut into 5-foot (1.5 m) lengths, placed in plastic liners, and described prior to storage in boxes. Photograph taken at site S55 in September 1989. Short cores in other sectors have also been radiocarbon dated, and this information is available in several publications: in the northern Suez Canal (Stanley et al., 1982); and in the Nile delta shelf and Nile Cone (Stanley and Maldonado, 1983; Anastasakis and Stanley, 1984, 1985; Stanley, 1985, 1988a). Identified archeological material preserved in cores (Stanley et al., 1992; Warne and Stanley, 1993a) and a dating study emphasizing the amino acid racemization methodology on several long cores (Goodfriend and Stanley, 1996) provide additional age information on the Holocene delta sections. Nile Delta Project Data Used in Scientific Literature STUDIES LISTED BY LOCATION A recent bibliographic listing of all known publications through 1993 that pertain to the geology and geography of the Nile delta proper and its immediate vicinity, on land and offshore, recently has been compiled (Stanley et al., 1994). It is of note that during the past decade there have been over 50 articles published in the scientific literature and seven theses have been completed as a direct result of research undertaken in Egypt as sponsored by the Nile Delta Project. These describe in considerable detail the various methods used in the study of the Nile materials cited above. Most of these documents include at least some of the S1-S87 core data referred to in the previous section and presented in Appendices 1 and 2. A series of publications that draw upon the Smithsonian Institution’s borings and core sample data focus on the late Pleistocene to Recent paleogeographic evolution of the northern delta plain. Many of these emphasize petrologic descriptions, lithofacies interpretations, chrono- and lithostrati- graphic core-to-core correlations of late Quaternary sections, and the effects of sea-level change, climate, neotectonism, and sediment transport processes on Nile delta deposits. These investigations include studies of the northeastern delta (Coutel- lier and Stanley, 1987; cores S1-S17; Stanley, 1988b; cores S1-S36); the northern delta (Stanley, Warne et al., 1992; cores S1-S16, S28-S46); the north-northwestern delta (Arbouille and Stanley, 1991; cores S38-S59); and the northwestern delta (Chen et al., 1992; cores S51-S78; Stanley and Hamza, 1992; cores $74-S85; Warne and Stanley, 1993b; cores S72-S85). A study using selected borings in the central delta (cores S86 and S87) was made by Chen and Stanley (1993). Other Nile Delta Project studies of the lower plain region, focusing on the late Holocene to present time, have primarily used short cores (< 1 m length) and surficial sediment grab samples, rather than the long S-cores. Study areas include FIGURE 9.—Recovery of a short core (~1 m) in Manzala Lagoon. Photograph taken at short core site Man-IV and collected in September 1989. Manzala Lagoon (Randazzo, 1992; Slaboda, 1993; Bernasconi and Stanley, 1994; Siegel et al., 1994), Burullus Lagoon (Bernasconi and Stanley, 1994), Idku Lagoon (Loizeau and Stanley, 1993; Bernasconi and Stanley, 1994), and Mariut Lake (Bernasconi and Stanley, 1994; Loizeau and Stanley, 1994). Analyses were also made on Suez Canal sediments, including those in its northern sector, positioned in the northeastern Nile delta (Stanley et al., 1982; Gerges and Stanley, 1985; Bernasconi and Stanley, in press). A petrologic investigation of lower Nile River deposits, between the Egypt-Sudan border and Cairo, has been initiated with a first study on heavy minerals completed by Schneiderman (1995). Studies of late Quaternary deposits seaward of the Nile delta include those on Abu Qir Bay (Frihy et al., 1995) and several on the Nile delta shelf and Nile Cone (Stanley and Maldonado, 1983; Anas- tasakis and Stanley, 1984, 1985; Stanley, 1985, 1988a, 1989). SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES STUDIES LISTED BY TOPIC AND THEME In addition to geographic attribution, most of the studies listed above, along with other published scientific articles and theses completed during the course of the Nile Delta Project, can be listed by specific topic or theme. We recognize 12 major categories in which we can incorporate data collected as part of the project. As would be expected, most published articles and theses can be assigned to at least two or three of these. Each category comprises contributions listed chronologically, in- cluding year, last name of author(s), and abbreviated topic notation. For complete reference citations, the reader is directed to the Literature Cited in this publication. PETROLOGY, COMPOSITION, AND TEXTURE.—Most studies made during the course of the project consider lithologic attributes, such as sedimentary and biogenic structures, grain size, and composition of sand- and clay-size fractions. It is primarily on this basis that Nile delta facies of late Pleistocene and Holocene age are defined and interpreted, and their distribution mapped in time and space. 1982 Stanley, Freeland, and Sheng: Suez Canal sedi- ments 1983 Stanley and Maldonado: Nile Cone sedimentation 1984 Anastasakis and Stanley: Sapropels on the Nile Cone 1985 Stanley: Mud redeposition on the Nile Cone 1985 Anastasakis and Stanley: Sapropels on the Nile Cone 1986 Stanley and Sheng: Volcanic shards in the delta 1986 Stanley and Liyanage: Clay minerals in the northeastern delta 1987 Frihy and Stanley: Quartz grain surface textures 1987 Coutellier and Stanley: Petrology and lithofacies, northeastern delta 1988 Frihy and Stanley: Texture and composition of delta deposits 1988 Stanley, Sheng, and Pan: Heavy minerals, north- eastern delta 1988 Gerber: Clays and geochemistry, northeastern delta cores 1988a Stanley: Sedimentation on the Nile delta shelf 1989 Pimmel and Stanley: Verdinized fecal pellets in Holocene deposits 1989 Foucault and Stanley: Heavy minerals, northeast- ern delta 1989 Gupta: Clays and geochemistry, northeastern delta 1989 Stanley: Heavy minerals between the delta and Israeli margin 1990 Abu-Zeid and Stanley: Clay minerals, northeastern delta 1990 Shergill: Clays and geochemistry, northeastern delta 199i Abdel Wahab and Stanley: Clay minerals, northern delta NUMBER 37 1991 Arbouille and Stanley: Petrology and lithofacies, northern delta 1991 Howa and Stanley: Petrology and plant matter across the delta 1991 Stanley and Chen: Stain-grained and sand-size composition of diverse moder delta facies 1992 Stanley and Hamza: Carbonate sediments, north- western delta 1992 Stanley, Warne et al.: Petrology and lithofacies, northern delta 1992 Randazzo: Petrology of Manzala Lagoon sedi- ments 1992 Chen, Warne, and Stanley: Petrology and lithofa- cies, northwestern delta 1993 Chen and Stanley: Alluvial stiff muds, late Pleisto- cene 1993b Warne and Stanley: Petrology and lithofacies, northwestern delta 1993 Loizeau and Stanley: Lithofacies, Idku Lagoon 1994 Loizeau and Stanley: Lithofacies, Mariut Lake 1995 Frihy, Moussa, and Stanley: Abu Qir Bay sedi- ments 1995 Schneiderman: River Nile sands between Aswan and the delta FAUNAL ANALYSES.—Studies in this category include micro- and macro-fossil analyses in long cores in the northern Nile delta, and also short core and grab samples collected in delta lagoons. These investigations provide ecological informa- tion on depositional environments. 1987 Kulyk: Foraminifera in the northeastern delta 1991 Bernasconi, Stanley, and DiGeronimo: Molluscan faunas in the northeastern delta 1991 Pugliese and Stanley: Ostracodes in the northeast- ern delta 1992 Longo: Molluscan faunas and palaeoecology in delta lagoons 1994 Bernasconi and Stanley: Molluscan biofacies in delta lagoons FLORAL ANALYSES.—To date, only two floral studies in Nile delta sediments have been completed within the framework of this project. Plant matter of sand size and pollen in long cores provide information on paleoclimatological and paleoecologi- cal changes with time in the study area. 1991 Howa and Stanley: Plant matter distribution across the northern delta 1992 Leroy: Palynological assemblages, northeastern delta GEOCHEMICAL ANALYSES.—Included in this category are investigations of trace and rare earth elements, which provide information on environmental and paleoclimatic changes through time, provenance, and dispersal, and the means to 13 gauge increased pollution in northern delta sectors, including lagoons. 1988 Gerber: Trace elements, northeastern delta 1989 Gupta: Trace elements, northeastern delta 1990 Shergill: Trace elements, northeastern delta 1991 Hamroush and Stanley: Rare earth elements and paleoclimate oscillations 1993 Allen, Hamroush, and Stanley: Trace elements and archaeological implications 1993 Dominik and Stanley: Trace elements and peats 1993 Slaboda: Trace elements in recent Manzala Lagoon 1994 Siegel, Slaboda, and Stanley: Trace elements and pollution in Manzala Lagoon 1995 Siegel et al.: Trace elements in cores of the northeastern delta NEOTECTONISM AND ITS EFFECTS ON THE DELTA.—Studies listed below emphasize the vertical motion of land, rates of subsidence, and evidence of tilting to the northeast of the Nile delta during the late Quaternary. Measurements involve displacement of radiocarbon-dated lithofacies, which were originally deposited at or near sea level and are now buried below the delta plain surface. 1985 Stanley and Wetzel: Structural displacement in the southeastern Mediterranean 1988b Stanley: Subsidence rates in the northeastern delta 1990 Stanley: Subsidence and tilting of the delta plain 1991 Arbouille and Stanley: Subsidence in the northern delta 1992 Stanley, Warne et al.: Subsidence in the northern delta 1992 Chen, Warne, and Stanley: Subsidence in the northwestern delta 1992 Stanley: Subsidence rates of the northern delta plain 1992 Stanley, Arnold, and Warne: Subsidence and burial of a Predynastic site 1993a Stanley and Warne: Synthesis of delta subsidence 1993a Warne and Stanley: Measuring subsidence rates using archeological data 1993b Ware and Stanley: Subsidence in the northwestern delta SEA-LEVEL AND CLIMATIC FACTORS AFFECTING THE DELTA.—Investigations in this category emphasize the influ- ences of global (eustatic) sea-level oscillations, excluding land motion, and effects of climate change, which controlled fluvial and sediment input and delta aggradation during the late Quaternary. 1987 Coutellier and Stanley: Northeastern delta 1991 Arbouille and Stanley: North-central delta 1991 Hamroush and Stanley: Paleoclimatic oscillations 1992 Stanley, Warne et al.: North-central delta 14 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES TABLE 2.—Radiocarbon dates for samples from boreholes S1-S87, in uncorrected years before present (BP). Data listing includes depth from top of boring, Smithsonian sample letter code, and number code assigned by Beta Analytic Inc.©; the 19 samples analyzed by the Smithsonian’s Radiobiology Laboratory are designated by the SI letter code prefix. Borehole Smithsonian Borchale Smithsonian Beta aarnbor sample Bnee Depth sample sample Age number (m) number number (years BP) Sl 2 A 19414 2930 + 90 12.5 J SI7050A 14030 + 240 8 B 19415 3230 + 160 15.5 K SI7051A Insufficient C 9.5 Cc 19416 2360 + 100 16 D 17246 32910 + 1740 15.5 D 19417 6410 + 180 18 L S17052A 26800 + 560 23 E 19418 7590 + 130 19 M SI7053A 38220 + 800 28 B ae theses) $8 1 A 17248 4170+ 120 $2 1.5 A 18554 1830 + 70 3 A’ S17106 4025 + 180 3.5 B 18555 3800 + 90 5) B 17249 4230 + 90 75 C 18556 5110+ 80 9.5 B S1I7107 4695 + 115 9.5 D 18557 6580 + 100 16 C SI7108 5110490 12.5 E 18558 7110+ 70 20 D $17109 6965 + 110 19 F 18559 14000 + 280 25 E 17110 Insufficient C 53 3 A 20255 3030 + 80 26 F 17111 Insufficient C 27 E 17250 6760 + 140 8.5 B 20256 4200 + 100 36 F 17251 7300 + 110 11 Cc 20257 5950 + 100 40 G SI7112 9060 + 90 15.5 D 20258 7510 + 110 21.5 E 20259 7180 + 110 S9 2 A 17252 3740 + 150 26 F 20260 7480 + 90 4.5 B 17253 5140 + 80 54 1 A 18905 2990 + 90 12 Cc 17254 Insufficient C 2.5 B 18906 2150 + 100 S10 7 A 17255 21880 + 970 5.5 Cc 18907 4080 + 130 8 B 17256 Insufficient C 78 BD 13708 SeeO 2) S11 2 A 16686 2550 + 80 10 E 18909 5510 + 150 5.5 B 16687 4570 + 170 12.5 F 18910 6880 + 100 8.5 Cc 16688 5190 + 100 14 G 18911 7020 + 120 16 H 18912 7020 + 140 ul iD 16689 UO 120 14.5 E 16690 6475 + 90 S5 2 A 20544 1450 + 80 23 F 16691 9820 + 400 4.5 B 20545 2450 + 80 75 Cc 20546 4340 + 120 $12 2 A 18115 Insufficient C 13 D 20547 6390 + 110 2 B LINO Jobe 2) 9.5 Cc 18117 3550 + 100 17 E 20548 7010 + 140 21.5 F 20549 7620 + 110 US y Hoty VALVE) 28.5 G 20550 7500 + 110 - 2 UO ees ae 29 H 20551 11290 + 160 nsurhcien’ 56 15 A 16340 1910+70 wie 2 in a Sede 1 8 B 16535 3640 + 120 5.5 B 16341 3750 + 60 10.5 Cc 16342 6930 + 110 pie) c UGeE cles U0 16 D 16537 3000 + 110 18 D 16343 7790 + 110 1 E 16538 5130 +90 20.5 E 16344 24820 + 400 S7 1.5 rN SI7041A 2340 +90 $14 1.5 A 18120 Insufficient Cc 5 B 18121 Insufficient C 2 A 17243 4230 + 100 : 6.5 E 18125 Insufficient C 2.5 B $17042B 3805 + 40 75 Cc 18123 > 23210 3.5 C S17043B 2110 + 100 8.5 D 18124 26270 + 3850 5 B 17244 6300 + 100 ; 13 F 18126 7440 + 370 5.5 E 17247 Insufficient C > 16 G 18127 Insufficient C 6 E $17045B 6325 + 120 2 H 18128 Insufficient C 7 F SI7046B 5720 + 70 ae ent 8 Cc 17245 6500 + 100 $15 3.5 A 17831 1620 + 70 8 G SI7047A 8215 + 155 7 B 17832 4370 + 160 8 G SI7047B 7610+ 90 10.5 C 17833 2620 + 80 9.5 H SI7048A Insufficient C 14.5 D 17834 3870 + 80 10 H $17048B 5285 + 155 20 E 17835 4170+ 90 11 I SI7049A 12870 + 180 25.5 F 17836 6760 + 90 NUMBER 37 Borehole number S16 $17 S18 S19 $20 $21 $22 $23 $24 Smithsonian sample number H A B C D E F A B C D E F G F A B Cc D E F G H F G H I J A B Cc D E F G H A B C D E F G H A B Cc D E F G H A B C D E Beta sample number 17838 16345 16346 16347 16348 16349 16350 20079 20080 20081 20082 20083 20084 20085 16539 24004 24005 24006 24007 24008 24009 24010 24011 24890 24891 24892 24893 24894 25256 25257 25258 25259 25260 25261 25262 25263 25937 25938 25939 25940 25941 25942 25943 25944 23672 23673 23674 23675 23676 23677 23678 23679 24885 24886 24887A 24887B 24889 7420 + 90 2360 + 90 1940 + 90 4500 + 90 4820 + 80 7700 + 110 7340 + 90 1420 + 80 4200 + 120 4480 + 110 4890 + 110 7980 + 90 7850 + 100 8940 + 120 7150+ 110 1400 + 80 4650 + 120 4100 + 70 4480 + 110 7400 + 80 4040 + 100 11530 + 80 12070 + 370 Insufficient C 3070 + 110 3960 + 100 4080 + 90 Insufficient C 2890 + 130 4190 + 90 5110+ 110 7460 + 80 7260 + 90 7630 + 90 7360 + 90 15110 + 640 3400 + 140 3530 + 90 3870 + 100 4520 + 110 5780 + 130 7140 + 110 8190 + 110 8140 + 130 3630 + 110 3770 + 90 4670 + 80 6630 + 150 7910 + 150 7540 + 70 32920 + 930 24320 + 2030 2490 + 80 Insufficient C 4130 + 180 9200 + 110 24240 + 1510 Borehole number $25 S26 $27 $28 S29 S30 $31 $32 $33 $34 $35 Depth (m) 3.5 Smithsonian sample number ADM> Mn VAM VDAMYF VOMY DOMMINDY AMONDS MVNDYS AMKT"TOANDMOADPS OZEZTMA VAS Beta sample number 25463 25464 25465 25466 24895 24896 24897 24898 24899 25537 25538 25539 25540 25541 26381 26382 26383 26384 26385 26386 26387 26388 26389 26390 26391 26910 26911 26912 26913 26914 26915 32455 32456 32457 32458 32459 32460 32461 33115 33116 33117 33118 33119 30599 30600 30601 30602 30603 30604 30605 30606 31486 31485 30607 30608 30609 15 Age (years BP) 3860 + 90 6630 + 110 6760 + 100 6210+ 100 2500 + 170 2820 + 120 4370 + 170 4210+ 90 Insufficient C 3160 + 120 2520 + 90 2980 + 70 3330 + 90 6560 + 90 4500 + 120 8640 + 110 7230 + 80 Insufficient C 10950 + 90 Insufficient C 3460 + 100 4580 + 100 5190 + 90 4910+ 90 8870 + 170 5270 + 90 5020 + 110 8090 + 120 8040 + 250 Insufficient C 10770 + 120 3260 + 90 5840 + 140 6590 + 110 7650 + 150 7850 + 140 6880 + 80 Insufficient C > 25670 5880 + 170 7100 + 130 7960 + 150 Insufficient C 5500 + 190 3560 + 150 Insufficient C 34380 + 1740 8370 + 180 6710 + 190 19450 + 840 21050 + 920 6160 + 80 7730 + 120 7260 + 110 4770 + 110 Insufficient C 16 Borehole number $36 $37 $38 $39 S40 $41 S42 S43 S44 S45 Depth (m) Smithsonian sample number DAMP AWPANAWPFP ATDMBDOFAM ADPUAM OAATAMAPF DSO BDBNOAFM I MAPD DWMOADWFOA WP DAD Beta sample number 30610 30611 30612 30613 33120 33121 31487 30117 30118 30119 30120 30121 30122 33122 29858 29860 33123 29859 33124 29861 29863 29864 33125 29862 29867 31489 31488 29865 29868 29866 29867 33126 31490 31492 31493 31491 29869 29870 29871 31494 31495 29872 29875 29873 33127 33128 29874 46010 46011 46012 30123 30124 33129 30125 30126 30127 30128 7080 + 120 Insufficient C 27720 + 670 25570 + 720 3260 + 80 6870 + 170 7240 + 90 7210 + 130 3380 + 200 21090 + 600 Insufficient C Insufficient C > 29260 3840 + 100 4540 + 290 Insufficient C 21700 + 2460 11320 + 290 3430 + 110 7450 + 120 3540 + 150 6050 + 140 19350 + 950 Insufficient C Insufficient C 3060 + 70 6630 + 250 6330 + 100 3490 + 100 Insufficient C Insufficient C Insufficient C 3870+ 110 3610+ 110 4890 + 100 7410 + 100 8290 + 120 6730 + 150 7860 + 90 4620 + 130 5610+ 110 6970 + 110 Insufficient C Insufficient C Insufficient C Insufficient C Insufficient C 2570 + 70 3980 + 80 3260 + 90 6370 + 180 Insufficient C 15600 + 290 7100 + 160 Insufficient C 24320 + 1080 29000 + 1380 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES Borehole number S46 S47 S48 S49 $50 S51 $52 $53 $54 S55 $56 S57 $58 S59 S60 Depth (m) 8 10.5 12 18 5.5 15 23 30 37 3 4.5 7.5, 14 6 11 15 26 4.5 16 24 25.5 Smithsonian sample number AF ADWP VAMF NONDWF F TARP VDADS VADMYF MONDWY ADWP DVADWPYS YVANADWPFP VADBYP MOANAWP VADWD Beta sample number 34478 34479 34480 34481 36764 36765 36767 36766 36768 37298 37299 37300 37301 36769 36770 36771 36772 37302 37303 37304 37305 37747 37748 37749 37750 37751 37752 37753 37754 37755 37756 37757 37758 38098 38099 38100 38101 37759 37760 37761 37762 37763 38102 38103 38104 38091 38092 38093 38094 37306 37307 37308 36773 36774 Age (years BP) 7130 + 80 6620 + 70 12940 + 240 Insufficient C 4270+ 110 8050 + 140 Insufficient C Insufficient C 26820 + 1340 1610 +60 1670 + 50 4480 + 80 6340 + 100 3190 + 90 5410 + 100 7170 + 180 Insufficient C 2870 + 80 6600 + 80 7950 + 90 11040 + 330 3800 + 60 5930 + 130 6580 + 110 1670 + 60 3250 + 100 4790 + 70 6550 + 80 10510 + 130 2470 + 60 5820 + 100 11930 + 170 Insufficient C 3080 + 70 5990 + 100 12310 + 120 22820 + 770 2420 + 110 3400 + 100 4170+ 90 14120 + 160 1490 + 80 3630 + 70 6310 + 90 13630 + 100 3020 + 80 3770 t 80 4890 + 80 7500 + 70 3140 + 100 3560 + 80 9110+ 120 4760 + 110 5020 + 90 NUMBER 37 Borehole number S61 $62 S63 S64 S65 S66 S67 S68 S69 $70 S71 S72 S73 S74 S75 S76 Smithsonian sample number Dr > ONWP DADDY A B E D A A B Cc D A C B A B Cc A D B A B A B D C A B A B Cc A Beta sample number 37309 37310 37311 37312 38095 38096 38097 36775 37313 37314 None 45078 45079 45080 45081 45633 45082 45083 45084 45085 45634 46282 45635 45086 45087 48364 45636 48365 45637 46014 46015 45638 45639 48366 45640 45088 45089 46016 46017 46018 45641 Age (years BP) 2990 + 80 4220 + 100 3430 + 110 7310 + 100 3660 + 70 6220 + 100 7160 + 70 6590 + 110 2250 + 100 3780 + 120 4020 + 100 3950 + 70 5480 + 80 7230 + 70 11890 + 380 2730 + 80 4980 + 70 6830 + 80 7170 + 70 4410 + 80 23670 + 370 35260 + 610 3220 + 120 3690 + 140 3030 + 90 4660 + 80 6860 + 50 7250 + 100 2900 + 70 6420 + 80 3990 + 90 7590 + 90 12760 + 110 Insufficient C 6290 + 140 6420 + 90 2900 + 60 5830 + 90 6960 + 110 4950 + 130 Borehole number Depth (m) Smithsonian sample number S D> OAOWDWF FW WDWOFN ANADWPFPOUM DTOFN ATMAMBOPF DWHONYF ADWFUVU ADP VAMDSYD DW Beta sample number 45642 46283 46284 48367 46285 46286 46287 46288 46289 48368 47331 47332 47333 46290 48369 48370 46291 48371 48372 47334 48373 48374 47335 48375 46292 48376 46293 58280 48379 47336 48377 48378 48380 46294 48381 46295 48382 46296 51454 51455 51456 51457 51458 17 Age (years BP) 6680 + 100 6430 + 90 6170 + 110 > 28000 Insufficient C Insufficient C 3250 + 60 6730 + 70 15920 + 140 3850 + 80 4480 + 70 17900 + 220 Insufficient C Insufficient C 3530 + 60 23070 + 1880 Insufficient C 1350 + 80 19630 + 140 28200 + 460 29480 + 330 > 38000 Insufficient C 5050 + 70 5850 + 150 16540 + 220 Insufficient C 5410 + 120 8350 + 140 8860 + 130 14990 + 100 24770 + 240 2890 + 60 16760 + 120 23510 + 260 39350 + 800 20330 + 270 > 39730 1690 + 80 4910 + 100 6430 + 110 1720 + 80 7030 + 130 18 1992 1992 1993 1993a 1993b 1993 1993b 1994 1995 CHRONO- Chen, Warne, and Stanley: Northwestern delta Leroy: Palynology and climate change Dominik and Stanley: Trace elements and climate change Stanley and Warne: Synthesis of effects on the delta Stanley and Warne: Sea-level effects and archeol- ogy Stanley: Severe climatic effects in winter of 1992 Warne and Stanley: Northwestern delta Stanley and Warne: Sea level and its role in Holocene delta initiation Warne and Stanley: World deltas concurrently affected by sea level AND LITHOSTRATIGRAPHIC CORRELATIONS.— Many of the project studies depict core-to-core correlations, most involving well-defined radiocarbon-dated lithofacies in the delta proper and sectors seaward of the coast to the Nile Cone. 1983 1985 1985 1987 1987 1988 1988a 1988 1989 1989 1990 1990 1991 1991 1991 1992 1992 1993b 1993a Stanley and Maldonado: Outer Nile shelf and Nile Cone Stanley and Wetzel: Nile Cone and southeastern Mediterranean Anastasakis and Stanley: Nile Cone Coutellier and Stanley: Northeastern delta Kulyk: Using foraminifera, northeastern delta Frihy and Stanley: Methods using petrology Stanley: Nile delta shelf Gerber: Using geochemistry, northeastern delta Pimmel and Stanley: Delta-front and prodelta facies Gupta: Using trace elements, northeastern delta Stanley: Correlations to measure subsidence of the delta plain Shergill: Using geochemistry, northeastern delta Arbouille and Stanley: North-central delta Howa and Stanley: Using plant biofacies, across the northern delta Pugliese and Stanley: Biofacies correlations, north- eastern delta Stanley, Warne et al.: North-central delta Chen, Warne, and Stanley: Northwestern delta Warne and Stanley: Northwestern delta Stanley and Warne: Synthesis of delta correlations PROVENANCE, DISPERSAL, AND PALEOGEOGRAPHY.—This group of investigations includes topics pertaining to the origin and dispersal of sediments, displacement of depositional environments, and paleogeographic changes through time in the Nile delta. This category is based on correlation of well-defined, radiocarbon-dated lithofacies of late Pleistocene to Holocene age. SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 1983 1985 1985 1985 1987 1989 1989 1990 1991 1991 1992 1992 1993 1993b 1993a 1993 1995 1995 Stanley and Maldonado: Outer Nile shelf and Nile Cone Gerges and Stanley: Northern Suez Canal Stanley and Wetzel: Nile Cone and southeastern Mediterranean Anastasakis and Stanley: Outer Nile shelf and Nile Cone Coutellier and Stanley: Northeastern delta Foucault and Stanley: Upper River Nile system to the northern delta Stanley: Nile delta to Israeli margin, based on heavy minerals Abu-Zeid and Stanley: Northeast delta, based on clays Abdel Wahab and Stanley: North-central delta, based on clays Arbouille and Stanley: North-central delta Stanley, Warne et al.: North-central delta Chen, Warne, and Stanley: Northwestern delta Chen and Stanley: Central delta plain Warne and Stanley: Northwestern delta Stanley and Warne: Synthesis of lower delta plain Slaboda: Trace elements in Manzala Lagoon Frihy, Moussa, and Stanley: Abu Qir Bay Schneiderman: Lower River Nile system, based on mineralogy ARCHEOLOGICAL CONSIDERATIONS.—Publications in this category involve the results of petrological, sedimentological, and stratigraphic analyses in archaeological investigations. 1986 1992 1993 1993b 1993a Stanley and Sheng: Santorini volcanic shards, Manzala Lagoon region, and possible Biblical exodus Stanley, Amold, and Warne: Discovery of oldest Pharaonic site in the northern delta Allen, Hamroush, and Stanley: Egyptian civiliza- tion, environmental change, and geochemistry Stanley and Warne: Predynastic culture as related to sea level Warne and Stanley: Northern delta archaeological site and subsidence rates ANTHROPOGENIC FACTORS AND IMPACT.—A series of studies takes into account the growing influence of humans on the Nile delta, including the much altered River Nile system and pollution. 1985 1993 1993a Gerges and Stanley: Human influence on the northern Suez Canal Loizeau and Stanley: Altered Idku Lagoon environment Stanley and Warne: Effects of altered River Nile system and predictions for the future NUMBER 37 1993 Stanley: Some recent anthropogenic effects and responses in the Alexandria region 1994 Loizeau and Stanley: Altered Mariut Lagoon subenvironment 1994 Siegel, Slaboda, and Stanley: Recent increased pollution in Manzala Lagoon NILE DELTA LAGOONS.—Increased attention is being paid to the recent evolution of the shallow Manzala, Burullus, Idku, and Mariut water bodies in the northern Nile delta and the sedimentary and faunal facies therein. 1992 Randazzo: Petrology of recent Manzala Lagoon deposits 1992 Longo: Molluscan faunas and palaeoecology in modern lagoons 1993 Loizeau and Stanley: Changing lithofacies, Idku Lagoon 1994 Loizeau and Stanley: Changing lithofacies, Mariut Lagoon 1994 Bernasconi and Stanley: Changes in molluscan biofacies 1994 Siegel, Slaboda, and Stanley: Recently increased pollution in Manzala Lagoon COMPARING THE NILE WITH OTHER WORLD DELTAS.—A more recent research effort considers attributes of the Holocene Nile delta, which enable it to be compared with other such depocenters elsewhere in the world. Of special consideration are the timing and factors responsible for initiation of modern world deltas. 1986 Stanley: Mediterranean deltas, fans, and cones 1994 Stanley and Warne: Timing of delta initiation and the role of sea level 1995 Warne and Stanley: Comparing factors controlling the development of world deltas Applications For Delta Management The northern Nile delta is presently undergoing rapid environmental deformation and ecological decline. Most serious are the combined effects of natural factors, such as land subsidence and rising sea level, with anthropogenic factors, such as irrigation and damming. This results in, among other changes, seawater incursion into the delta’s water table and coastal erosion (Stanley and Warne, 1993a). Salination has increased substantially since closure of the Aswan High Dam in 1964, reducing agricultural productivity (Biswas, 1993) and altering the chemistry of the delta’s lagoon and lake waters (Kerambrun, 1986). The dam now controls the flood cycle, which previously flushed the delta plain and prevented substantial accumulation of salts in this evaporitic setting. Also significant is the trapping of sediments at Lake Nasser behind 19 the dam, reducing nutrients formerly carried downstream in the flow to the delta and offshore. At the same time, the rapidly increasing population has necessitated intensified agricultural development, unprecedented municipal expansion, accelerated diversion of Nile waters through a dense and complex irrigation system, and land reclamation of vital delta water bodies, such as lagoons and marshes. These activities, particularly the much-reduced sediment discharge, have also contributed to heightened coastal erosion by Mediterranean nearshore cur- rents (Figure 10). It is our hope that the information collected in this document can be of assistance to geologists, ecologists, agronomists, and engineers having the responsibility of maintaining and improv- ing environmental conditions in the lower Nile delta plain. With the available database, specialists will be able to distinguish and measure changes, both natural- and human- induced, over time. Our work, focusing on dated subsurface sedimentary sections, serves this purpose for the lower Nile delta from the time of its initiation in the early Holocene (~8000 years ago) to the 1990s. Of primary value are the data serving to compile paleogeographic reconstructions of the northern delta, including positions of earlier Nile channels, strandplains, lagoons, and marshes, prior to and during the early phases of human settlement. Data gathered from the borings provide a means to distinguish the effects of natural from anthropogenic factors. In essence, we have compiled a temporal and spatial record of change from the time when human impact was minimal, prior to ~7000 years ago (Stanley and Warne, 1993b), when sea-level and climate oscillations, neotectonism, and effects of fluvial and coastal processes were dominant in controlling the configuration of the lower Nile delta plain. Although our data indicate that fluctuations of these natural factors continue to modify the delta, the record shows that the escalating role of people began to overtake the influence of natural factors as early as the Dynastic period (Butzer, 1976). Since the beginning of Egypt’s industrialization, and particularly since the latter part of the nineteenth and the beginning of the twentieth century (when the first dam at Aswan was completed, along with a series of barrages and River Nile channelization projects), our records show that human influence on the delta has expanded by several orders of magnitude. The dated borings thus serve as a gauge against which present changes can be compared. For example, rates and amounts of land subsidence and delta tilting (Stanley, 1990) and recent increases in pollutants in lagoon and marsh areas can be measured accurately against the long-term record (Siegel et al., 1994). As in the case of many of the world’s major deltas, the Nile is low-lying and highly vulnerable to even minor changes in sea level and subsidence. Inasmuch as the sediment supply has now been artificially curtailed, this depocenter has become increas- ingly subject to marine incursion, which further reduces its 20 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES FIGURE 10.—Section of the town of Ras El-Barr at the Damietta promontory (north of Damietta, D on Figure 1), recently abandoned and undergoing destruction by intense coastal current erosion. Relatively rapid incursion of the sea in this region is due to concurrent subsidence of land and rise in sea level as indicated by analyses of radiocarbon-dated drill cores. Photograph taken in October 1992. (Courtesy of G. Drapeau.) ability to sustain a dense and burgeoning population. Giventhis | becomes essential for the implementation of effective protec- rapidly changing dynamic of interplay among human and tion measures in a region where dependency on agricultural natural factors, the availabilty of a comprehensive database production has reached a critical stage. Appendix 1: Core Lithological Logs Legend for core logs $1-S87 & Plant Fossil y Root S Shell Fragments > Potsherd A Gypsum a Whole Shell o) Organic Matter m Mica N Nodule = Pebbles Sand Pocket Clay Pocket Core © Limestone Pocket Washing OIHLNAg VuasININVHOS at FIOHM T1SHS = = (SALINOdVAJ) WNSdAD / ALINOONV19 SVOIN ee -—sSs === — A SIVYANIN AAVSH === : Cato e : : : SIVYANIN LHONM (% ANILV1A4y) I) pa \ ll JUNLXAL ULL hen _ Jenn ! } SSSNQHYVH YO1090 AYNLONYLS 2 +L NOBYVO a AYOLVHOEVT = = = = a dQ lslsd 2 = | Ss | = = he epee rn TTS RHEE PIRG RR Tent IRC Hetis ee at ——S et ae , eee ae 2 ee he RR Oo, \. eo aL Ma cle al: AMS wens cc a er a ui (SHRIAWHIdad JS NU HlUlwLUOULUNUUlUOLUMODLUOUCUNUDULUlULU LULU UB = joe) joe) oO joe) oe) > Alva NOgyvooIaVY wD © © aes Qe =< ‘i — + AH tH oH SH | S —-39¥. 01901039 ANSADO1OH 29 NUMBER 37 APPENDIX 1.—Continued. CORE NUMBER _ SO Il YAHLO YAHLO ALVOAYDOV SLNAWOVES LNVId SLNAWOVYS OIHLIT S3INDIdS ADNOdS SAGOOVELSO SIH LNA Vass ININVeOSs JTOHM TISHS SLNAWOVYs TISHS (SSLINOdVAA) INNSdAD ALIWAd ANIGYSA / ALINOONVT9 SVOIWN STVYANIW AAVSH STVYANIW LHONM (% AN LVI) SYNLXSL SSSNQYVH YO109 AYNLONYLS vl NO@¥VO AYOLVHOSV 1 dala SAMPLES ASONOHLI (SHSLSW) HLdaad J1Vd NOSYVOOIdVH ADV OIDO1049 SNADO TOH -SINSAOOLSIAId “1 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES APPENDIX 1.—Continued. CORE NUMBER S6 | 30 S3dIxO S$3¥OdS ALVOAYDOV SLNAWSVYS LNVId SLNAWSV¥4 OIHLN SAINIDIdS JDNOdS SAdOOVELSO OIHLNAg VYaSsININVYOS FIOHM TISHS SLNAWSVYS TISHS (SALINOdWAJ) WASdAD ALIdAd ANIGYSA / ALINOONVTS SVOIN STVYANIW AAVSH STVYANIW LHON (% AAILV14y) SYN LXSL SSSNGYVH YO100 AYNLONGLS vl NO@YVO AYOLVHORV1 dala SAMPLES ADOIOHLN (SHSLAW) HLd3ad dLVd NO@YVOOIdv" ADV DIDO103A9 4 AUT sanannansnnsnstsH0U00000T UU haa flthyy wt PLL LET L/ 7. 6930 SAINADO TOH 31 NUMBER 37 APPENDIX 1.—Continued. CORE NUMBER _S6 Il S3dIxXO SauOdS ALVOAYDOV SLNAWOVEs LNV Id SLNAWSV4s OIHLI SAINOIdS JDNOdS SACOOVYLSO OIH LNA VussININVYOs FTOHM TISHS SLNAWSVYs TISHS (SSLINOdWAA) WNSdAD ALIWAd ANIGHSA / ALINOONV19 SVOIN STVYANIW AAVSH STIVYANIW LHONM (% AA LV14Y) FYNLXAL SSSNGYVH YO109 SAYNLONYLS 2 yl NOBYVO Qala ASOTOHLN (SHSLSW) Hida J1Vd NOSYVOOIdVH ADV DIDO 1049 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES APPENDIX 1.—Continued. CORE NUMBER _S7 | 32 YAHLO YAHLO ALVOAYDOV SLNAWSVYS LNV Id ———_— SE ————_____ nn = SS _ SLNAWSVYSs OIHLIT S3INDIdS ADNOdS =a SAGOOVYLSO eS ee <== SIHLNAS SS ney eee ory VYsSININVYOS JIOHM T1SHS = = (SSLINOdVAJ) INSdAD ALIYAd = aa SNIGUSA _— a / ALINOONW19 SVOIN nr SO > —_——— ESE STVYANIW AAVSH — STVYANIW LHONM (% AN LV15y) FYNLX4AL 3 1 2.9 SSANGHVH © nl a oS a 09 09 YO100 10YR4/2 5YR2/1 10YR4/2 5Y4/1 “| 5Y6/1 5Y4/1 5Y6/1 5Y4/1 AYNLONYLS [l= [Lu uel Josie! | al == OD Ont|Oon ~aO O errl|orr rim AN vl NO@kVO AYOLVHEHORVT SAMPLES 24|K Miles 26| |=—— 27 28\L 29 qials > = = TOE ue cee we =I RS 6! | | bibs ly | ae Gr ASOTOHLI Z| (SH3LAW) HLdad 14] 560 | 18 dLVd NOsYVvooldvy 32920| 19 +1740 14030 He 240 |13-4f-: ae ai ASV 91ID01049 SNS001SIS4a4 33 NUMBER 37 APPENDIX 1.—Continued. CORE NUMBER _S7 Il YAHLO YAHLO ALVOAYDOV SLNAWSVES LNV Id SLNAWSVes OIHLI SAINOIdS ADNOdS SAGOOVY"LSO OIHLNAg VussININVYOS JTOHM TISHS SLNAWSVYS TISHS (SSLINOdVAJ) WNSdAD ALIYAd ANIGYSA / ALINOONVT9 SVOIN STVYANIW AAVSH STVYANIW LHONM (% ANILV14S4) SYNLXSL SSSNCYVH YO100 AYNLONYLS 2 +L NOGYVO a AYOLVHOSVT = =< qnals ADOTOHLI (SHSLAW) HLd3d ALVd NO@YVOOIdVY ADV 9ID01049 | SANADOLSIAId “71 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 34 APPENDIX 1.—Continued. SLNAWSVYS LOASNI SGIONIHOA ALVOAYDOV SLNAWOVYS LNV Id SLNAWSV¥s OIHLI SAINDIdS ADNOdS SAGOOVELSO OIHLNAg VYaAsININVYOSs JIOHM TISHS SLNAWSVYS TISHS (SSLINOdVAJ) NSdAD ALIWAd ANIGHSA / ALINOONVTS SVOIWN STVYANIW AAVSH STVYANIW LHON (% ANLV1S4) SJYNLXSL SSSNGYVH YO109 AYNLONYLS vl NOSYVO AYOLVHORV) q1ala SAMPLES ASONOHLN (SHSLSW) HLd3a 4LVd NO@Y¥VOOIdv" CORE NUMBER S8 | ADV DIDO10OAD lO Tonto) Te) ro] N Tr: Semen oS a a oO oO a (ac > > wo wo Sata = A Os =- CK. — iN CH ee! — a ae lO] ro) = a 9 t ~- - - _ = a = = > *< *< x< < | < eee a meee UMM TET ee [Pele Nae mm Leen ll ona Nn ee ; eal | popu resal (Gee), «= eet (resaa Pey elf GO QU GR ati SMA A ES ABU a pt SIDE Cea ISS ests eae cal ko feet doa elie sad RS = = eo aa las eas] —N (op) <— LO oO Mm co [e>) oO = — _ — = = = — fat] ° rap) SANADO 1TOH 35 NUMBER 37 APPENDIX 1.—Continued. CORE NUMBER _ S8 Il SLNAWSV"s LOASNI SCIONIHOA ALVOAYDOV SLNAWSVes LNVId SLNAWOVYS OIHLIT SAINIDIdS SDNOdS SAGOOVELSO OIH LNA VussININVYOs FTOHM TISHS SLNAWOV's TISHS (SSLINOdVAJ) INSdAD ALIWAd ANIGYSA / ALINOONVTS SVOIW STIVYANIW AAVSH STIVYANIW LHOM (% AAILV13y) SYNLXSL SSSNQYVH YO109 AYNLONYLS vt NO@kVvO AYOLVHORV1 q1als SAMPLES ASOTOHLI (SH3LSW) Hida d1lVvd NO@YVvoOIdvY ADV OID01049 GE | Ue ooo Oe | lo Lo lo lo lo lo So = a al a ro) So Giuse = a = oE os 2 Qu a q q a oO oO oO oO isp) jam ao jam iam jag a a5 a5 A 5 apace AR oo oO oO a oO ~~ oa ve eae oa oa Oo ~~ Oe ~~ aor ON OO ee ine ele (Sa ies | Oo PSs = 2 Z E a ia | & a & & i 8 &_ 8s = = ee = x< x< 7 ME <= x< x< <= x= 12 Scien A re x Se Se p= | eS eee Sea eS | Se iE Goth holy ! I 9s era ea er ea | Pa eee | ss En pra er coe | ee etree | ] | ! ] | | ] | I ] a= Sselicsulaellese| Saullan devas Ll aa pane ne aren Sn ee lh ot GO dt ni! 1g G2 O22 | aN lH bao ap leet Ne lke al liste el eeea| (ee Nese ae a re aed Ie le aiEle eA ey Re ot | eee ele wl ae Wal if ee eu QE aS ro Pee Stal eAlyaNlee Teel SA el] Cl FrallGel n| Nally (cs era | Sait was eae Gone Lh la ADC a plans Pc eg ee eet a ik Pe eae eal ee [pe pre ae ctr enc ieer | me |e een |e | [Seesa: eater] & wi QI Q a a & x gS g SB b= S 8 oS 8 8 = 8 8 = ge SS g2 g8 © +H oO FH NH au SNA00T10OH : SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 36 APPENDIX 1.—Continued. CORE NUMBER _S8 Ill SLNAWOSVYS LOASNI SCIONIHOS ALVOSYDOV SLNAWOVYS LNV Id SLNAWSV¥S OIHLIT SAINDIdS JDNOdS SACOOVELSO OIHLN3g VYAsININVYOS FTOHM T1SHS SLNAWSVYs TISHS (SSLINOdWAA) WASdAD ALIWAd ANIGYSA / ALINOONVTS SVOIN STVYANIW AAVAH STVYANIW LHD (% AN LV15¥) SYNLXSL SSSNGYVH YO109 AYNLONYLS vl NO@¥V9 AYOLVYHORV) q1ala SAMPLES ASONOHLN (SHSLAW) HLdad 41Vd NOgYVOOIdVY ADV OID01049 ANADOLSI IA Id “1 37 NUMBER 37 APPENDIX 1.—Continued. SATOLYVd ALVNOGYVO S3dENl WHOM ALVOAYDOV SLNAWOVES LNV Id SLNAWSVS OIHLN SAINIDIdS SDNOdS SACOOVYLSO OIHLNAd VYaSsININVYOSs JTOHM TISHS SLNAWSVes TISHS (SSLINOdWAJ) INNSdAD ALIAd ANIGYSA / ALINOONVT9 SVOIN STVYANIW AAVAH STVYANIW LHOM (% AAILW 144) FYNLXAL SSSNGYVH YO100 AYNLONYLS vl NO@¥VO AYOLVYHORVI q1als SAMPLES ASONOHLN (SHSLSW) Hid3aa A1LVd NO@YVOOIdVY CORE NUMBER _S9 ADV O1ID0 1049 5YR4/2 10YR2/2 5YR2/2 5YR6/1 5YR6/1 5YR6/1 5YR6/2 5YR6/1 5YR3/2 5Y6/4 5Y6/4 L SINADO 1OH ANADOLSIAId 1 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 38 APPENDIX 1.—Continued. SNIVYS GANIVLS 44 SATOILYVd SLVNOSYVO ALVDAYDOV SLNAWSV¥s LNVId SLNAWSV¥Ss OIHLI SAINIIdS ADNOdS SAGOOVELSO SIH LNA VussININVYOS JTIOHM T1SHS SLNAWSVYS TISHS (SSLINOdVAJ) NSdAD ALIWAd ANIGYSA / ALINOONVT9 SVOIN STVYANIW AAVSH STVYANIW LHON (% AAILV14Y) AYNLXAL SSSNGYVH YO109 SAYNLONGLS vt NO@kVO AYOLVHORVI Qala SAMPLES ASOTOHLN (SHSLAWN) Hida ALVd NOskVOOldvy CORE NUMBER S10 | ADV 91ID01049 5Y8/1 5Y6/1 5Y6/1 5Y8/1 5Y8/1 10YR4/2 5Y6/1 5Y6/1 5Y6/1 5Y8/1 5Y6/1 5Y8/1 5Y8/1 W,| 12 M,913 W,,}14 21880 ANS90O10H: SINADOLSIAId “7 39 NUMBER 37 APPENDIX 1.—Continued. SNIVYD CANIVLS 34 SATOLYVd SLVNO8HVO ALVOAYDOV SLNAWSVEs LNV Id SLNAWOVES OIHLIT SAINDIdS ADNOdS SAdOOV"LSO SIH LNA VussININVeOs FTOHM TISHS SLNAWSVas TISHS (SSLIUOdVAJ) WASdAD ALldAd ANIGYH3A / ALINOONVTS SVOIN STVYANIW AAVSH STVYANIW LHONM (% AAILW14S¥) FUN LXSL SSSNCYVH YO100 AYNLONYLS vt NO@YVO AYOLVYORV1 qals SAMPLES ASOIOHLNT (SHSLSW) Hida ALVG NOSYVOOIdVY CORE NUMBER $10 II ADV 9ID01049 20—]==~ 224): 23 21 SANADOLSIAId “1 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES APPENDIX 1.—Continued. CORE NUMBER S11 | 40 SILVOSHDOV O1ID1VO = =—@® = HAHLO FLVOSHOOV SLNAWSVYs LNW Id = ee —_———__4)-_ SLNAWSV¥s OIHLI SAINDIdS ADNOdS ———= —_— SACOOVELSO Gp Ee — OIHLN3d Vu sININVYOSs JIOHM T1SHS = SINSW9VY4 TISHS = (SSLIYOdVAJ) WNSdAD »p-= FLIYAd ANIGYSA / ALINOONV19 SVOIN ——_ ap STVYANIW AAVSH STVYANIW LHONM See DCE aa ise) > | | (% ANLV14y) SYN LXSL SSSNQYVH 1 1.5[: 1 1 5YR7/2 5Y5/2 5YR7/2 5YR7/2 5Y6/1 5Y6/1 5Y4/1 5Y5/2 5Y4/1 5Y4/1 5Y4/1 5YR7/2 5Y5/2 5Y5/2 5YR7/2 5Y5/2 5YR7/2 5Y5/2 YO109 SS as wo wo Ww AYNLONGLS ll yl NOGYVO Ie AMOLVHOSVT || [-anl+w| © q1aAla N SAMPLES ln) : ia l at | | | ADOIOHLN lel IG 1 4 (SHSLAW) Hida 6110 |11— 120 fae 6475 fo) dLVG NO@YVOOIGVY to rou JV 0101039 ANADOTOH !SNS001S1IS1d 7 41 NUMBER 37 APPENDIX 1.—Continued. CORE NUMBER S11 Il SALVDAYDOV OID1VO YAHLO ALVODAYDOV SLNAWSVes LNV Id SLNAWSVu4s OIHLI SAINDIdS JONOdS SACOOVYLSO OIHLNAd VYssININVYOS JIOHM TISHS SLNAWSVes TISHS (SSLIUOdVAJ) NSdAD ALIWAd ANIGYSA / ALINOONVTS SVOIN STVYANIW AAVSH STVYSANIW LHONM (% ANILV14Sy) SYNLXSL SSSNGYVH YO109 AYNLONGLS vt NOSYVO AYOLVHOREV 1 dala SAMPLES ASOTOHLIN (SHSLSW) Hidaa ALVd NO@YVOOIdVY ADV 9ID01049 ae | Ju] oO + ite) BEST Esc Sy se lee erence eee eee lee) N BAe Seas K E I ee a= a ea = m= > & A A Ni w wi A qi A Qi 8 o oO 3 oo 3 a) =) es) es) S joe) NO oOo + om +1 SNADOLSISAId 1 Sumer oe SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 42 APPENDIX 1.—Continued. CORE NUMBER S12 | YAHLO SCIONIHOS ALVOAYDOV SLNAWSVYS LNV Id SLNAWSVYSs OIHLI SAINDIdS SADNOdS SACOOVELSO OIH LNA VussININVdOs JIOHM TISHS SLNAWSVYS TISHS (SSLINOdVAA) WNSdAD ALIYAd ANIGYSA / ALINOONV19 SVOIN STVYANIW AAVAH STVYANIW LHONM (% AALV15¥) SYNLXSL SSSANCYVH YO109 SAYNLONGLS vt NO@kVO AYOLVEHORV) dala SAMPLES ASOTOHLI (SHSLAW) HLd3ad 4LVG NOSYVOOIGVH ADV OID01049 10YR3/2 10YR3/2 INSUF 43 NUMBER 37 APPENDIX 1.—Continued. CORE NUMBER _S$12 Il YAHLO SGIONIHOS ALVOAYSOV SLNAWSVYs LNV Id SLNAWOVYS OIHLIT S3INIDIdS SDNOdS SACOOVYELSO SIHLN3d VussININVYOS SJIOHM TISHS SLNAWOVes TISHS (SSLINOdVAJ) NSdAD ALIYAd ANIGYSA / ALINOONVTS SVOIN STVYANIW AAVSH STVYANIW LHONM (% ANILV14S¥) FYNLXAL SSSNQYVH YO109 AYNLONYLS vl NO@YVO AYOLVHOSVI qala SAMPLES ASOIOHLN (SHSLAW) HLdaa ALVd NO@YVOOINVY ADV DIDO 1049 234 [.“- | a NADOLSIAId “71 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES APPENDIX 1.—Continued. CORE NUMBER S13 | OINOLYNV 1d VussININVYOS SCIONIHOS ALVOAYDOV SLNAWSVYS LNVId SLNAWSVdSs OIHLN SAINIDIdS JADNOdS SACOOVY"LSO OIHLNA VusasININVYOS JIOHM TISHS SLNAWSVYS TISHS (SSLINOdVAJ) INSdAD ALIWAd ANIGYHSA / ALINOONVT9 SVOIN STVYANIW AAVSH STVYANIW LHON (% AA LV14y) FYNLXSL SSSNGYVH YO109 AYNLONYLS vl NO@kVO AYOLVHORVI Qala SAMPLES ASONOHLN (SHALAW) Hid3aad J1Vd NOSYVOOIdVY ADV OIDO1049 iz Inna, ___ scsannunsnnuHQ0000001000R0NERUEEUOIOEUUEOUNY pannasnnué28ennnes, nee a 0 0 zs oO ro) rap) N = = = N N NEN NN NN! UN = = = = o t+ > = ~~ N N N N N N N N N a > = > ae a NS On| = = bas ee Se FSIS (RCS RG) a=) (= eS (a — = = ses ees ee epee ee ee ee | eee Fe lire ene Saline ae ; ‘ann . 5 5 5 , ran - , Fi 2 . ary haa SF aaa Sn ie tan aa eer aa T ory ea = Cee ee a a ae ee ee pela Mt tate eae salle MMM ahs ise ced oeits eat We rey: (MSIE hte a: Shei Paleo realli sesh aR sel stp cate al eesee a i eos Peete ys iG: eat oa eal ae Pebibeehiisbi rigs 1a SIN ae Nees ieee Sale Se lea seein | violet eng (ibe Galt ue eee Ce ee cea a ee eee Cree ear cn een nm ae Gey ae em ee eee eS | i. Sole et Sits mee lip ue Tier bes | oe lee ec gp ees ear at iee a abe ae = <, aid as a as S = sy 22 = 2 2 ae 2 = a oe) oo oS eis or rn wo (= oe KR Or ot oe co H oO + t+ H oO + SAINADO 1OH 45 NUMBER 37 APPENDIX 1.—Continued. CORE NUMBER _$193 Il QINOLYNV Id VYSsININVYOS SCIONIHOA ALVOAYDOV SLNAWSVEs LNV Id SLNAWSVYSs OIHLIT SAINDIdS JONOdS SACOOVELSO OIHLNAg VuSsININVYOS FIOHM TISHS SLNAWOVYS TISHS (SSLINOdVAA) WNSdAD ALIWAd ANIGYSA / ALINOONVTS SVOIN STVYANIW AAVSH STVYANIW LHONM (% AAILW144) FYNLXAL SSANQYVH YO100 AYNLONYLS ~ +L NOBYVO Qala ASONOHLIN (SHSLSW) Hidaa ALVd NO@YVOOIdVY ADV DIDO 1049 HS) 1 Y4/1 y4/1 | 4 5 - —_ a NS Nie eB PAlll RiaN --—-- ~|XI1/16 eae A 18 Ik 22—4|— -- — SANADO 1OHNH SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 46 APPENDIX 1.—Continued. CORE NUMBER S14 | YAHLO GOOM Galois ALVOAYDOV SLNAWOVYS LNV Id SLNAWSV¥s OIHLI LNAWA9 OIO1V9 SACOOVELSO OIHLN3d Vu sININVdOs FIOHM TISHS SLNAWSVYS TISHS (SALINOdVAA) INNSdAD ALIWAd ANIGYSA / ALINOONV19 SVOIN STVYANIW AAVSH STVYANIW LHON (% AAILV14y) SYNLX3L SSANGYVH YO109 AYNLONGLS vt NO@kVoO AYOLVYHORV I Qala SAMPLES ASONOHLN (SHALAW) Hid3aad J1vd NOgYvoOOIdvY ADV OID01049 10YR4/2 10YR2/2| 4 10YR2/2| 4.5 | IV 1411p 17 NSUF INSUF 3850} 9| A-~_A- + INSUF] 4g—|": ANSDONOH : SANADOLSIA Id ~T 47 NUMBER 37 APPENDIX 1.—Continued. CORE NUMBER S914 Il YAHLO GOOM dalslolis ALVOAYDOV SLNAWSVES LNV Id SLNAWSVes OIHLI LNAWS9S O1IO1V9 SACOOVYLSO OIHLNAd VuSsININVYOs JIOHM TISHS SLNAWSVas TISHS (SALINOdVAJ) WASdAS ALIWAd ANIGHSA / ALINOONVT9 SVOIN STVYANIW AAVSH STVYANIW LHOM (% ANLV14y) SYNLXSL SSSNCGYVH YO100 AYNLONYLS vt NO8¥VO AYOLVYORVI d1ald SAMPLES ASOTOHLN (SH3LSW) Hidaa J1Vd NOSYHVOOIdVH ADV O1ID01049 5Y6/4 10YR5/4 10YR5/4 for) oO - | T e T T T T eal foal T = N ise) as ike} co ~ co D> fon) _ NI fop) st lo [) =) N N N N N N N N N ise) ise) ise) ise) ise) ise) ise) ise) ise) (se) + LL =) op) z SANADOLSIAId “1 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES APPENDIX 1.—Continued. 48 SGIONIHOA —S es Sa OINOLYNV 1d VYSsININVYOS ALVOAYDOV = SLNAWSVYS LNV Id SLNAWSV¥s OIHLN SAINDIdS JDNOdS — -_— ee SAdOOVYLSO EO OIHLN3g VussININVdOs JIOHM TISHS SLNAWSVYS TISHS (SSLINOdVAJ) INNSdAD ALIWAd = SSS ANIGHSA — Ee a —— — / ALINOONVTD SVOIW EEE EEE «6 GQ STVYSNIN LHONM (% AAILV14Sy) SYN LXSL SSANCYVH YO100 nH oO one ATT Pear ies yl NOSHVO fal AYOLVHOSVT = al 09 + lo © Nae a 2 | 0 Qala SAMPLES ASOIOHLN] Iv |14 V Vi 16 VIII17 — == yiift8 (SHSISW) Hiddd 16 a aa tom ALVd NO@kevOoldv" a ADV 9ID01049 ANADO TONH CORE NUMBER $15 | 49 NUMBER 37 APPENDIX 1.—Continued. CORE NUMBER S15 Il SCIONIHOS OINOLYNV Id VussININVYOS ALVOSYDOV SLNAWSVYs LNV Id SLNAWOVES OIHLIT S3INOIdS SDNOdS SAGOOVELSO OIHLNAg VuSsININVeOs FTIOHM ISHS SLNAWSVes TISHS (SSLINOdVAA) INNSdAD ALIWAd ANIGHSA / ALINOONVT9 SVOIN STVYANIW AAVSH STVYANIW LHONM (% AN LV14y) AYN LXAL SSSNCYVH YO109 AYNLONYLS vl NO8¥VO AYOLVYORV1 q1ala SAMPLES ASOIOHLN (SHSLSW) Hida J1VG NOSYVOOIdVH ADV 9ID0 1049 HTT j=) o ° ql t N + SINADO TOH ———— : SINSOOLSIS 1d 41 YAHLO SCIONIHOA ALVDAYDOV SLNAWSVYS LNV Id SLNAWSV¥s OIHLIT SAINDIdS JONOdS SACOOVYLSO OIH LNA VuasININVYOS AFTOHM TISHS SLNAWSVYs TISHS (SSLINOdWAA) WNSdAD ALIWAd ANIGYSA / ALINOONW19 SVOIN STVYANIW AAVSH STVYANIW LHONM SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES (% AAILV144) SYNLXSL SSSNGYVH APPENDIX 1.—Continued. YO109 AYNLONYLS vl NO@kVO AYOLVHOREVT @ilals SAMPLES ASOIOHLI (SHSLSW) HLdad ALVd NOSYVOOIdVY ADV DIDO1OAD CORE NUMBER S16 | 50 DARA AVANAROEUEDavand 000 neat) Te) Te) Te) “I SCD" “exe nN : o ro) “I nN 3 2 * = = > > > > > > > wo wo w wo wo wo = ( oo - ¢ oOo Ie) a Sees oO an o}]+ wo on o|'o) (Ss 1 I ! | Tee sil esl roa | all | Teale leseat lle Liver Da rap lesen ler lind ed ie ralloeee lees Dede Meal esl allel ) oO _ C= _ — = i N ro) oO fo) 2) fo) Ql oD © cone + + tH 51 NUMBER 37 APPENDIX 1.—Continued. CORE NUMBER _S16 II YAHLO SCIONIHOS ALVDAYDOV SLNAWSVEs LNV Id SLNAWSVes OIHLI SAINDIdS SADNOdS SACOOVYLSO OIHLNAd VYSsININVYOs JIOHM TISHS SLNAWSV¥s TISHS (SSLINOdVAJ) WNSdAD ALIdAd ANIGYSA / ALINOONVTS SVOIN STVYANIW AAVSH STVYANIN LHOM (% ANLV14Y) SYNLXSL SSANQHYVH YO100 AYNLONGLS vl NOSYVO AYOLVHORVT qlals SAMPLES ASONOHLI (SHSLSW) Hid3aa ALVd NO@YVOOIdVY ADV 9IDO01049 7340 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 52 APPENDIX 1.—Continued. CORE NUMBER S17 | YAHLO OINOLYNY 1d VuSsININVYOS ALVOAYDOV SLNAWOVYS LNV Td SLNAWSV¥s OIHLN SAINDIdS ADNOdS SAdOOVELSO OIHLNAd VYssININVYOS JTIOHM TISHS SLNAWSVYS TISHS (SSLINOdWAA) WASdAD ALIWAd ANIGHSA / ALINOONV1D SVOIN STVYANIW AAVSH STVYANIW LHON (% AA LV154) SYNLXSL SSANGYVH YO100 AYNLONYLS vt NO@dVO AYOLVHORVT q1als SAMPLES ASO TOHLIT (SHSLSW) HLd3d J1Vd NOSYVOOIaVY ADV DIDO10A9D FLTT ITT : : Ls NT SET TTT TTT ltt aun TTT — oO oO Zz Zz 5Y6/1 =| 5Y6/1 N3 5Y6/1 +110 53 APPENDIX 1.—Continued. CORE NUMBER _ S17 Il NUMBER 37 YAHLO OINOLYNV Id VuSsININVeOSs ALVOAYDOV SLNAWSVES LNV Id SLNAWSVes OIHLIM SAINOIdS JDNOdS SACOOVYLSO OIHLNA VusSsININVeOSs JIOHM TISHS SLNAWSVes TISHS (SSLIUOdVAJ) WNSdAD ALIWAd ANIGHSA / ALINOONVTS SVOIN STVYANIW AAVSH STVYANIW LHONM (% AAILV14S4) SYNLXSL SSSNGYVH YO100 FYNLONYLS vl NOSYVO AYOLVHOSVI q1ala SAMPLES ASONOHLNT (SHSLSW) Hidaa J1vd NOsYVOOIdVY ADV DIDO10OAD —=ag i =— | fap) lan} NA ~ A fap) (op aN] A att — 5YR4/1 5Y6/1 N3 5Y6/1 N3 5Y6/1 oO Zz 5YR2/1 5YR2/1 5YR2/1 —— 5YR2/1 pee XIV IAG 2 2 N3 5YR2/1 5YR2/1 a ee XIX I24 qian 7850 |35—\| —_—__|XXI|26 f= +100 SANADO OH SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 54 APPENDIX 1.—Continued. CORE NUMBER S17 Ill YAHLO OINOLYNYV 1d VuSsININVYOS ALVOAYDOV SLNAWOVYS LNV Id SLNAWSV¥s OIHLIT SAINDIdS JONOdS SACOOVYLSO OIHLNAd VusasININVYOS AFTOHM T1SHS SLNAWSVY¥s TISHS (SSLINOdVAA) WNSdAD ALIdAd ANIGHAA / ALINOONV19 SVOIN STVYANIW AAVAH STVYANIW LHOM (% AALV15¥) SYNLXSL SSASNGYVH YO100 AYNLONYLS vt NO@dVO AYOLVEORVI Qala SAMPLES ASOTOHLI (SHSLAW) HLd3d J1Vd NOSYHVOOIGVY ADV DIDO 1049 2B) NUMBER 37 APPENDIX 1.—Continued. CORE NUMBER S18 | SNVOZOAYE SdOdOuLSVS ALVOAYDOV SLNAWOVES LNV Id SLNAWSVS OIHLI SCIONIHOS SACOOVYLSO OIHLN3d Vass ININVeOSs SdOdA93 14d SLNAWSVes TISHS (SSLINOdVAJ) IWNSdAD ALIWAd ANIGYSA / ALINOONVT9 SVOIN STVYANIW AAVSH STVYANIW LHONM (% AAILV13y) SJYNLX4AL SSANGHYVH YO109 AYNLONULS 2 yt NOBYVO a AYOLVHOSVT = =< qials ADOTOHLN (SHSLSW) Hida ALVd NO@YVOOIdVy ADV 91ID0 1049 vt + SINADO TOH SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES APPENDIX 1.—Continued. CORE NUMBER _S$18 Il 56 SNVOZOAUE If — CS CN eS cee SGOdOY1LSV9 FLVOSYHDOV Qian a TD SINSAWOVES LNV Id Qa EE a SLNAWSVdSs OIL] SCIONIHOA SACOOVYLSO OIHLNA VuSsININVYOS SGOdA031Ad SLNAWSVYs TISHS (SSLINOdWAA) NSdAD ALIWAd ANIGYSA / ALINOONVT9 SVOIN STVYANIW AAVSH STVYANIW LHON (% AAILV14Sy) SUNLXSL | TT rT SSANGYVH U6 et Se rane ees YO100 5Y3/2 5Y7/2 5Y3/2 5Y7/2 5Y7/2 5Y3/2 5YR4/1 5YR4/1 5YR4/1 5YR4/1 5YR4/1 5YR4/1 5YR4/1 5YR4/1 5YR4/1 5YR4/1 5YR4/1 5YR4/1 AYNLONYLS vl NO@’VO AYOLVHORV) SAMPLES q1ala ASOTIOHLIT] (SH3LAW) HLdad dLVd NOSYVOOldvY 4OV O1D01039 SANS9010H ANSOCO1SISN1d 4 57 NUMBER 37 APPENDIX 1.—Continued. CORE NUMBER $18 III SNVOZOYAS SdOdOuLlsVvd ALVOAYSOV SLNAWSV's LNVId SLNAWSVeSs OIHLIM SGIONIHOS SAGOOVYLSO OIHLNAd VusSsININVYOSs SdOdA03 14d SLNAWSV¥s TISHS (SS.LIYOdVAJ) WNSdAD ALIWAd ANIGYHSA / ALINOONVTS SVOIN STVYANIW AAVSH STVYANIW LHOM (% AAILV1354) SYNLXSL SSSNCYVH YO100 AYNLONYLS vl NO@YVO AYOLVHORV 1 d1ald SAMPLES ASOIOHLN (SHALSW) Hid3aa J1Vd NOgsYVOOIGVY ADV OID01049 12070 SANAVDOLSIAId “71 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 58 APPENDIX 1.—Continued. CORE NUMBER $19 YAHLO YAHLO ALVOAYDOV SLNAWSVes LNV Id SLNAWSVdSs OIHLI SAINDdS ADNOdS SACOOVYLSO OIHLNAd VussININVYOS SdOdA03 14d SLNAWSVYs TISHS (SSLINOdVAJ) WNSdAD ALIdAd ANIGYSA / ALINOONVT9 SVOIN STVYANIW AAVSH STVYANIW LHONM (% AANLV145Y) SYNLXSAL SSSNGYVH 4YO109 AYNLONYLS vl NO@kVvo AYOLVEOREV I q1als SAMPLES ASOIOHLN (SHALAW) HLdSd 4LVd NOSYVOOIdvY JOV OIDO10A9 INSUF SINADO 1OH SANADOLSIA Td “1 59 APPENDIX 1.—Continued. NUMBER 37 YAHLO SCIONIHOS —_—— aD ALVOAYDOV ED SLNAWSVEs LNV Id —_— Gl ee = SLNAWSVeSs OIHLIN] —_—— ae —— —— SAINOIdS JONOdS OIHLN3d VYAsININVYOSs SdOdO¥LSVD SLNAWSVes TISHS = (SSLIUOdVAJ) WNSdAD ALIYAd ANIGYSA / ALINOONVTS SVOIN STVYANIW AAVSH STVYANIN LHOM (% ANLV14y) SYNLXSL SSSNGYVH 1) 1 an ey foe) LO DINLIN MOM A, = ~—" COONO+rrr ie) ooTap ioe) wow. © Ke) 3 Ns va oon DOs Peo.ou Per Povener inn N a 2 i YO100 10YR4/2|4.5 5Y3/2 a 12 10YR4/2|4 10YR4/2| 1 —10YR4/2| 4 5Y3/2 10YR4/2 5Y3/2 5Y5/2 5Y3/2 5Y5/2 5Y3/2 5Y5/2 5Y3/2 5Y5/2 5Y3/2 5Y3/2 10YR4/2 5Y3/2 10YR4/ 5Y3/2 10YR4/2 f{ AYNLONYLS = Pe oR Pet ae Dek 2 vt NOSYVO AYOLVHORVI dala SAMPLES Cea ce ac OG, a ally eius ADSOIOHLN Se (gp) 9 Soph = alo e r( sania. | JULES TTT CCT PEE PEE SSANGHWH | [eb at 098% ED 1 IMO OU LCIIM gy LLL OWN LOD oy) IN cy WMG F_UN HIN (8 QUO SiS = TOO AT ite) 5Y7/2 10YR5/ 5Y3/2 5Y5/2 5Y3/2 ee ? 5Y5/2 ? 10YR5/4 ? (a f tf AYNLONYLS t t 1 t Ie hl t x ? f Cees f vl NOSYVO AYOLVEORVI 23|C/ 34 ED 221 / q1ala SAMPLES IV XxX 35 V ASO IOHLIT pester ge) O (SHALAW) HLdSd 38— 9 ALVd NOEYVOOIdV" 7460 7260 |34— + 90 ADV OIDO104A9 CORE NUMBER _ $20 II 60 SANADO TOH 61 NUMBER 37 APPENDIX 1.—Continued. CORE NUMBER $20 III YAHLO SGIONIHOS ALVOAYSOV SLNAWOVYS LNVId SLNAWSVYS OIHLIT SAINDIdS FJONOdS SACOOVELSO OIHLN3d VuSsININVYOs SdOdA034 14d SLNAWSVYS TISHS (SSLINOdVA3) INNSdAD ALIWAd ANIGHSA / ALINOONV19 SVOIN STVYANIW AAVSH STVYANIW LHOM (% ANLV1S¥) FYNLXSAL SSSNGYVH YO109 AYNLONYLS vl NOSYVO AYOLVHORV 1 Qala SAMPLES ASO NOHLN (SHSLSW) H1d3aa J1vd NOgYVvoOOIdvY ADV 91ID01049 NEN Re N a nN vost a & aft § 3 8 5 S Oar oOo « Orr > > > SS Ss Boao Geol Como oO ) Oo o) LOO Re ateke Seles tre) re) re) re) re) CH c (ones = GQ= OH CO iow Noe ( > ? a - as es a (© es ee esl bele X Vill XX IX a) OX 3 W, W5|47 rc = (eal : l 3 ] : \ | ee ae ee el ee fens a a fee ee Fl eee ee iz EaaS] S = ¢ S = + ¢ > g ¢ rs) is Pe} re} re re) S 5 rs) re) oo) ome) ee) 2D OO ere Say iS ay oe ANADO1OH ANADOLSIA Id 1 SNVIYVIOIGVY SGIONIHOS ALVOSYDOV SLNAWSVYS LNVId SLNAWSVdSs OIHLN SAINIIdS JDNOdS SAGOOVYULSO SIH LNA VussININVYOS JIOHM TISHS SLNAWSVYS TISHS (SSLIMOdVAJ) INSdAD ALIdAd ANIGYSA / ALINOONV19 SVOIW STVYANIW AAVSH STVYANIW LHONM SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES (% AA LV1SY) SYN LXSL SSSNGYVH APPENDIX 1.—Continued. YO109 AYNLONYLS vt NOSkVvoO AYOLVEORVI Qala SAMPLES ASOOHLIT (SHALAW) HLdSd dLVd NO@eVOOIdVYy CORE NUMBER S21 | ADV DIDO10OAD 62 { cuadl] if | Da. -anf 00 1 TOYR7/4. 0.5 [2 SANADOTOH 63 APPENDIX 1.—Continued. CORE NUMBER _ S21 Il NUMBER 37 SNVIYVIOIGVY | SGIONIHOS ea ag ALVDIYDOV =. = > SINSWOVYs LNVId - — SLNAWOVYS OIHLI —— ee SAINOIdS ADNOdS SAdOOVY"LSO OIHLN3d VuSsININVdOs JTOHM TISHS _— SLNAWSVYS TISHS = (SSLINOdVAJ) NSdAD ALIWAd ANIGYSA / ALINOONVTS SVOIW STVYANIW LHOM (% AALLW144) Sunixal | PLT | LL eT TT SSSNCYVH CPLA CPLA INCI 1N|D 02 OP Gy MN OINMAININ QIN. MHIN IN] IN} YO109 5Y5/2 10YR4/2 5Y3/2 AYNLONYLS vt NO@YVO Awouvuoayn eas al a : q1ald SAMPLES ASOIOHLN (SHSLSW) Hidaa ALVd NO@YVOOIdVY ADV OID01049 SINADO TOH SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES APPENDIX 1.—Continued. CORE NUMBER S21 IIl SNVIYVIOIGVY SCIONIHOA ALVOAYSDOV SLNAWSVYS LNVId SLNAWSVdSs OIHLI SAINDIdS ADNOdS SACOOVELSO OIHLNA VussININVYOS FIOHM T1SHS SLNAWSVYs TISHS (SSLINOdWAA) INNSdAD ALIWAd ANIGYSA / ALINOONV19 SVOIN STVYANIW AAVSH STVYANIW LHON (% AN LV13¥) SYNLXSL SSSNQYVH YO100 AYNLONYLS vt NO@kVO AYOLVHORV 1 dala SAMPLES ASOIOHLIT (SHSLAW) HLdaa 3LVd NOSYHVOOIGVY JOV OIDO1049 bal Js $3] 2 | 3 8] ese ea 5 8 a ee ees = | S55 ee a 2S ea | Bir aS [fern Nese ee 7c eee) cil lee siteea Il selene) apace cnecaanay anata Vise Ue tl Se alee he all aes te Me ad oe al) ele all ie Gr ah bee | T | T T ] T | T T T T T T ij | S$ FF FY FY F #F (tou to te gt oe te) oo tr NCH SANADOTONH ANADOLSIATd “71 65 APPENDIX 1.—Continued. NUMBER 37 SWOLVIG SNVIGVIOIGVY OINOLYNV 1d VussININVdOs ALVOSYDOV SLNAWSVES LNV Id SCIONIHOS SAINIDIdS SJONOdS SACOOVELSO OIHLNA Vass ININVYOSs SdOdOuLSVD SLNAWSVes TISHS (SALIYOdVAJ) INNSdAD ALIWAd ANIGYSA / ALINOONVS SVOIN STVYANIW AAVSH STVYANIW LHOM (% AN LV1S4) FYNLXAL SSANGYVH YO109 AYNLONULS vl NO8¥VO AYOLVHORV1 dala SAMPLES ASOIOHLN (SHSLSW) Hidaa J1Vd NOSYVOOIdVH ADV 9IDO1049 CORE NUMBER S22 | OURRESEEGReeaeeee (99) — 5 2 (>) N oO > wo 5Y3/2 5y3/2 | 9 10YR5/4 1 10YR5/4| 0.8 1 5Y3/2 | 4 5 = 5Y3/2 5YR4/4 3 Co 3770 | 3 + 90 19 XI1]18 0 ==_ | ese JE -—-|xiv SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 66 APPENDIX 1.—Continued. CORE NUMBER _$22 II SNOLVIG SNVIHVIOIGVY OINOLYNY 1d VYASININVYOS ALVOAYDOV SLNAWOVYS LNVId SGIONIHOA S3AINDIdS ADNOdS SAGOOVELSO OIHLNAg VussININVYOS SdOdOYLSVD SLNAWSVYS TISHS (SSLIYOdVAA) INNSdAD ALIWAd ANIGYSA / ALINOONV19 SVOIN STVYANIW AAVAH STVYANIW LHON (% ANILV14Sy) SFYNLXSL SSANQYVH YO1090 AYNLONELS vl NO@dVO AYOLVHORVI q1ala SAMPLES ASOTOHLIT (SHALAWN) HLd3d dLVd NOS¥VOOldv" ADV 9ID0103D ieee | sya2 |0.8H 10YR5/4 10YR5/6| 1.3 5Y5/2 5Y5/2 5Y5/2 5Y5/2 10YR3/2| 4.5 lal“ 204 Ale 30920131 IA + 930 +2030 SNA90710H: SANADOLSIA Td “TI 67 NUMBER 37 APPENDIX 1.—Continued. CORE NUMBER S23 YAHLO YAHLO ALVDAYDOV SLNAWSVes LNV Id SLNAWSVus OIHLI] SAINDdS FDNOdS SACOOVYLSO OIHLN3d VuSsININVYOSs FIOHM TISHS SLNAWSVes TISHS (SSLIUOdVA3) NSdAD ALIWAd ANIGYSA / ALINOONVTS SVOIN STVYANIW AAVSH STVYANIW LHONM (% ANLV1SY) SYNLXSL SSSNGYVH YO100 AYNLONYLS vl NO@¥VoO AYOLVHORSVT dala SAMPLES ASOTOHLIM (SHSLSW) HLdaa 31Vd NOSYVOOIdVY ADV 91ID0 1049 4.5 [e.3 10YR4/2|3.8 |: 10YR4/2/0.5 | 5Y5/3 5Y7/2 ‘O10H }SNS001S1IS4d “4 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 68 APPENDIX 1.—Continued. CORE NUMBER S24 YAHLO YAHLO ALVOSYOOV SLNAWSVES LNW Id SLNAWSVYS OIHLI SAINDIdS ADNOdS SACOOVELSO OIHLNA VussININVYOS JIOHM TISHS SLNAWSVYS TISHS (SSLIYOdVAA) NSdAD ALIYAd ANIGYSA / ALINOONVI9 SVOIN STVYANIW AAVSH STVYANIW LHON (% ANLV144) SYNLXSL SSANGYVH YO109 SAYNLONYLS vl NO@kdVvo AYOLVHORVI qals SAMPLES ASOIOHLIT (SHSLAW) HLdSd dLVd NOSYVOOIdvVY JOV OIDO104A9 In © ) 9 0 09 +O A sf a a a a q A AN To tT xi Ss parses SZ oe Sees 6 S) | Bt Ke) we N (90) wt wo oO Bee ie ee war = es a are pate: 5 ae or T T T T | ge: See epnke 1 | | ireilaa! | hed one cen | aaletl | See anaes | eal T | T T T T T [ T T T | T | T oO a2 NI fap) a wo oO ™ co Lop) oO = NI [op) wt wo oO ™ foe) [o>) Oo _ - _ — _ _ _ — _ = qi ore (oe) (oi =) 0 Or NI io Leste ect Ne +r st OH Oo H Sigiat OTOH: ANADOLSIA Id “1 69 NUMBER 37 APPENDIX 1.—Continued. CORE NUMBER _S25 YAHLO SdOdOuLSVD ALVOAYDOV SLNAWSVes LNV Id SLNAWSVues OIHLM SWHACGONIHOS SACOOVHLSO OIHLNAg VuSsININVYOSs SdOdA034 14d SLNAWSVes TISHS (SS.LIUOdVA3J) INSdAD ALIWAd ANIGYHSA / ALINOONVTS SVOIN STVYANIW AAVSH STVYANIW LHONM (% AN LVI) SYNLXSAL SSSNQYVH YO109 AYNLONYLS vl NO@¥VO AYOLVHORSVI qals SAMPLES ASOTOHLN (SHALSW) Hida ALVd NOSYVOOICVY ADV OID01049 1.3 10YR4/2 SINADO 1OH SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 70 APPENDIX 1.—Continued. CORE NUMBER _S26 YAHLO YAHLO ALVOAYDOV SLNSWSVYS LNVId SLNAWSV¥Ss OIHLI SAINDIdS JONOdS SACOOVELSO OIHLN3g VYSsININVYOS JIOHM T1SHS SLNAWSVYS TISHS (SSLIUOdVA3) INNSdAD ALIWAd AINIGYSA / ALINOONVT9 SVOIN STVYANIW AAVSH STIVYANIW LHON (% AAILV13y) SYNLXSL SSSNGYVH YO109 AYNLONYLS vl NO@dVvo AYOLVHORV) dala SAMPLES ASONOHLIT (SHSLSW) HLd3d ALVd NOSeVOOIdVY ADV 91ID01049 4.5 oyr4/2| 4.5 10YR4/2 g ANAVDOLSIAId “71 71 APPENDIX 1.—Continued. NUMBER 37 YAHLO YAHLO ALVDAYDOV _ — a SINAWOVHS INVId = Qa = SINAWSV'4s OIHLIT he ————_—- iP -_— -— - == SAINOIdS JONOdS SACOOVYLSO =—— p— OIHINAG VHaSININVHOS are SdOdA031Sd SINSW9OVYS SHS (SSLINOdVAJ) WNSdAD ee ee ee — ALIWAd ANIGH3AA / ALINOONVT9 SVOIWN oe es —E—_— == SIVHANIW AAVSH ee = == = STVYANIW LHONM (% AAILV13y) SAYNLX4AL SSANCHYVH YO109 N2 5Y3/2 1oYRE/2| 3 | 5Y3/2 5Y3/2 5Y3/2 10YR4/2 0.5 5YR2/3 al 10YR5/4| 9 10YR6/2 10YR4/2| 2 AYNLONYLS be etn SEL —— vl NO8¥VO AYOLVHORVT q1ald SAMPLES Vini}16 ASOIOHLN GueMe meee) | | N ome) ALVd NO@YvOOIdVy oN oe) CORE NUMBER _S27 ADV 91901039 SNA00T10OH >: SNAOCOLSIAId “1 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 12 APPENDIX 1.—Continued. OINOLYNV 1d VuSsININVYOS SCIONIHOA ALVOAYDOV SLNAWSVES LNVId SLNAWSOVYSs OIHLN SAINOIdS JDNOdS SAGOOVELSO OIHLNAg VUASsININVYOS SdOdA941Ad SLNAWSVES TISHS (SSLIYOdVAA) INNSdAD ALIWAd ANIGYSA / ALINOONVT9 SVOIN STVYANIW AAVAH STVYANIW LHOM (% ANLV134Y) JYNLXSL SSANGUYVH YO109 AYNLONYLS vl NO@YVO AYOLVYHORVT qa 1ala SAMPLES ASOTOHLN (SH3LAW) Hidaa 4LVd NOSeVOOIdVY CORE NUMBER S28 | ADV DIDO 1049 Youve! if IN MINE? 1A IND fap) rl: rrr rrr ere er ed N N Q x N rr ra) 5 VAG al UND a! a a a [oe fam ao Oonrne am ise) On 86 HD oO te) oO te) oOo wo i) ite} > > > oo > > 2 Dea allie ate Paar Pd > =e Sais > > (Ss) ) SJ oWNo Oo oun oO» oO WwW ite) ite) ite) io wo lo lo = = = = = | ae) ee ee || see eS | SINADO 1OH 1) APPENDIX 1.—Continued. NUMBER 37 OINOLYNV 1d VuSsININVYOSs SCIONIHOS pera ALVOAYDOV SLNSWSVes LNV Id SLNAWSV¥4 OIHLIM EEE S3INDIdS ADNOdS ——— SAdOOVYELSO OIHLNAg VussININVeOs SdOdA04 14d Seeks ee SLNAWOVes TISHS (SSLINOdVAA) WNSdAD ALIdAd ANIGH3AA / ALINOONVTS SVOIN STVYANIW AAVSH STVYANIW LHOM | | (% AAILV13y) SYNLXSL SSSNGYVH 40109 © 5Y7/2 5Y5/2 5Y3/2 5Y5/2 5Y3/2 5Y5/2 5Y7/2 N7 N7 N7 5Y3/2 10YR7/4 10YR6/2 10YR4/4 N7 10YR6/2| 2. 10YR4/2 10YR6/6 5Y5/6 10YR4/6 5Y4/1 AYNLONYLS vl NOEYVO AYOLVEORVI qials SAMPLES CF ADSOIOHLN Ae SIMI Ae (SHSLSW) HLidaa 2a 2 | 20 ALVd NO@YVOOIdV ADV9ID0O1I0ID | AINAODO 1OH SANAVDOLSIAId “1 CORE NUMBER S828 Il SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES APPENDIX 1.—Continued. 74 YAHLO YAHLO ALVOAYDOV SLNAWSVES LNVId SLNAWSVdSs OIHLIT SdOdOuLSVD a= [== SAGOOVYLSO pa => _———— SS SSE [eae OIHLNA VUASININVYOS SdOd39A1Sd SLNAWSVEs TISHS (SSLINOdVAJ) INNSdAD ALIWAd ANIGYSA / ALINOONVT9 SVOIN STVYANIW AAVSH STVYANIW LHONM (% AALLV14Y) DEN tT una OOM STI SSSANCYVH lo NM WINDM WIM aMM MD NE Sr TENE NN EEN A NA 3 YO109 10YR4/2 10YR4/2 5Y3/2 5Y7/2 5Y7/2 5Y6/4 10YR6/6 5Y5/6 5Y3/2 5Y5/2 5Y3/2 10R3/ FYNLONYLS | AHOLVHOSV1 5 o oOo oo SAMPLES YQ a | ADOTOHLI i. | | > 7) ea q1aAla = = | = — = ] ] | T 4: | (Guaiawaidag 1S °° Lk 194|* 14 20 90: |) 7 dLVG NOSeVOOIdVd +170 | |8870 |184}¢ ie 5190 39v 91901039 =| ANS001SIF1d CORE NUMBER S29 | 75 NUMBER 37 APPENDIX 1.—Continued. CORE NUMBER $29 II YAHLO YAHLO ALVOAYSOV SLNAWOVES LNVId SLNAWSVYS OIHLIT SGOdOULSVD SAGOOVYELSO SIHLNAd VussININVYOs SGOdA03 14d SLNAWOVYs TISHS (SSLINOdVAJ) WNSdAD ALlWAd ANIGYSA / ALINOONVTS SVOIN STVYANIW AAVSH STVYANIW LHOM (% AN LV144) SAYNLXSL SSANCYVH YO109 AYNLONYLS vl NOSYVO AYOLVHORVT dala SAMPLES ASOTOHLN (SHSLAW) HLd3a J1Vd NOSYVOOIdVH ADV OIDO1049 = = a ~m N ANADOLSIAId “1 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES APPENDIX 1.—Continued. 76 YAHLO YSAHLO ALVOAYSDOV SLNAWOVES LNV Id SLNSWOVY4 OIHLIT me eee SE qu OINOLYNV 1d VussININVYOS SAdOOVYLSO OIHLNAd VYSsININVYOs SCIONIHOA SLNAWOVYS TISHS (SSLINOdVAJ) INSdAD ALIWAd ANIGYSA / ALINOONV19 SVOIN STVYANIW AAVAH STVYANIW LHONM (% AAILV14y) JYNLXSL SSANCYVH 1 YO109 5Y5/2 |0.5|*: 5Y3/2 5Y5/2 5YR4/4 5Y4/1 5Y7/2 5Y4/1 5Y4/1 5Y4/1 5Y4/1 5Y4/1 5Y4/1 5Y4/1 5Y4/1 AYNLONYLS vl NO@YVO AYOLVYORVT q1als SAMPLES ADOOHLIT (SHALSW) HLdaa => ALVd NO@¥Vvooldvy ADV 9IDO01049 SANADO 1OH CORE NUMBER S30 | cH én aa) 4 w 22] = =) Z, APPENDIX 1.—Continued. CORE NUMBER S30 Il YAHLO YAHLO ALVOAYDOV SLNAWSVYs LNVId SLNAWDSVeSs OIHLI QINOLANV Id VUSSININVYOS SACOOVYLSO OIHLN3a VussININVYOs SCIONIHOA SLNAWSVYS TISHS (SALIUOdVAJ) WASdAD ALIWAd SNIGHSA / ALINOONVTS SVOIN STVYANIW AAVSH STIVYANIW LHONM (% AAILV14y) SYNLXSL SSSNQYVH YO100 AYNLONYLS vt NOGYVO AYOLVHOSV1 q1als SAMPLES ASONOHLI (SHSLSW) Hidaa J1Vd NOSYVOOIdVH ADV 91ID01049 ieee #250 [284i on 3 10770|34—| 0 +110 +1 ANADOLSIAId “1 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 78 APPENDIX 1.—Continued. CORE NUMBER _S30 III YAHLO YAHLO ALVOAYOOV SLNAWSVES LNVId SLNAWSVYS OIHLI QINOLANV 1d VussININVYOS SACOOVYLSO OIHLN3d VussININVYOS SCIONIHOA SLNAWSVEs TISHS (SSLINOdVAJ) INSdAD ALIWAd ANIGHSA / ALINOONW19 SVOIN STVYANIW AAVSH STVYANIW LHONM (% AN LV144) JYNLXSL SSSNQYVH YO100 FYNLONYLS vt NOEYVO AYOLVYORVT Qala SAMPLES ASONOHLN (SHALAIN) Hidaa ALVd NOSkeVOOIdV" ADV 9ID01049 SANADOLSIATd “71 79 APPENDIX 1.—Continued. NUMBER 37 Mold SHLIOLAHd / SNOLVIG SHLIOLAHd SWOLVIG SCIONIHOA SdOdOuULSVD ALVOAYDOV EEE TEE SINSW9OVYS LNV1d ee ee EEE SLNAWSVYS OIHLIT SAINDIdS JONOdS SAGOO0VYLSO — Se a &S= e= VusSsININVuYOs SdOdA03 13d SLNAWSVYS TISHS (SSLIYOdVAJ) WNSdAD ALIAd | ESS a SEA ANIGHSA en Se / ALINOONVTS SVOIN STVYANIW AAWSH STIVYANIW LHOM (% ANLV14¥) SYNLXSL SSANGYVH YO100 AYNLONYLS vl NO@kVO AYOLVYORSVI q1ala SAMPLES ASOIOHLIN Wii (SHSLAW) HLdaa 3260 + 90) 5 ADV DIDO 1049 CORE NUMBER S31 | | Oo ALVd NOSYVOOIdVY i SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 80 APPENDIX 1.—Continued. YAHLO SdOdOYLSVD ALVOAYDOV SLNAWSVEs LNVId SLNAWSVYS OIHLIT SAINDIdS ADNOdS SACOOVELSO VussININVYOS SGOdA041Ad SLNAWSVEs TISHS (SSLINOdVA3) INSdAD ALIWAd ANIGHSA / ALINOONW19 SVOIN STVYANIW AAVAH STVYANIW LHOM (% ANLV14Y) SYNLXSL SSANGUYVH YO109 AYNLONYLS vl NO@¥VoO AYOLVYORVT q1ala SAMPLES ASOTOHLN (SHSLSW) HidSd Jivd NOgYVvoOOIavY ADV 91ID01049 CORE NUMBER _S31 Il qq =n SGIONIHOA oe ve Be ee Ss SALVOSAYDOV ALSNY . sp) AN 3 al a al a > > > > > wo ite) wo ite) wo i9 | [I] Eiled ae ee eee SS ea es SIP lo} © BR a 8 8] & 8 | ee a al DS el eee eee ee = x< < < - a oe) fo 10YR4/2 10YR4/2 3 —S —E,_ = === == _-_ = a Ss = SEI ID aes EE eee yyy ae e=— qo EEE ee === ee —- oo __—--—_—_—_—_—_—_———— —_— i -_ -_ aaa > ———— SdGOdOuLSVS eee ae ce SdOdA04 1Ad == aaa 5Y3/2 5Y3/2 5Y3/2 SNSOOIOH 85 NUMBER 37 APPENDIX 1.—Continued. SHLIMOLAHd S3dIXO 34 ALVOAYDOV SLNAWSVES LNV Id SLNAWSVS OIHLM SAINDdS ADNOdS SACOOVYLSO OIHLN3d VYSsININVYOSs FIOHM TISHS SLNAWSVes TISHS (SS.LIUOdVAJ) WNSdAD ALIdAd INIGHSA / ALINOONVTS SVOIWN STVYANIW AAVSH STVYSNIW LHOM (% AAILV14y) SYNLXSL SSANCYVH YO100 SAYNLONYLS vt NO8YVO AYOLVYHORV1 dala SAMPLES ADSONOHLIM (SHSLSW) Hida J1vd NOgYVvoOoIdvY ADV O1ID01049 CORE NUMBER _S39 II 5Y3/2 5Y5/2 10YR4/2 10YR4/2 10YR2/2 10YR6/6 10YR4/2 5Y5/2 5Y4/2 10YR4/2 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 86 APPENDIX 1.—Continued. CORE NUMBER S34 | SAFINGON DID1VO SNOLVIG SdO0dO0uLSVD SLNAWOVES LNV Id SLNAWSV¥4 OLLI SAINOIdS JDNOdS SACOOVELSO VYASININVYOSs SdOdA041Ad SLNAWSVE4 TISHS (SSLINOdVAJ) NSdAD ALldAd ANIGHSA / ALINOONW19 SVOIN STVYANIW AAVSH STVYANIW LHOM (% ANLV14Y) SJYNLXSL SSANCGUYVH YO109 AYNLONYLS vt NO@¥VO AYOLVYHORVT q1als SAMPLES ASONOHLN (SHALAW) HLd3aG ALVd NOS¥VOOIGV" FOV 9ID01049 SCIONIHOA t SANADO 1OH 87 NUMBER 37 APPENDIX 1.—Continued. SFINGON OID1VO SLNAWSO SLILVWSH / 34 ALVOAYDOV SLNAWSVes LNV Id SLNAWSV¥S OIHLIN S3INOIdS FDNOdS SACOOVYLSO VuSsININVYOS SGOdA03 14d SLNAWSVes TISHS (SSLINOdVAJ) INSdAD ALIWAd ANIGHSA / ALINOONV19 SVOIN STVYANIW AAVSH STVYANIW LHOM (% ANLV14Y) SYNLXSL SSANCYVH YO100 AYNLONYLS vt NO8¥VO AYOLVHORV1 q1ald SAMPLES ASOIOHLN (SHSLSW) Hidaa ALVd NO@YVOOIdVY CORE NUMBER S34 II ADV OID01049 SNVOZOAY@ = &= Se qu ee qr EES a= eS CE RES SE En Eas —=——— Ce SAN BE SSS IS PE TE SA EE TS —==—— ee eae SES =_— ee RE ERR ea ETE == == eae qa EEE aan] ike) Ke) wo A A A © o Nee Ne N N N N N N N N N N N Ss e ++Fqi¢ + + + + + + + + + + + o 2 Ge Co (ee fag [am ac oc oc oc oc oc oc ac oc SB 3 SSS SS SSS > > > > > > > > > eo © So ° o o o cS iS iS iS °o o fo) - rer eS = = = = = = = = = = = ANAVDOLSIAId “71 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 88 APPENDIX 1.—Continued. SAINGON JID 1V9 SWOLVIC / SGONIHOA ALVOSYDOV SLNAWSVYS LNVId SLNAWSVYs OIHLI SAINDIdS JDNOdS SAdOOVELSO VussININVYOS SdOdA941Ad SLNAWSVes TISHS (SSLINOdVA3) WNSdAD ALIYAd SINIGHSA / ALINOONVTS SVOIN STVYANIW AAVSH STVYANIW LHONM (% AN LVI) SJYNLXSL SSANGYVH YO100 SAYNLONULS vt NOSYVO AYOLVYORVT q1ala SAMPLES ASOIOHLNT (SHSLSW) Hid5d dLVd NO@keVOOldvy ADV 9ID01049 CORE NUMBER S35 | a ze ee : SWOLVIG = v_ Ae eee = ——— = = a —— a —_ (pa = ee ee é qq ° @ — Pretest a fn cee NMOS [@) 10YR4/2 10YR4/2 10YR4/2 10YR4/2 5Y4/4 5Y4/4 5Y4/4 5Y3/2 5Y3/2 5Y3/2 5Y3/2 5Y3/2 5Y3/1 5Y3/1 5Y5/1 5Y5/2 SANADO TOH 89 NUMBER 37 APPENDIX 1.—Continued. SFINGON 9191V9 SWOLVIG SGOdOYLSVD SLNAWSVes LNV Id SLNAWSV84 OIHLI SAINOIdS JDNOdS SACOOVHLSO VUsSININVYOS SdOdA03 14d SLNAWSVYs TISHS (SSLINOdVAJ) WASdAD ALIWAd ANIGYSA / ALINOONVTS SVOIN STVYANIW AAVSH STVYANIW LHOM (% AN LVI) SYNLXSL SSANGYVH YO109 AYNLONULS vt NO@kVO AYOLVHORV1 q1ala SAMPLES ASONOHLN (SHSLAW) HidSd J1VG NOSYVOOIGVH ADV NINN 1049 CORE NUMBER _S35 II 5Y2/2 5Y2/2 5Y3/2 5Y3/2 5Y3/2 5Y3/2 5Y3/2 5Y3/2 5Y4/2 10YR4/2 10YR4/2 fer) pees ee Pe ee : W, 9/34 W,9|32 W,,|33 ANADOLSIA Td “1 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 90 APPENDIX 1.—Continued. SALVDAYDOV CANIVLS 44 SWOLVIG ALVOAYODOV SLNAWSVES LNVId SLNAWSV¥s OIHLIT SAINIDIdS ADNOdS SACOOVELSO OIHLN3d VUASsININVYOS SdOdA941Ad SLNAWSVEs TISHS (SSLIYOdVAJ) INSdAD ALIWAd ANIGYSA / ALINOONV19 SVOIN STVYANIW AAVSH STVYSANIW LHOM (% ANLV14Y) SYNLXSL SSSANGYVH YO109 AYNLONYLS vt NOEYVO AYOLVYHORVT q1als SAMPLES ASO NOHLN (SHALAW) HLdSd ALVd NOSYVOOIdVY ADV 91ID01049 CORE NUMBER S36 | 10YR4/2 5Y3/2 5Y3/2 5Y3/2 5Y3/2 5Y3/2 5Y3/2 5Y3/2 5Y5/6 5Y4/1 5Y4/1 SINADO 1OH : ANSOO1SIsNd 4 91 NUMBER 37 APPENDIX 1.—Continued. SALVOAYDOV GANIVLS 34 SFINGON 9191V9 ALVOAYDOV SLNAWSVEs LNVId SLNAWSVeS OIHLI SAINIDIdS ADNOdS SAGOOVELSO SIH LNA VuSsININVYOSs SdOdA031Sd SLNAWSVYS TISHS (SSLIUOdVAJ) INSdAD ALIYAd ANIGYSA / ALINOONVTS SVOIN STVYANIW AAVSH SIVYANIW LHONM (% AN LVI) SYNLXSL SSANCHYVH YO100 AYNLONULS vl NO@¥Vvo AYOLVHORVT qals SAMPLES ASOTOHLN (SHSLAW) HLdaa ALVd NOSYVOOIdVY ADV 9IDN01049 CORE NUMBER _S36 Il 10YR4/2 10YR4/2 10YR4/2 10YR4/2 10YR4/2 10YR4/2 VIII ANADOLSIAId 1 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 92 APPENDIX 1.—Continued. SALVOSYDOV GANIVLS 34 YAHLO ALVOAYSOV SLNAWSVYS LNV Id SLNAWSV¥s OIHLIT SAINDIdS JDNOdS SAdOOVYLSO OIHLN3a VuaSsININVeOS SGOdA941Ad SLNAWSVEs TISHS (SSLIUOdVAJ) INSdAD ALIWAd ANIGH3AA / ALINOONVT9 SVOIWN STVYANIW AAVSH STVYANIW LHONM (% AAILV15Y) SYNLXSL SSANGYVH YO109 AYNLONYLS vt NO@YVO AYOLVHOSVT qala SAMPLES ASO OHLN (SHSLAW) Hid3d ALVd NOSYVOOIGVY CORE NUMBER S36 III ADV 91ID01049 10YR4/2 10YR4/2 10YR5/4 10YR5/4 W W414 -SNS3001SI571d = (sa) ON NUMBER 37 APPENDIX 1.—Continued. YAHLO SNOILSYONOO 34 ALVOAYDOV SLNAWOVEs LNVId SLNAWSVYSs OIHLIT SAINDIdS FONOdS SACOOVELSO VuSsININVYOS JIOHM TISHS SLNAWSVYs TISHS (SSLIUOdVAJ) WASdAS ALlYAd ANIGYSA / ALINOONVT9 SVOIN STVYANIW AAVSH STVYANIW LHOM (% ANLV14S¥) SYNLXSL SSSNGYVH YO100 AYNLONYLS vt NO@YVO AYOLVHOSV1 q1als SAMPLES ASONOHLIN (SHSLAW) HLd3d ALVd NO@Y¥VOOIdVY CORE NUMBER S37 | ADV 91ID0 1049 > UANUNINUUNLSEEEaeee TETETNmmpr EL bees Soe SUT TTTED if + vt — _ - Q Q a = a x x a t 3 oO = aS S = = << = a = = = = = + ao a o Nn SO aos Nn N N o > > + + + + foe Soe b- O.5 & 5 ie Ge OF BiG aro. ye iG m z - NS | A . £s Ed [ray Ke) o ~~ foe) oO or NUN] Ov] wo o Nn [ee) fon) | | Jee = Si = = = ~- Sd — = - N o st ive) a = =. Se eee = = ails a alvcleetealsceeloomls a pee pales : mpl be bds. : = lies pe alo lepseacles ile al Sie elves alls eae satis ages. ] Us esa T | T | T | T T T T T [3 a lras LO Lop) oO _ NI oO wt LO oO ~ co [o>) oO _ — _ = = = = = _— i N ro) fo) OX SiS N © o + oO + : Z ANADO 1OH << SINSDO@teS |aislel al SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 94 APPENDIX 1.—Continued. CORE NUMBER S27 Il YAHLO SNOILAYONOO 34 ALWOAYDOV SLNAWSVES LNVId SLNAWSV¥4 OIL] SAINIDIdS JDNOdS SAGOOVELSO VUSsININVYOS FIOHM TISHS SLNAWSVus TISHS (SSLIMOdVAJ) WNSdAD ALIYAd ANIGYSA / ALINOONVTS SVOIN STVYANIW AAVSH STVYANIN LHONM (% AN IW144) SYNLXSL SSANCYVH YO100 FYNLONYLS vt NO8YVO AYOLVYHORV I a Tals SAMPLES ASONOHLNT (SH3LAW) HLdSd d1vd NOSeVOOIdv" ADV DIDO 1049 ANADOLSIAId “71 95 APPENDIX 1.—Continued. NUMBER 37 SSINGON SLILVNSH oe SWOLVIG aa ALVOAYDOV a ——————— - == SLNAWSVEs LNV Id = e-- ee [EE SLNAWSVES OIHLIT SAINOIdS JONOdS SAdOOVYLSO == = — == = —— Vyas ININVYOSs SGOdA03 14d (SS.LIUOdVAJ) WNSdAD a= ALIWAd = S os = ! ' f ANIGUSA p= ee EE Se / ALINOONVTD STVHANIW AAVSH STIVYSNIW LHON | (% AN LVI) SYNLXSL SSSNQYVH “ir YO109 5Y4/1 10YR3/2 5YR3/2 5Y2/1 5Y2/1 10YR2/2 5Y5/2 5Y3/2 5Y4/1 5Y3/1 5Y2/1 5Y4/1 5Y3/2 5Y5/2 5Y5/2 10YR5/4| 5 10YR4/2| 5 10YR2/2| 5 AYNLONULS vt NOS¥Vvo AYOLVHORVI dala SAMPLES ASOIOHLN J a 10YR2/2 (SHSLAW) HLd3a 0 1 ALVG NO@¥VOOIdVY ADV 9IDNO1049 SANADO TOH CORE NUMBER S38 | SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 96 APPENDIX 1.—Continued. SNOILAYONOO ACIXO 34 S3gNl WHOM ALVDAYDOV SLNAWOVYS LNV Id SLNAWSV¥s OIHLIT SAINDIdS JDNOdS SAGOOVELSO VYSsININVeOS SdOdA041Ad SLNAWSVEs TISHS (SSLINOdVAJ) INSdAD ALlWAd ANIGH3AA / ALINOONVT9 SVOIN STVYANIW AAVAH STVYANIW LHONM (% AAILV14y) SYN LXSL SSANCGYVH YO1090 AYNLONYLS vl NO@YVO AYOLVYHORVT q1als SAMPLES ASONOHLNT (SHSLAW) Hida ALVd NO#kVOOIdv' CORE NUMBER S38 | ADV DIDO01049 SF INGON eae dlOWO 1 Sere Eoree gla PN ede Gale Pon el eee eee ite) o nw x< x co >) =) ps N E- pekeste| Dee Sn ee Palle oes = = = Cee tear iecere ease i iiemeleeie ie eh decals eerie ie Ileeel eee lee rolls ea Cie digi Pas G pee 2S ol ee Coieaesigeimsiatrenien vials CS Ces a Sele Fee eee see ee a ES eo re ea are, lierhceaae ll [ _— A oO SE LO ico} ™~ foe} [o>] oO oD (90) oO fae) fap) oO fap) fap) fap) + oS N DD NI N ANAVDOLSIA Td “71 97 NUMBER 37 APPENDIX 1.—Continued. CORE NUMBER S28 III SFINGON SLILVWSH SWOLVIG ALVDAYDOV SLNAWSVes LNV Id SLNAWDSVuSs OIHLI] S3INDIdS SDNOdS SACOOVYLSO Vass ININVYOs SGOdA03 14d SLNAWOVYs TISHS (SSLINOdWAA) INSdAD ALIYAd ANIGYSA / ALINOONVTS SVOIN STVYANIW AAVSH STVYANIW LHOM (% AN LVI) SYN LXSL SSSNGYVH YO109 AYNLONYLS vt NOBYVO AYOLVHORV 1 Qala SAMPLES ASONOHLN (SHSLSW) Hidaa J1Vd NOSYVOOIGVY ADV 9ID01049 |SINSOCO1SIS4d 4 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 98 APPENDIX 1.—Continued. YAHLO YAHLO ALVDAYSDOV SLNAWSVYS LNVId SLNAWSV¥s OIHLIT SAINDIdS JDNOdS SAGOOVELSO OIHLN3d VUssININVYOS AFTOHM TISHS SLNAWSVEs TISHS (SSLINOdVA) WNSdAD ALldAd ANIGYSA / ALINOONV19 SVOIWN STVYANIW AAVAH STVYANIW LHONM (% ANLV14y) SYNLXSL SSANGHYVH YO109 AYNLONYLS vt NO@YVO AYOLVYHORVT q1als SAMPLES ASONOHLIT (SHSLSW) HLdaa ALVd NOSYVOOIavY ADV 9ID01049 CORE NUMBER S39 ek 0 to o oO N N N NAN > = aS = = = = a = ee EN On = oc fom + t+ + + + + x + roar OW + x S :: Sans ts e 2 2 25 BM Sa GGG ols oo 2 [a| < | [MM fan) SC ee ee ee ee = - Ge) Nn a ~ = |=|S/ = = = Ss eee oe oe lel erall all fate eeccll ahell mis Peas eee saa ge! | al (=>) —_— oD b= i co Lop) (=) — _ — — NX oO fo) fo) S RSS oe) eee SINADO 1OH SINADOLSIA Id “71 99 NUMBER 37 APPENDIX 1.—Continued. CORE NUMBER S40 | SWOLVIG VOZOAUYE / SGIONIHOS ALVOAYSDOV SLNAWOVYS LNVId SLNAWSVES OIHLIT SAINDIdS JDNOdS SACOOVELSO SIH LNA VussININVYOS SGOdA03 14d SLNAWSVes TISHS (SSLIUOdVA3) NSdAD ALIWAd ANIGHSAA / ALINOONV1S SVOIN STVYANIW AAVSH STVYANIW LHOM (% ANLW14Y) SYNLXSL SSANCHYVH YO109 AYNLONYLS vt NOSYVO AYOLVHORV1 d1ald SAMPLES ASOIOHLN (SHSLAW) HLd3d J1Vd NOSYHVOOICVH ADV 91ID01049 N3 5Y5/2 5Y5/2 5Y5/2 5Y5/2 5Y5/2 2 5Y3/2 5Y3/2 5Y3/2 Zz Ed om SINAODOO 1OH SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 100 APPENDIX 1.—Continued. CORE NUMBER S 40 II YAHLO SALVOAYOOV GANIVLS ALVOAYDOV SLNAWSVYs LNVId SLNAWSV¥s OIHLN SAINDIdS ADNOdS SACOOVELSO OIHLN3d VuaSsININVeOS SGOdA0A1Ad SLNAWSVYs TISHS (SSLINOdVAJ) WASdAD ALIdAd ANIGYSA / ALINOONVTS SVOIN STVYANIW AAVSH STVYANIW LHOM (% AALV14y) FUN LXSL SSSNGYVH YO100 AYNLONELS vl NOEYVO AYOLVYORVT Qala SAMPLES ASONOHLN (SHSLAW) Hidaa ALVd NOkdVOOIdV" ADV OID01049 5Y3/2 5Y3/2 5Y3/2 5Y3/2 10YR2/2 10YR4/2 101 | SGIONIHOS — * ‘SWOLvIG SNYOZOAYS =— JLVOIYDOY SINSWOVHS LNVId SINSWOVHES OIL S3INDIdS JONOdS S3COOVHLSO VHASININVHOS SdOdOuLSVD SLNAWSVas TISHS (SSLIUOdVAJ) INSdAD ALIWAd ANIGYSA / ALINOONVTS SVOIN STVYANIW AAVSH STVYANIW LHOM (% AAILV14y) SYNLXSL SSSNGYVH APPENDIX 1.—Continued. { 1 1 YO109 10YR5/4 10YR4/2 10YR5/4 10YR4/2 10YR5/4 10YR5/4 10YR5/4 10YR4/2 5Y4/1 5Y4/1 5Y4/1 5Y4/1 5Y2/1 AYNLONYLS vl NOSYVO AYOLVHORV 1 d1ald SAMPLES ASOTOHLN (SHSLSW) Hida dLVd NO@yYVOOIdVY CORE NUMBER S41 | aDv 91901039 SINSOOTOH SANA00O1SIFA1d “71 NUMBER 37 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 102 APPENDIX 1.—Continued. CORE NUMBER S41 II SGIONIHOA SALVOAYDOV ALSNY ALVOAYDOV SLNAWSVYS LNVId SLNAWSV¥s OIHLIT SAINDIdS ADNOdS SACOOVELSO VYAsININVYOS SdOd30A1Ad SLNAWSVY4 TISHS (SSLIUOdVAJ) INSdAD ALIWAd ANIGYSA / ALINOONV19 SVOIN STVYANIW AAVAH STVYANIW LHON (% AAILV15 4) FYNLX4AL SSANGYVH YO109 FYNLONGLS vl NO@dVo AYOLVHORV) Qala SAMPLES ASO NOHLN (SHALSW) HLd3d ALVd NO@YVOOIdvy ADV DIDO1049 yo| 4.5 4/4.5 5Y5/ 10YR4 5Y4/ 10YR5 Lu] o fo - lon! om] + = al a isn al ow + wo © —_ | —_— | = Se aeASee : st Liat : Poa | l | | | | | ; | | | be ol | f : | GiGi 2h Sabai Sheaiienceeeeaiatienn eae ala ele wale T T T T T | T ] [>} Tor fan} fap) st LO oO N NI NI faN} faX] NI N oo nO str om + ANAVDOLSIA Td “71 103 NUMBER 37 APPENDIX 1.—Continued. CORE NUMBER $41 III SCIONIHOA SALVOSYDOV ALSNY ALVDAYDOV SLNAWSVEs LNVId SLNAWSVSs OIHLI S3INOIdS JDNOdS SACOOVYLSO VusasININVeOS S$d0d49A1Sd SLNAWOVYs TISHS (SALINOdVAJ) WNSdAD ALIdAd ANIGYSA / ALINOONW19 SVOIW STVYANIW AAVSH STVYANIW LHOM (% AN LVI) FYNLX4AL SSANGHYVH YO100 AYNLONYLS vl NO@YVO AYOLVYHORV1 qals SAMPLES ASOIOHLN (SHSLAW) HLd3a ALVd NO@YVOOIdVY ADV 9ID0 1049 SANAVDOLSIA Id “1 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 104 APPENDIX 1.—Continued. CORE NUMBER S42 | S3dIxO 34 SNVOZOAUYE ALVOAYOOV SLNAWOVYS LNV Id SLNAWSV¥Ss OIHLIT SAINIDIdS JDNOdS SACOOVELSO OIHLNA VuaAsININVYOS SdO0dOuLSVD SLNAWSVds TISHS SGOdA041Ad (SSLIYOdVA) WNSdAD INIGHSA / SLINOONV19 SVOIN STVYANIW AAVSH STVYANIW LHON (% ANLV14 4) SYNLXAL SSANGYVH YO109 AYNLONYLS vt NO@YVO AYOLVYORVT q1als SAMPLES ASOTOHLIT (SHSLAW) HLdsd dLVd NOSYVOOIdvY ADV DIDO10OA9D <1 <1 <1 10YR5/2 10YR5/2 10YR5/2 10YR3/2 10YR4/2 5Y4/1 10YR4/2 5Y5/2 5Y5/2 5Y4/1 5Y4/1 5Y5/2 5Y5/2 5Y4/2 5Y4/1 0/10 M, +110 va) So = NUMBER 37 APPENDIX 1.—Continued. CORE NUMBER _ $42 II SAdIXO 34 SNVOZOAYE ALVOAYDOV SLNAWSVEs LNV Id SLNAWSVYS OIHLIT SAINIDIdS ADNOdS SAdOOVELSO SIHLN3d VuSsININVYOSs SGOdOYLSVD SLNAWSVes TISHS SdOdA03 13d (SSLIUOdVA) WNSdAD ANIGYSA / ALINOONV19 SVOIN STVYANIW AAVSH STVYANIW LHONM (% AAILV13y) SYNLXSL SSSNGYVH YO109 SAYNLONYLS vt NOSYVO AYOLVYORV1 q1aAld SAMPLES ASONOHLN (SH3LSW) Hldaa Jivd NOgYvooIdvY ADV 9ID01049 7410 +100 |21 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 106 APPENDIX 1.—Continued. CORE NUMBER $42 III S3dIxO 34 SNVOZOAUE ALVOAYDOV SLNAWSVEs LNVId SLNAWSVYS OIHLI SAINDIdS ADNOdS SAGOOVELSO OIHLN3d VussININVdOs SdOdOuLSd SLNAWSVEs TISHS SCOdA041Ad (SSLINOdWAA) WNSdAD ANIGYSA / ALINOONV19 SVOIN STVYANIW AAVSH STVYANIW LHOM (% ANLV14 4) SYNLXSL SSANGYVH YO109 AYNLONYLS vi NO@dVvo AYOLVYORVT Qala SAMPLES ASONOHLIT (SHSLAW) HLdaa JLVd NOSYHVOOIGVH ADV DIDO1049 5Y5/2 5YR3/4 5Y5/2 5YR3/4 5Y5/2 5Y5/2 ANAVDOLSIAId “71 107 NUMBER 37 APPENDIX 1.—Continued. SFINGON O1D1V9 SWOLVIG ALVOSYDOV SLNAWSVES LNV Id SLNAWSVeS OIHLI SAINDIdS SDNOdS SAGOOVYELSO Vass ININVeOs SdOdOYLSVD SLNAWSVas TISHS (SSLINOdVAJ) WNSdAD ALIdAd ANIGYSA / ALINOONVTS SVOIN STVYANIW AAVSH STVYSANIW LHOM (% AAILV14¥) SYNLXSL SSSNGYVH YO100 AYNLONYLS vl NO@kVO AYOLVHORV 1 Qala SAMPLES ADSOIOHLN (SHSLSW) Hilda J1Vd NOSYVOOICVH ADV 91ID01049 CORE NUMBER S48 | 6970 [ SINADO 1OH !ANSOO1SIS 1d 4 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 108 APPENDIX 1.—Continued. CORE NUMBER _ S49 II SFINGON DID 1IVO SWOLVIG ALVDAYDOV SLNAWOVYS LNV Id SLNAWSV¥s OIHLI S3AINDIdS ADNOdS SAGOOVELSO VussININVYOS SdOdOuLSVD SLNAWSVYS TISHS (SSLINOdVAA) INSdAD ALIYAd ANIGYSA / ALINOONV19 SVOIN STVYANIW AAVSH STVYANIW LHON (% AA LV154) JYNLXSL SSSNQHYVH YO109 SAYNLONYLS vt NO@kVO AYOLVYHORVT q1ala SAMPLES ASOOHLIT (SHALAWN) HLdad J1Vvd NOSHVOOIaVY ADV DIDO10A9 ANADOLSIAId “1 109 NUMBER 37 APPENDIX 1.—Continued. CORE NUMBER S48 III SAFINGON O1D1VO SWOLVIG ALVOAYDOV SLNAWSVus LNV Id SLNAWSVYS OIHLIT SAINIIdS SONOdS SAGOOVELSO VuSsININVeOS SdOdOuLSVvd SLNAWOSVes TISHS (SS.LIUOdVAJ) INSdAD ALIWAd ANIGUSA / ALINOONVTS SVOIIN STVYANIW AAVSH STVYANIW LHOM (% AAILV13y) SYNLXSL SSSNQYVH YO109 AYNLONYLS 2 bLNO@YWo a1als ASONOHLI (SHSLSW) Hidaa Jivd NOgYVOOIaVY ADV OIDO1049 SANADOLSIA Id “71 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 110 APPENDIX 1.—Continued. SFINGON DID 1V9 SWOLVIG ALVOAYODOV SLNAWSVYS LNVId SLNAWOSVYS OIH.LIT SAINOIdS ADNOdS SAGOOVELSO VussININVYOS SdOdA941Ad SLNAWSVYs TISHS (SALIYOdVA) INNSdAD ALIGAd SANIGYSA / ALINOONV19 SVOIN STVYANIW AAVSH STVYANIW LHON (% AAILV14Y) SYNLXSL SSSNQYVH YO109 FYNLONYLS vt NO@kVO AYOLVHORV) q1ala SAMPLES ADOTOHLIT (SHALAW) HLdad ALVd NOSYVOOIdVY CORE NUMBER S44 | AOV OIDO1049 | — — Vv Vv Dy i b gma Vv V V V = a a a a a Ses = Na N = A = N + = t + o Fa aN oO ao Nn oO oO A iy ve) ao + c fag > >= > Dae Dae > > Ped > > > Peat > > Ss in to io to io io fe) to ite) ite) io oS if) Ss oS Be C= ) (=) _ NI [o0) wt lo Oo Mm co [o>} oo oo oo ome) 5 Zo — © OOD NK 0 oo Te) rep) al oO H On A +H oO + oO +H oO + Zz 5 SANADO 1OH ANADOLSIAa Id “1 111 NUMBER 37 APPENDIX 1.—Continued. CORE NUMBER S44 Il SFINGON D1D1V9 SWOLVIG ALVOAYDOV SLNAWSVes LNV Id SLNAWSVes OIHLM SAINIOIdS FDNOdS SACOOVYLSO VYSsININVYOSs SdOdA034 14d SLNAWSVds TISHS (SSLINOdVAJ) INNSdAD ALldAd ANIGYSA / ALINOONV1S SVOIN STVYANIW AAVSH STVYSNIW LHOM (% AN LVI) SYNLXSL SSSNGYVH YO100 FYNLONYLS vl NOSYVO AYOLVYORV 1 q1ala SAMPLES ASONOHLI (SHALSW) HLdaad ALVd NOSYVOOIdVY ADV OID0 1049 SANAVDOLSIAId “71 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 112 APPENDIX 1.—Continued. SWOLVIG SFINGON JID 1W9 ALVDAYDOV SLNAWOVYS LNV Id SLNAWSV¥YS OIHLI SAINDIdS JONOdS SAGOOVELSO SdOdOuLSVS SdOdA941Ad SLNAWSVYS TISHS VYAsININVYOS ALIWAd ANIGYSA / ALINOONV19 SVOIN STVYANIW AAVSH STVYANIW LHONM (% AA LV1SY) SYNLX3L SSSNGYVH YO109 SAYNLONELS vl NO8dVvo AYOLVYHORVT dala SAMPLES ASOIOHLIT (SHALAW) HLdSa 4LVd NO@¥VOOldvd ADV DIDO1049 CORE NUMBER S45 | 5) 1 QUT) Ee 10YR5/4| 4 10YR4/2|4 10YR2/2 10YR4/2 10YR4/2 INSUF 1080|'9 T- - - - Vil 6 G is SANADO 1OH ANADOLSIA Id ud 113 NUMBER 37 APPENDIX 1.—Continued. SAFINGON 3dIXO 34 SFINGON OID1VO ALVOAYDOV SLNAWSVes LNV Id SLNAWOVYS OIHLIT S3INOIdS ADNOdS SACOOVYELSO SdOdOuLSV9 SGOdA03 14d SLNAWSVes TISHS (SSLINOdVAA) INSdAD ALIYAd ANIGYSA / ALINOONV1S SVOIN STVYANIW AAVSH STVYANIW LHOM (% AN LVI) SYNLXSL SSANQHYVH YO100 FYNLONYLS vl NOSYVO AYOLVEHORVI dala SAMPLES ASOIOHLN (SHSLSW) Hidaa ALVd NO@YVOOIdVY ADV OIDO01049 CORE NUMBER $45 II 10YR2/2 10YR2/2 N1 5Y4/1 Y 5Y4/1 5Y4/1 5Y4/1 cia aes AS =o Al os oO = al - - - - fan} WN WN x =a SN co io) S x< < x< = = = = iS Sea] OND ea el oe ee a ee ee eee Aah Leh re nce eat ale | en Pov Sea eeteS Niecaleetliceaien | epee VeparaNe hii Tv ay MD! se [aa | nel nara ae lal eeepc cL lcm eel oO 3 NI foe) = LO [) ap) _ fQN} fap) ws Lo [) Oo AN NI fen] NI NI NI NI NI N feN} (op) [ep) (op) fap) lop) fap) fon) fap) oD (49) wt SS Sree A 4 = ANADOLSIAId “1 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 114 APPENDIX 1.—Continued. SFINGON / SGIONIHOS SNOLVIG ALVDAYDOV SLNAWSVYS LNVId SLNAWSVYSs OIHLI] SAINDIdS JONOdS SACOOVELSO VussININVYOS SdOdOuLSVD SLNAWSVYS TISHS (SS.LIYOdVAA) NSdAD ALldAd ANIGYSA / ALINOONVI9 SVOIN STVYANIW AAVSH STVYANIW LHON (% AN LV14y) FYNLXAL SSSNGYVH YO109 AYNLONYLS vl NO8kdVvo AYOLVYHORVT dala SAMPLES ASOOHLIT (SHALAW) HidSd dLVd NO8¥VOOIdvd ADV DIDO1OAD CORE NUMBER S946 | e e e Sa 1INGON SCIONIHOA e | e SAINGON Illi 46 Le oe, 12940|12f 2". + 240 SAINADO TOH SANADO_LSISa Id “1 115 NUMBER 37 APPENDIX 1.—Continued. CORE NUMBER _ S46 II SFINGON O19 1V9 SWOLVIG ALVOSYDOV SLNAWOVES LNV Id SLNAWSVeS OIHLN SAINIDIdS SONOdS SAGOOVYLSO SIHLN3d VussININVYOS Sd0dOuLSVvd SLNAWSVes TISHS (SSLIYOdVAJ) WNSdAD ALIdAd INIGYSA / ALINOONVTS SVOIN STVYANIW AAVSH STIVYANIW LHOM (% AALV14y) FYNLXAL SSSNGYVH YO100 AYNLONYLS vt NO@YVO AYOLVHORVI Q1als SAMPLES ASOIOHLN (SHALSW) Hidaa dLVd NO@eVvoOIdvY ADV OID01049 5Y4/1 5Y4/1 10YR4/2 10YR4/2 10YR4/2 10YR4/2 10YR4/2 10YR4/2 10YR4/2 10YR4/2 10YR4/2 10YR4/2 ANADOLSIATd “1 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 116 APPENDIX 1.—Continued. CORE NUMBER S46 III JINGON JID WO SWOLVIC ALVOAYDOV SLNAWOVES LNVId SLNAWSVdSs OIHLN SAINIIdS JDNOdS SACOOVELSO OIH LNA VuSsININVYOS SdOdOuLSV9 SLNAWSVes TISHS (SSLIYOdVAJ) NSdAD ALIdAd ANIGYSA / ALINOONVT9 SVOIN STVYANIW AAVSH STVYANIW LHOM (% AN LV1S¥) SYNLXSL SSSNGYVH YO109 AYNLONYLS vt NO@YVO AYOLVYORVT q1ala SAMPLES ASOIOHLIT (SHSLSW) HLdaa Jivd NOsYuVoOOoIdvY ADV DIDO1OAD 10YR4/2 10YR4/2 10YR4/2 10YR4/2 ANAVDOLSIA Td “1 D7, APPENDIX 1.—Continued. NUMBER 37 SGIONIHOJ ° e SWOLVIG ° ALWOAHOOV SINAWOVHS LNVId =a GEES SLNAWOVYS OIHLIT . ° oo SACOOVYLSO @ aE EEE WHASININVHO4 => ED eu SGOdOuYLSVD SLNAWSVes TISHS @ (SSLINOdVAA) INSdAD — ED SLIYAd C) =—= C) ) Seu EE ED INIGHSA / ALINOONV19 SVOIN STVYANIW AAVSH STIVYANIW LHOM (% AN LVI) SYNLXSL SSSNQYVH YO109 TEN : - oO (fet = c SYNLONYLS Salles ea eels All] oc ~~ A ci. vt NOGYVO ao ae ee ee a [ca] AYOLVHOSVI q1ald 5Y5/2 5Y3/2 5Y3/2 5Y3/2 5Y3/2 41 8 42 10 11 12 14 15 SAMPLES ASONOHLN (SHSLSW) Hidaa ALVd NO@YVOOIdVY ADV OID01049 SINADO TOH CORE NUMBER S47 | SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 118 APPENDIX 1.—Continued. JINGON DID 1V9 SWOLVIG ALVOSYDOV SLNAWOVYS LNV Id SLNAWSV¥4 OIHLIT SAINDIdS AONOdS SACOOVELSO VUsSsININVYOS SdOdOYLSVD SLNAWOVYs TISHS (SSLINOdVAJ) INNSdAD ALIWAd ANIGYSA / ALINOONVT9 SVOIN STVYANIW AAVSH STVYANIW LHONM (% AALW14y) SYN LXSL SSSNGYVH YO100 AYNLONYLS vl NOBYVO AYOLVHORV) Qala SAMPLES ASOTOHLIT (SHSLSW) HLdad dLVd NOsYVOOIdVY ADV DIDO10AD CORE NUMBER S47 Il A grr ee ee ee (>) - ; Q w a a s oes + | =p i (ep) (o) | 0 _- N oO fap) Rae) = x< x< Sxcix=| x< x 2) > |RS/ RS Se | | | | ste ; | | ! oe | | U | | hey Be | | | ANE AEA Pas) |S eas ated Peed] cae a Ni A oO 3 o 3 “O10H : ANADOLSIAId “71 119 NUMBER 37 APPENDIX 1.—Continued. SGIONIHOS SWOLVIG ALVOAYDOV SLNAWSVYs LNV Id SLNAWSVYS OIHLI SAINOIdS ADNOdS SACOOVYLSO VussININVueOs SdodOulsvd SLNAWSVes TISHS (SSLINOdVAA) INSdAD ALIdAd ANIGHSA / ALINOONV19 SVOIN STVYANIW AAVSH STVYANIN LHOM (% AAILV14¥) SJYNLXSL SSSNCYVH YO109 SAYNLONULS 2 >t NOSYVO q1ala ASOIOHLN (SHSLSW) Hidaad ALVd NO@YVOOIdvVY CORE NUMBER $47 Ill ADV OIDO1049 5Y5/4 5Y5/4 wt N st 43 Ss s LO wt 46 Snasoisiata | SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES APPENDIX 1.—Continued. 120 SCIONIHOS SWOLVIG ALVOAYDOV SLNAWSVYS LNVId SLNAWSVds OIHLNM SAINDIdS JONOdS SACOOVELSO VUYSSININWYOS SdOdOuLSVD SLNAWSVes TISHS (SSLIUOdVAJ) INNSdAD ALIYAd ANIGYSA / ALINOONV19 SVOIN STVYANIW AAVSH STVYANIW LHON (% AAILV15y) SYNLXSL SSANQUYVH YO1090 AYNLONYLS vl NOEYVO AYOLVYHORVT q1als SAMPLES ASONOHLIT (SHSLAW) HLd3d ALVG NOSY¥VOOIdVY ADV OIDO1OAD CORE NUMBER S48 | 5Y5/2 5Y5/2 paces isis ys Me pate ur reeceeise ence vag g ranean cia aoiehe asd etaie SOR eager | T | T T T T T T T = ad 2? = = 2 te ss 2 aq oo ro) © © ro) sf _- st + ani SINADO 1OH :SINAOCOLSIAId am | 121 NUMBER 37 APPENDIX 1.—Continued. CORE NUMBER _S48 II SFINGON ID1VO SWOLVIG ALVOAYDOV SLNAWSVES LNVId SLNAWSVYS OIHLIT SAINOIdS FDNOdS SACOOVYLSO VYSsININVYOSs SdOdOuLsVvd SLNAWSVes TISHS (SSLINOdVAJ) WNSdAD ALIWAd ANIGYSA / ALINOONVT9 SVOIWN STVYANIW AAVSH STVYANIW LHONM (% AAILV13y) SFYNLXAL SSSNCYVH YO109 AYNLONYLS vl NOSYVO AYOLVEHORVI dala SAMPLES ASOIOHLN (SHSLSW) HLd3aa Aivd NOgsYVvooldvY ADV OIDO1049 5Y5/2 5Y5/2 5Y5/2 5Y5/2 5Y5/2 5Y5/2 5Y5/2 5Y5/2 5Y5/2 5Y5/2 5Y5/2 5Y5/2 5Y5/2 ANADOLSIAId “1 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES APPENDIX 1.—Continued. CORE NUMBER 948 III 122 SAINGON SID 1V9 SWOLVIG ALVOAYDOV SLNAWSVes LNV Id SLNAWSV¥s OIHLNM SAINIDIdS JONOdS SACOOVELSO VussININVYOs SdOdOuLSVD SLNAWSVYS TISHS (SSLINOdVAJ) INNSdAD ALIWAd ANIGYSA / ALINOONVTS SVOIN STVYANIW AAVAH STVYANIW LHON (% AAILV154) SYNLXAL SSSNCYVH YO100 SAYNLONYLS vl NO@YVO AYOLVHORV) q1ala SAMPLES ASO NOHLN (SHALSW) HLdad ALVd NO@YVOOIdvVY ADV OIDO104A9 SANAVDOLSIA Td “71 123 NUMBER 37 APPENDIX 1.—Continued. SFINGON DID1V9 SCIONIHOS ALVOAYDOV SLNAWSVES LNV Id SLNAWSVeSs OIHLI S3INOIdS FONOdS SACOOVYLSO Vass ININVeOs SdOdOuLSVd SLNAWOVYs TISHS SWOLVIG ALIWAd SANIGYSA / ALINOONVT9 SVOIW STVYANIW AAVSH STVYANIW LHOM (% AAILV13y) SYNLXSL SSSNQYVH YO109 AYNLONGLS vt NOSYVO AYOLVHORVT Qala SAMPLES ASONOHLN (SHSLSW) Hida J1Vd NOSYHVOOIdVY ADV OID01049 CORE NUMBER S49 | e@ —aS> ee ED D —___—__—_ —_ =r eee re ey > EE Sa a ge a) GRRE aS) SaaS IN l INNNVNEBQGOQIANUANAUVNNNNOSOZ2ee Urn 1m 4 0 0 5 a (o) - (oo) oO (jo) (o) (=) N N N + + + N N N N jag fom [oq oO oO oO oO 3 3 3 rs es 5 a 5 Sipe ~ CH : CH~ a : ~~ ) pests oO +l SINADO 1OnH >: INAVDOLSIA ld 71 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 124 APPENDIX 1.—Continued. CORE NUMBER S49 Il SFINGON D91VO SCIONIHOA ALVOAYDOV SLNAWSVYS LNVId SLNAWSV¥s OIHLI SAINDIdS JDNOdS SAqCOOVELSO OIHIN3d VussININVYOS SdO0dO0uLSVD SLNAWSVes TIAHS (SSLIYOdVAA) INSdAD ALIYAd ANIGHSA / ALINOONV19 SVOIN STVYANIW AAVSH SIVYANIW LHONM (% AAILV15y) SYNLXSL SSANCGYVH YO109 AYNLONYLS vt NO@¥VO AYOLVHORVT q1ala SAMPLES ASOTOHLIT (SHALAW) HLdaa 31Vva NOgYvooIavY ADV JIDO10A9 2) 22 Vil SS CW 20 = 26 ANAVDOLSIATd “1 125 NUMBER 37 APPENDIX 1.—Continued. CORE NUMBER $49 Ill SFINGON DIDO SGIONIHOS ALVOAYSOV SLNAWOVYS LNVId SLNAWSVES OIHLIT SAINIDIdS SONOdS SAGOOVYELSO SIHLN3d VussININVYOS SdOdOuLSVd SLNAWSVes TISHS (SSLINOdVAA) INSdAD ALIdAd ANIGHSA / ALINOONVTS SVOIN STVYANIW AAVSH STIVYANIW LHOM (% ANLV14¥) SYNLXSL SSANQYVH YO109 AYNLONYLS vt NO@YVO AYOLVHORV 1 q1ala SAMPLES ASONOHLN (SHSLSW) Hida 31Vd NOgYVOOIdVvY ADV OID01049 N + a > fo) = N ($0) eI i ANAVDOLSIAId “71 n 3) Zz =| 3} n aa g c = ea) E e n Zz ie) 5 = ee = Zz 5 s) Z s Z 5 n E = n 126 APPENDIX 1.—Continued. SWOLVIG SGIONIHOA ALVOAYDOV SLNAWSVYS LNVId SLNAWSV¥s OIHLI SAINDIdS JDNOdS SACOOVELSO OIHLN3d VuSsININVYOS SdOdOuLSVD SLNAWSVEs TISHS (SSLINOdVA) INNSdAD ALlWAd ANIGYSA / ALINOONVT9 SVOIN STVYANIW AAVSH STVYANIN LHONM (% ANILV1Sy) SYNLX4AL SSANGYVH YO109 AYNLONYLS vt NO@kVO AYOLVYORSVT Qala SAMPLES ASO NOHLI (SHSLAIN) HLdad J1Vd NOSYVOOIGVY ADV OIDO1049 CORE NUMBER S50 | © a) ) ro) ro) ro) N N N N 3 o 3 3 > > > > wo wo wo ite} aM ae Ts) o © © or > S S 2s | x< SS Seve ae mee [at See ee SS eee SOR ln ay in! )! tt SOR | Poe ieanee SS ay een. | LAS Vee ‘Soe :: i() | este Ds Tet ETT 0h LS A pe SU) NN esate [eeesase ec lal | O=~ 101 l SSS ES see dl en Dot a eb [ad SO ip oe SEs fea AR ee ale lee a er ll | | Lop) (=) _- N (op) = wo oOo ™ co Lop} S ro) ro) ro) eee © + SINADO 1OnH 127 NUMBER 37 APPENDIX 1.—Continued. CORE NUMBER _S50 II SWOLVIG SGIONIHOA ALVOAYDOV SLNAWSVYs LNV Id SLNAWSVeS OIHLIT SAINIDIdS JDNOdS SACOOVYLSO OIHLN38 VussININVYOS SGOdOYLSVD SLNAWOVes TISHS (SSLINOdVAJ) INSdAD ALIWAd ANIGYSA / ALINOONVTS SVOIN STVYANIW AAVSH STVYANIW LHOM (% AN LV14y) SYNLXSL SSSNQYVH YO100 AYNLONYLS vt NOSYVO AYOLVHORV 1 q1ala SAMPLES ASOIOHLN (SH3LSW) Hidaa 31vd NOgYVOOIdVY ADV DID01049 ANAVDOLSIATd “1 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 128 APPENDIX 1.—Continued. CORE NUMBER S50 III SWOLVICG SCIONIHOA ALVOAYDOV SLNAWSVYS LNV Id SLNAWSV¥s OIHLIT SAINIIdS JDNOdS SAGOOVYLSO OIHLN3d VussININVYOS SdOdOuLsvd SLNAWSVEs TISHS (SSLIYOdVA) INSdAD ALIWAd ANIGYSA / ALINOONV19 SVOIWN STVYANIW AAVSH STVYANIW LHONM (% AALV15¥) SYNLXSL SSANGHYVH YO109 AYNLONYLS vl NOSYVO AYOLVYHORVT qals SAMPLES ASONOHLN (SHSLAWN) HLd5d J1Vd NOGYVOOIGVH ADV 9ID01049 5Y4/2 SANAVDOLSIATId “71 129 NUMBER 37 APPENDIX 1.—Continued. YAHLO SGIONIHOA ALVOAYSOV SLNAWSVYS LNV Id SLNAWSVYS OIHLIT SAINOIdS SDNOdS SACOOVYLSO SIHLN3d VuSsININVYOS SdOdOuULSVD SLNAWSVes TISHS (SALINOdWAJ) WNASdAD ALIdAd SNIQHSA / ALINOONVTS SVOIN STVYANIW AAVSH SIVYANIW LHON (% AAILV13¥) SYNLXSL SSSNQYVH YO100 FYNLONYLS vt NO@YVO AYOLVYHORVI qals SAMPLES ASOIOHLN (SHSLSW) Hida J1Vd NOSYHVOOIdVY ADV 91ID0 1049 CORE NUMBER S51 | WUE cr a 0 19 m 19 oO 5YR3/4|3 5YR3/2 | Oo SANAVDOLSIA Id “71 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 130 APPENDIX 1.—Continued. CORE NUMBER _S91 Il YAHLO SCIONIHOA ALVDAYDOV SLNAWSVYs LNV Id SLNAWSV¥S OIHLIT SAINDIdS ADNOdS SAGOOVYLSO OIHLNAd VussININVYOS SdOdOuLSVD SLNAWSVYs TISHS (SALINOdVA3) NSdAD ALIWAd ANIGY3SA / ALINOONV19 SVOIN STVYANIW AAVSH STIVYANIW LHONM (% AALV15y) SFYNLXSL SSANCGYVH YO109 AYNLONYLS ” pL NOSYWO Qala ASO NOHLNT (SHALSW) Hid5d d1Vd NOSkVOOIdV" ADV 9ID01049 W,,|19 W,,|21 ANADOLSIATd 1 131 NUMBER 37 APPENDIX 1.—Continued. CORE NUMBER $91 III YAHLO SCIONIHOS ALVOAYDOV SLNAWSVES LNV Id SLNAWSVdSs OIHLI] SAINDIdS ADNOdS SAdOOVYLSO OIHLN3d VYssININVYOS SdOdOULSVD SLNAWSVes TISHS (SSLINOdVAA) WNSdAD ALldAd ANIGYSA / ALINOONVTS SVOIN STVYANIW AAVSH STVYANIW LHONM (% AA LV14y) SYNLXAL SSSNGYVH YO100 AYNLONYLS ” +L NOSHVO q1ala ASONOHLN (SHALSW) Hid3aa 41vd NOsYVOOIaVY ADV 9ID01049 SANAVDOLSIA Id “71 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 132 APPENDIX 1.—Continued. S3dIXO 34 SF INGON ALVOSYSOV SLNAWOVYS LNVId SLNAWSVYS OIHLN S3INDdS JDNOdS SACOOVELSO VussININVYOS SWOLVIG SLNAWSVEs TISHS SCIONIHOA ALIWAd ANIGYSA / ALINOONV1S SVOIN STVYANIW AAVSH STVYANIW LHONM (% AAILV13y) SYNLXSL SSSNGYVH YO109 AYNLONYLS vt NOSYVO AYOLVHORVT Qala SAMPLES ASOIOHLN (SHSLAW) HLdaa ALVd NOSYVOOIdVY ADV 9ID01049 CORE NUMBER S52 | 5Y3/2 5Y3/2 5Y3/2 5Y3/2 5Y3/2 5Y3/2 32 Vi ———— aS SA Tipe 9 8 2_@ | sag ta oO o (=) va a SN oO 3) vt oO r= > + > > zZ wo Ww wo w t+ om oO = ee il ae | T l I ! | S| iranian (es [i yas ote lg [ee iy it | ity SS Oe cea Gm eee USS Pie SS OS SD DT OE SD ee eee) RSS T T T | T T a LO oOo ™~ oo) oo) no OR Ne MN oO + st + SAINADO 1OH _| = 80 SANADOLSIA Td “1 133 NUMBER 37 APPENDIX 1.—Continued. CORE NUMBER _ S52 II SAdIXO 34 SIINGON ALVOAYDOV SLNAWSVYS LNV Id SLNAWSVS OIHLIT S3INDIdS ADNOdS SACOOVHLSO OIHLN3d VYSsININVYOSs SWOLVIG SLNAWSVes TISHS SCIONIHOS ALIWAd ANIGYSA / ALINOONVT9 SVOIN STVYANIW AAVSH STVYANIW LHON (% AALV144) FYNLXSAL SSANGHYVH YO100 SAYNLONULS ” vl NOGHVO a AYOLVHOSVT = =< qials ADOOHLNT (SHSLAW) HLdaa ALVd NO@YvOOIdvy ADV OIDO1049 ANADOLSIA Id “71 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 134 APPENDIX 1.—Continued. CORE NUMBER $92 III SAdIXO 44 Sa INGON ALVOAYDOV SLNAWSVEs LNVId SLNAWSVYS OIHLI SAINDIdS JONOdS SACOOVYLSO VYSsININVYOSs SWOLVIC SLNAWSVEs TISHS SCIONIHOA ALIWAd ANIGYSA / ALINOONVT9 SVOIN STIVYANIW AAVSH STVYANIW LHOM (% ANLV14Y) FUN LXSL SSANCGYVH YO100 FYNLONELS vl NOSYVO AYOLVYHORVT dala SAMPLES ASO NOHLINT (SH3LAWN) HidaG ALVd NOSkVOOIdV' ADV 9ID01039 SANAVDOLSIA Id “71 135, NUMBER 37 APPENDIX 1.—Continued. SFINGON D1D1V9 S3dIxO ALVOAYDOV SLNAWSVes LNV Id SLNAWSVs OIHLI SAINOIdS FDNOdS SACOOVHLSO VussININVYOs SWOLVIG SLNAWSVas TISHS (SSLINOdVAJ) WNSdAD ALldAd ANIGYSA / ALINOONVTS SVOIN STVYANIW AAVSH STVYANIW LHOM (% AN LVI) FYNLXSL SSSNQYVH YO100 AYNLONYLS vt NO@YVO AYOLVEHORVT q1ald SAMPLES ASOIOHLIT (SHALSW) Hida 31Vd NOSYVOOIGVY ADV 9ID01049 CORE NUMBER S53 | © SWYAGONIHOS DML) i . QO y 10Y4/2 10Y4/2 24 VII 3-4 SAINADO 1OH ANAVDOLSIAMTd “1 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 136 APPENDIX 1.—Continued. SAINGON OID 1V9 S3dIxO ALVOAYDOV SLNAWSVEs LNV Id SLNAWSV'S OIHLN SAINOIdS JDNOdS SACOOVELSO VuASsININVYOS SWOLVIG SLNAWSVEs TISHS (SSLINOdVA) WNSdAD ALIWAd ANIGYSA / ALINOONV19 SVOIN STVYANIW AAVSH STVYANIW LHONM (% AN LV14Y) JYNLXAL SSANCYVH YO109 AYNLONYLS vl NOSYVO AYOLVYORVT a 1als SAMPLES ASONOHLN (SHSLAW) Hida ALVd NOskeVOOIdVv' CORE NUMBER _S5¢ Il FOV OIDO1049 ANADOLSIA Id “1 137 NUMBER 37 APPENDIX 1.—Continued. CORE NUMBER _SO4 SALVNO8YVO SAdIXO 34 ALVOAYDOV SLNAWOVES LNV Id SLNAWSVeSs OIHLN] S3INIDIdS SDNOdS SAGOOVELSO SWOLVIG SdOdOYLSVS SLNAWSVYS TISHS (SSLIUOdVAJ) WNSdAD ALIWAd ANIGHSAA / ALINOONV19 SVOIW STVYANIW AAVSH STVYSNIW LHOM (% ANLV144) SYNLXSL SSSNGYVH YO109 AYNLONYLS vl NOSYVO AYOLVHORV 1 dala SAMPLES ADSOIOHLNM (SHSLAW) HLd3a dLVd NO@YVOOIGVY ADV DIDO 1049 | { 1 1 5YR3/2|1.5 |: 5YR3/2| 2 5YR3/2| 2 5Y3/2 5Y3/2 5Y3/2 SINADO 1OH SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 138 APPENDIX 1.—Continued. SI INGON SCIONIHOA ALVOAYSDOV SLNAWSVEs LNV Id SLNAWSVeS OIHLIT S3INOIdS SDNOdS SAGOOVYHLSO OIHLN3d VussININVeOs FTOHM TISHS SLNAWSVEs TISHS (SSLIYOdVA3) WASdAD ALIdAd ANIGYSA / ALINOONV19 SVOIN STVYANIW AAVSH STIVYANIW LHONM (% ANILV1S4) SYN LXSL SSANCGYVH YO100 SAYNLONELS vt NO@¥VO AYOLVYHORVT Qala SAMPLES ASONOHLIT (SHAAN) HLdSad JLVd NOSYVOOIGVH AOV OINO1049 CORE NUMBER S95 3.5125 3 fe 10YR2/2 10YR2/2 10YR4/2 10YR5/4 10GY4/2 10YR5/2 19 20 + 160|104]| 2. ANAVDOLSIA Id “1 139 NUMBER 37 APPENDIX 1.—Continued. CORE NUMBER S56 YAHLO SFINGON 34 ALVOAYSOV SLNAWSVEs LNVId SLNAWSVdSs OIHLIT SAINIDIdS ADNOdS SGIONIHOS OIHLNAg VuSsININVYOSs SdOdA04 14d SdOdOuLlsvd (SALIYOdVAJ) NSdAD ALIWAd SNIGHSA / ALINOONVTS SVOIWN STVYANIW AAVSH STIVYANIW LHONM (% AAILV14y) SYN LXAL SSANGYVH YO109 AYNLONGLS vt NO@YVO AYOLVHORV1 qials SAMPLES ASONOHL] (SHSLSW) Hid3aa d1Vd NO@¥VoOIdvY ADV 9ID01049 | 10YR4/2 5Y7/2 SINADO TOH ANAVDOLSIAld “71 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 140 APPENDIX 1.—Continued. SAINGON ID 19 SdOdOu¥lSVS ALVOAYDOV SLNAWOVYS LNV Id SLNAWSV¥4 OIHLIT SAINOIdS JDNOdS SACOOVELSO VuSsININVeEOS SWOLVIG SLNAWSVYS TISHS (SSLINOdVAJ) INSdAD ALIWAd ANIGYSA / ALINOONV19 SVOIN STVYANIW AAVSH STVYANIN LHOM (% ANLV14Y) SJYNLXSL SSANCGUYVH YO109 FYNLONYLS vt NO@YVO AYOLVYHORV) Qala SAMPLES ASOTOHLIT (SHSLAW) Hida JLVG NOSYHVOOIdVY ADV 9ID01049 CORE NUMBER S57 r @ @e e a= e SS ES) => e Sey a EE e @ a= (=) e a= e@ e@ e [opecsax tsa) e e e e@ @ 2 => e qa Ere) e CRED) EE SES REED Came) @ ee ED == SS ee REL ps ee es ee @ Ba ESE SEEDS ED === = SS eS 2 SEED en aaa es ner Ee eee am ES pe ee a ee Bk eee to oO as pace a © lo wo oO oO - - (=) oO (oo) (jo) N au a a a a qu S oY - ~~ - Or nO ~i ic pee aes: = = a= CeCe ae eee ee ee Ba eG oe Sa Ae Zuppa ae Ae 1 yh ee ee Sed ee Ga rekon al eal aioe ral | a Se ee Ge a ea ee a Nee ora MW Fw 2 Peel iee pee aASa eee i in le ee (=) _ N oO st LO i) S = N co So (Ts) oO ort T= ©) i wo 5Y3/2 SINADO TOH Pisitaqd 4 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 144 APPENDIX 1.—Continued. CORE NUMBER S59 II SAINGON WO / 3s SCIONIHOA SLNAWSVYS OIHLN SLNAWSVES LNV Id SWOLVIG SAINDIdS ADNOdS SACOOVELSO Vass ININVeOs SdOdOuLSV9 SdOdA041Ad (SALINOdVA3) WNSdAD ALIYAd ANIGYSA / ALINOONVT9 SVOIWN STVYANIW AAVSH STVYANIN LHOM (% AAILV14y) FYNLXSL SSANGYVH YO109 FYNLONYLS vt NO@YVO AYOLVHORVT qials SAMPLES ASO OHLNT (SH3LAW) HLdSG ALVd NOSkVOOIdVY ADV 9ID01049 oO = = [e>) ANAVDOLSIA Id “1 145 NUMBER 37 APPENDIX 1.—Continued. CORE NUMBER S959 III SFINGON VO / 34 SGIONIHOS ALVOAYDOV SLNAWSVds LNVId SWOLVIG SAINDIdS SDNOdS SACOOVYLSO VussININVeOs SdOdOu¥LSVD SdOdA034 14d (SSLINOdVAJ) NSdAD ALIWAd ANIGHSA / ALINOONV19 SVOIW STVYANIW AAVSH SIVYANIW LHON (% AAILV13y) SYN LXSL SSANGHYVH YO100 AYNLONYLS vl NOSYVO AYOLVEORV1 Qala SAMPLES ASONOHLIT (SHALAW) Hidad ALVd NO@YVOOIdVY AOV OIDO1OAD ANAVDOLSIAId “1 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 146 APPENDIX 1.—Continued. CORE NUMBER S60 | SWOLVIG SdOdOuLSVD ALVOAYDOV SLNAWSVES LNVId SINAWSVYS OIHL] SAINDIdS JDNOdS SAGOOVELSO VussININVYOS SCOdA0A1Ad SLNAWSVY4 TISHS (SSLINOdVAJ) WNSdAD ALIdAd ANIGYSA / ALINOONV19 SVOIN STVYANIW AAVSH STVYANIW LHON (% AALV14y) SFYNLXSL SSANCGYVH YO1090 AYNLONYLS vl NO@’VO AYOLVYORVT @iala SAMPLES ASOIOHLIT (SHSLAW) Hidaa ALVG NOSYVOOIdvY ADV DIDO1049 SGIONIHOA * SANADO 1OH SANAVDOLSIAId “1 147 NUMBER 37 APPENDIX 1.—Continued. CORE NUMBER _ S60 II SWOLVIC SdOdOuLSVS ALVOAYDOV SLNAWSVEs LNVId SLNAWSVYS OIHLIT S3INOIdS ADNOdS SAGOOVELSO Vass ININVYOs SdOdA041Ad SLNAWSVes TISHS (SSALIUOdVA3) NSdAD ALIWAd ANIGHSA / ALINOONVTS SVOIWN STVYANIW AAWSH STVYANIW LHONM (% AN LVI) FYNLXSL SSANCHYVH YO100 AYNLONYLS vt NO@YVO AYOLVHORVT q1als SAMPLES ASOIOHLN (SHSLSW) Hid3aa d1lvd NO@Yvoolav"y ADV OID01049 SANAVDOLSISAId “71 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 148 APPENDIX 1.—Continued. CORE NUMBER S61 | SATOILYVd SLVNO8YVO SdOdOuLSV9 ALVDAYDOV SLNAWSVES LNVId SLNAWSV¥S OIHLIT SAINDIdS ADNOdS SAGOOVYLSO VuSsININVeOs SWOLVIG SLNAWSVes TISHS (SSLIUOdVA3) NSdAD ALIYAd ANIGYSA / ALINOONVTS SVOIN STVYANIW AAVSH STVYANIW LHOM (% AN LV13y) SYNLXSL SSANCGYVH YO109 AYNLONYLS vt NO@YVO AYOLVYHORVT Qala SAMPLES ASO NOHLN (SHSLAW) Hidaad JLVd NOGYVOOIGVH ADV 91ID01049 SS e —Ss=gp ee = e ® ) [ ) @ ee —_ ° ° . —— e @ @ a= _$____—_ e e SS ———————————————— == e ae rT Oe LETT ELE P See sunennat natant OA Mini e Lo © N - BS 3 S ~ = = a ~ a a a nN nu a i] & Si < Nee eet ase tes © o o o o Ss 3 2) ) OT eins —@ a a ra io ra 5 es ae (os xX NS aon (on — be Ys [) _ N fap) a LO oO fen} oOo oe: fo) ® © Qui >] ~_ fe) N fap) N + SF +l +I nw SAINADO 1OH -ISINADOLSIAId 1 149 NUMBER 37 APPENDIX 1.—Continued. CORE NUMBER _S61 Il SFTOILYVd ALVNOSYVO SdOdOuLSVD ALVOAYDOV SLNAWSVes LNV Id SLNANSVe4s OIHLI] SAINOIdS FDNOdS SAGOOVHLSO VuSsININVYOs SWOLVIG SLNAWSV¥s TISHS (SSLINOdVAJ) INSdAD ALIYAd ANIGHSA / ALINOONV1S SVOIIN STVYANIW AAVSH STVYANIW LHOM (% ANLV14Y) SYNLXSL SSSNGYVH YO109 SAYNLONYLS vl NOSYVO AYOLVEHORVI q1als SAMPLES ASOIOHLN (SHALSW) Hidaa 41VG NOSYVOOIGVY ADV DIDO10OSD @ e e @ ey @ ae Sree Lo K) 2 T= a © aS co Le © D 2 = x 2 fa Ae Ae ae ae Ar SINADO 1OH 159 NUMBER 37 APPENDIX 1.—Continued. CORE NUMBER _ S65 II AW10 YAHLO ALVOAYDOV SLNAWSVes LNV Id SLNAWSVYS OIHLIT SAINDIdS SONOdS SAdOOVELSO VuaSsININVeOs JTOHM TISHS SLNAWOV¥s TISHS (SSLIYOdVAJ) INSdAD ALIWAd ANIGYSA / ALINOONVTS SVOIN STVYANIW AAVSH STIVYANIW LHON (% AN LVI) SYNLXSL SSSNQYVH YO100 FYNLONYLS vt NO@YVO AYOLVHORV I qals SAMPLES ASOIOHLI (SHSLSW) HLdad ALVd NOSYVOOIdVY ADV OID01039 33 34 ~ foe) top) ise) ise) ise) oO — 35 36 & ANAVDO ITOH <2 SANADOLSIA Td “1 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 160 APPENDIX 1.—Continued. CORE NUMBER S66 III AW19 YAHLO ALVOAYDOV SLNAWSVEs LNVId SLNAWSV¥S OIHLIT SAINDIdS JDNOdS SACOOVYLSO OIHLN3d VYAsININVYOS JIOHM TISHS SLNAWSV¥s TISHS (SSLINOdVAJ) WNSdAD ALIWAd ANIGH3AA / ALINOONVTS SVOIW STVYANIW AAVSH STVYSANIW LHOM (% AALV14y) SYNLXSL SSSNGYVH YO109 AYNLONEYLS vl NOSYVO AYOLVHORVT q1ala SAMPLES ASO NOHLIT (SHSLAWN) HLdaa ALVd NOSYVOOIdVY ADV 9ID01049 405 = ANAVDOLSIA Id “71 161 NUMBER 37 APPENDIX 1.—Continued. YAHLO SFINGON 34 ALVOAYDOV SLNAWSVes LNV Id SLNAWNSVeSs OIHLI SAINDIdS ADNOdS SACOOVYELSO VYSsININVYOSs JIOHM TISHS SLNAWSVes TISHS (SSLINOdWAJ) WNSdAD ALldAd ANIGYSA / ALINOONV19 SVOIN STVYANIW AAVSH STVYANIW LHOM (% AALV144) SYNLXSAL SSSNCYVH YO109 AYNLONYLS vt NO@kVvo AYOLVHORVI dala SAMPLES ASOIOHLIN (SHSLAW) Hida ALVd NOSYVOOIdVY ADV OID01049 CORE NUMBER _S66 lo 2s) 5Y3/2 5Y3/2 | 1.2 5Y3/2 Hl 5Y3/2 5Y3/2 5Y3/2 7 5Y3/2 5Y3/2 — 3 US ns OOSUTUU LT Ange! oO oO - 5Y3/2 5Y3/2 HL NIN iH— 5Y3/2 — 5Y3/2 5Y3/2 [a og ele 8 eo ee] 2 [= | 5 == — SS 9) w+ = >< < < < = = TS Ve SSS Ii Whee oe * 1 WHY Es] NH “RR Ne Peaster SSS) Ses Eo SOS NH RAS eee aa oe T T T | T | ] T ae tel T = = = SS 2 = = 2 = = 2 a oO joo) joe) io © 0 or oH lo + N +4 SAINADO 1OH SINADOLSIA Id “71 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 162 APPENDIX 1.—Continued. CORE NUMBER _S67 YAHLO YAHLO ALVOAYSDOV SLNAWSVYS LNV Id SLNAWSV¥S OIHLIT SAINDIdS JDNOdS SACOOVELSO OIHLNAg VuSsININVeOS JIOHM TISHS SLNAWSVds TISHS (SSLINOdVAJ) INNSdAD ALIdAd ANIGYSA / ALINOONV19 SVOIN STVYANIW AAVSH STVYANIW LHONM (% AAILV 14) SYNLXSL SSANGYVH YO100 AYNLONYLS vl NOSYVO AYOLVHORSVI Qala SAMPLES ASOIOHLN (SHSLAIN) HidSaa dLvd NOSkVOOIdv" ADV 9ID01049 5YR4/1|2.5 5YR4/2 20 ANSDONOH: ANADOLSIA Id “1 163 APPENDIX 1.—Continued. NUMBER 37 SCIONIHOA ° at % . SWOLVIG ) e — SE ee ALVOAYDOV Si ty . : : SLNAWOVYS LNVId Gua ES = a — a EE = SLNANSV¥S OIHLIM SAINDIdS ADNOdS SACOOVELSO ° VussININVYOS bes SdOdOULSVD ° e SLNAWSVes TISHS ° ° ° —=—P ° —— © (SSLIUOdVA3) s . e WNSdAD ALIYAd — ne bad ANIGHSA / ALINOONV1S SVOIN STVYANIW AAVSH STVYSANIW LHOM (% AAILW14SY) SYNLXSL SSANQHYVH 5Y3/2 |0.5 5Y3/2 10.5 k 5Y3/2 |0.5 5Y3/2 5Y3/2 5Y3/2 5Y3/2 YO100 sic ! Ml HATTA 10YR4/2 5Y5/2 5Y3/2 5Y3/2 BW) syRo2 vt NOBYVO SS lo} Jal AYOLVHORVT “| 9 Se] Brel ab west ee eT SAMPLES eee fe eee ee ASOIOHLN (SHSLSW) Hidaa an = Lo o°9 dLVd NO@eVoOIgv" roe ro] + 70 NAY AS) Ue JAOV OIDO1049 oINoa CORE NUMBER S68 | O1OH SSNSOCOLSIS 1d “41 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES APPENDIX 1.—Continued. 164 SCIONIHOS SWOLVIG ALVOAYDOV ‘ SLNAWSVYS LNV Id e SLNAWSVYs OIHLNM SAINIDIdS ADNOdS SACOOVELSO VussININVdOs SdOdOuLSVD SLNAWSVYs TISHS (SALIUOdVAJ) WNSdAD ALIdAd ANIGYSA @ / ALINOONVTD SVOIN STVYANIW AAVSH STIVYANIW LHON (% AN LV134) FYNLXSL SSSNGYVH YO109 AYNLONYLS vl NOGYHVO AYOLVHOSVI qi SAMPLES i. WN oO ® fee) (o>) = ASONOHLIT (SHALSW) HLd3d wo as te © Ae © He NI NI NI N N N N ALVd NOSkVOOIdV" ADV 9IDO1049 ANADOLSIATId “71 CORE NUMBER _S68 II 165 NUMBER 37 APPENDIX 1.—Continued. CORE NUMBER S68 III SCIONIHOS SWOLVIG ALVOAYDOV SLNAWSVES LNV Id SLNAWDSVas OIHLI SAINDIdS SDNOdS SACOOVELSO VuSsININVYOS SdOdOYLSVS SLNAWSVes TISHS (SSLINOdWAJ) NSdAD ALIWAd ANIGYSA / ALINOONVT9 SVOIN STVYANIW AAVSH STVYANIW LHOM (% AN LVI) SYN LXSL SSANQHYVH YO100 AYNLONYLS vt NOEYVO AYOLVYORVI q1ald SAMPLES ASONOHLIN (SHALAW) Hidad ALVd NO@YVOOIdVY ADV 9ID0 1049 ANADVDOLSIAId “1 n S Zz = S) n YQ g c = ea E E n Zz 2 & > (22) % = Zz o) 1S) Zz 2 5 E = n 166 APPENDIX 1.—Continued. CORE NUMBER _S69 YAHLO YAHLO ALVOAYSDOV SLNAWSVES LNVId SLNAWSV¥s OIHLN SAINDIdS ADNOdS SAGOOVYLSO VussININVYOS SdOdOuLSVD SLNAWSVYs TISHS (SSLINOdVAJ) INSdAD ALIWAd ANIGYSA / ALINOONV19 SVOIN STVYANIW AAVSH STVYANIW LHONM (% AA LV14Y) SYNLX3L SSANGYVH YO109 AYNLONYLS vl NO@’VO AYOLVEHORVT q1ala SAMPLES ASOTOHLIT (SH3LSAWN) HLdSa Jivd NOSYVoOIdVvY ADV 91ID01049 2.5}: 10YR2/2|2.5 + N t+ a > fo} 10 YR2/2 —10YR4/2 Gi DOs oe ee iE pe He Ret ©. | Om: Sipe enna aceon | [ates at | T | T T it IF | T T T T | T T | T T T T T T T T = = = Ee ie: a si = = 2S = oe =u = = = = = Ri o3 oe So wae OM NG sesal A + oO + ANAOOTOH : SANAVDOLSIA Id “1 io \o = NUMBER 37 APPENDIX 1.—Continued. CORE NUMBER S70 YAHLO S3dIXO 34 ALVOAYDOV SLNAWOSVYS LNV Id SLNAWSVeS OIHLIT SAINOIdS ADNOdS SACOOVYELSO SWOLVIG JIOHM TISHS SLNAWSVYS TISHS (SSLIUOdVAJ) INNSdAD ALIWAd ANIGYHSA / ALINOONVTS SVOIN STVYANIW AAVSH STVYANIW LHONM (% ANLV14Y) SYNLXSL SSSNQHVH YO100 AYNLONULS vt NOSYVO AYOLVYORV1 Qala SAMPLES ASOIOHLN (SHSLSW) HLdaa 3Jivd NOgYVvoOoIdvY ADV DIDO1OAD LITT Lo - (=) = (=) a q av a — @ @ g ¢ s S 3 2 3 eee 3 2 m5 ea i a Ed eee [| Ra ee ee nl per ee Fa 2 fe ~| © Se se ea ee As | eee | = alana eS eS eae eae ee ae a Wt ; relay Wire Aire ere Sele one eae Seohe ane [aap sinesrtemie elena Soro Pane PuSao moe neO! seuaee T | laa T T Vid [pall T | T = ioe | Real | T T T oO _ N lop) at wo ™~ c [o>} oO - faN} fap) =a LO co ™m~ co [o>) oO Nese — _ — _— — _ _ —_ _— _— int) oo oo a a OQ + N or oO + oO +H SINADO WOH: SANADOLSIA Id “1 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 168 APPENDIX 1.—Continued. SAINGON OID 1V9 SdOdOuLSVD ALVOAYSOV SLNAWSVYS LNVId SLNAWSV¥S OIHLI SWOLVIG SAdOOVYLSO VYSsININVYOS SGOdA041Ad SLNAWSVYS TISHS (SSLIYOdVAJ) WNSdAD ALIWAd ANIGYSA / ALINOONV19 SVOIWN STVYANIW AAVSH STVYANIW LHONM (% AALV144) SYNLXSL SSSNGYVH YO109 FYNLONYLS vt NO@YVO AYOLVYHORSVT qiala SAMPLES ASOIOHLI (SHALSW) Hid3G 4LVd NOSYVOOIdVY ADV 9ID01049 CORE NUMBER S71 | | 10YR4/2| 1.5 | 1.5 5Y3/2 |0.3 : 10YR4/2 10YR4/2 5Y5/2 5Y3/2 5GY4/1 5Y3/2 5Y3/2 5Y3/2 5Y3/2 5Y3/2 5Y3/2 5Y3/2 lO} lO ost Tam ra) ee ies ee, oe S ANADOLSIAId “71 AN Ke) = NUMBER 37 APPENDIX 1.—Continued. CORE NUMBER _S/1 Il SAINGON O1D1VO SdOdOuLSVD ALVOAYDOV SLNAWSVes LNVId SLNAWSVYS OIHLIT SAINIIdS JONOdS SACOOVELSO VuasiNINVdOs SdO0dA93 13d SLNAWSVYs TISHS (SALINOdVAJ) WNSdAD ALIYAd ANIGYSA / ALINOONVTS SVOIWN STVYANIW AAVSH STVYANIW LHOM (% AAILV14Y) SYNLXAL SSANQYVH YO100 AYNLONYLS 2 vt NOVO q1ald ASOTOHLN (SHSLSW) Hidaa ALVd NOGYVOOIdVY ADV DIDO 1049 ~ N op) & © - N N N N = Me W,,|2 Ww W. SANA001SIS5 1d 1 : = Ss) n QQ g 2 = ea) E e n Z g 5 o o & Zz fo) ) Z S Z 5 n sa > = n 170 APPENDIX 1.—Continued. CORE NUMBER S71 III SAFINGON JID 1V9 SdOdOuLSVD ALVOAYDOV SLNAWOVeS LNVId SLNAWSV¥Ss OIHLIT SAINOIdS JDNOdS SAGOOVELSO VussININVYOS SdOdA0A1Ad SLNAWSVEs TISHS (SSLINOdVAJ) NSdAD ALIWAd ANIGYSA / ALINOONV19 SVOIN STVYANIW AAVSH STVYANIW LHON (% AAILV15¥) SFYNLXAL SSSNGYVH YO109 AYNLONYLS vl NO@dVO AYOLVHOEV) qals SAMPLES ASOTOHLI (SHSLAWN) HLd3d dLVG NO@keVOOIdvd ADV 9ID01049 5Y3/2 5Y3/2 5Y3/2 SANAVDOLSIAId “71 171 NUMBER 37 APPENDIX 1.—Continued. CORE NUMBER S72 SALVNO8YVO SdOdOu¥LSVD ALVOAYDOV SLNAWSVYS LNVId SLNAWSVES OIHLIT SAINDIdS SONOdS SACOOVYLSO VusSsININVYOSs SWOLVIG SLNAWOVYs TISHS (SSLINOdVAA) NSdAD ALIWAd ANIGHSA / ALINOONVTS SVOIN STVYANIW AAVSH STVYANIW LHOM (% ANLV1S¥) SYNLXAL SSSNCYVH YO100 SAYNLONYLS vl NOSYVO AYOLVHORVI q1ala SAMPLES ASOIOHLN (SHSLSW) Hida dLvd NO@YVOOIdvY ADV OID0 1049 SINADO 1OH ANAVDOLSIAId 1 S Z = 1S) n sa] Z < = sa] E fe n zZ 2 5 e (4 & z fe) 1o) Zz s Zz (e) 22) E = n 172 APPENDIX 1.—Continued. SATOILYVd ALVNOSYVO SdOdOuLSVD ALVOAYSDOV SLNAWSVES LNVId SLNAWSV¥s OIHLI SAINIDIdS JDNOdS SAdOOVELSO VYASININVYOS SdOdA04 14d SLNAWSVYS TISHS (SSLINOdVAJ) NSdAD ALIdAd ANIGYSA / ALINOONVT9 SVOIN STVYANIW AAVAH STVYANIW LHON (% AN L144) SYNLXSL SSANGYVH YO100 SAYNLONYLS vl NO@kVvo AYOLVHORVI dala SAMPLES ASOIOHLI (SHALAWN) HLd3d Jivd NogsYvooIdvYy ADV 9ID01049 CORE NUMBER S73 | = e C) =r EES SSeS == I OO a IE ETS SIS SPE TS BE EE EOE) C) ® @—:—— a - see - ee -—— ° ° aoe — a — 3 SS ESE = = SESE SSD e - eo SEED Be oe 2 Sh 2 ee = s) fo) fe) s) ) o--6''S g a a x a Q a a + Fo 8 XS Bye X oO x a N a = oc re) N 2) fe 2) 3 ) Boba ee 6 * 5 5 > a a Eq [ea] aco st 2 Oo nN © st o Naseoes Goris +7 + ey | = > > > : a a AS eeear nae concen en COs eee : | Teall als lie alee eee Pere We hep) AD, i) paaenassestie Meal ag as ec El la | T T T T T T T | T Oo N ™~ co fe>) oO = N oO ron) rep) re) 0 ~N SANADO TOH 173 APPENDIX 1.—Continued. NUMBER 37 SdOdOuLSVS ALVOAYSDOV * ; : $ SLNAWSVEs LNV Id > SLNAWOVES OIHLIT SAINOIdS ADNOdS SACOOVYLSO ae! VuasININVeOs — SGOdA03 13d . : (SSLINOdVAJ) INSdAD ALIWAd ANIGHSA / ALINOONVTS SVOIWN e e STVYANIW AAVSH STVYANIW LHOM (% ANLV14S4) SYNLXSL SSSNGYVH YO109 AYNLONYLS vl NO@eVvO (eae AYOLVHOSV 1 Qala SAMPLES re ee rare SNe Stet = = = = al A rN] a al iu a ° 2 ep = = e © s Gee ee eee = ADSOIOHLN (SHALSW) Hida dlvd NO@YVvooldv" CORE NUMBER S73 Il Ov 91901039 we ANSDOLSISNd SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 174 APPENDIX 1.—Continued. SATOILYVd ALVNOSYVO SdOdOuLSVD ALVOAYDOV SLNAWOVYS LNV Id SLNAWSV¥s OIHLI SAINDIdS ADNOdS SACOOVELSO VYSsININVYOS SdOdA941Ad SLNAWSVYS TISHS (SSLINOdVA3) NSdAD ALldAd ANIGH3AA / ALINOONVT9 SVOIN STVYANIW AAVSH STVYANIW LHON (% ANLV14Y) SYN LXSL SSSNGYVH YO109 FYNLONELS vl NO@dVvo AYOLVHORV) dala SAMPLES ASOIOHLI] (SHALSW) HLdSa ALVd NOSeVOOIdv" ADV 9ID01049 CORE NUMBER S73 III SANAVDOLSIATId “71 175 NUMBER 37 APPENDIX 1.—Continued. CORE NUMBER _S74 SATOLYVd ALVNOGYVO SdOdOuLSVD ALVOAYDOV SLNAWSVes LNV Id SINAWSV8S OIHLI SAINDIdS FDNOdS SACOOVELSO VuSsININVYOs SdOdA934 14d SLNAWOVYS TISHS (SSLINOdVAJ) INSdAD ALIWAd SNIGYSA / ALINOONVTS SVOIW STVYANIW AAVSH STVYANIW LHOM (% AAILW144) AYNLXAL SSSNGYVH YO100 AYNLONYLS vl NO@YVO AYOLVHORV1 q1ald SAMPLES ASOTOHLNM (SHALSW) Hida J1Vd NOSYVOOIAVY ADV OID01049 e ED ——D—— oC —_—=_ e S==— Ep i) 2 EES e e « e e SE EED e 0. SUIT jo) ry ELEY 5Y3/2 5Y3/2 5Y3/2 5Y3/2 5Y3/2 10.5 5Y3/2 5Y3/2 5Y3/2 10YR3/2 10YR3/2 10YR3/2 SNADO TOH SINADOLSIAId 1 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 176 APPENDIX 1.—Continued. CORE NUMBER S751 SATOILYVd ALVNOEYVO SdOdOuLSVD ALVOAYOOV SLNAWOVYs LNV Id SLNAWSV¥s OIHLNT SWOLVIG SAdOOVELSO VYASINIAWYOs SGOdA041Ad SLNAWSVYS TISHS (SSLIUOdVA3) WNSdAD ALIWAd ANIGYSA / ALINOONVT9 SVOIN STVYANIW AAVSH STVYANIN LHOM (% AA LV14y) FYNLXSL SSANGHYVH YO109 SAYNLONGLS vl NO@kVO AYOLVEORV) dala SAMPLES ASOIOHLIT (SH3LAW) HLdSa J1Vd NOSYVOOIGVH ADV DIDO1OAD —_- — . ° © it LQ QO - fo} oS (S) N iN wu iN iN iN iN x x a iN oO oO oO oO oO oO oO oO oO ise) oO rs rs 5 a ra ras ra ra rs os ras eal Ea a AAdaS a Fa Ma of = > > = rae 7 % foie o d iC Cl : pee IC Dee | | Mm wt oS ome) oS) Re oo Be A + tO + © + SAINADO 1OH -oSINADOLSIA Id “1 177 NUMBER 37 APPENDIX 1.—Continued. CORE NUMBER _S79 II SATOLYVd SLVNO8YV9 SdOdOuLSVS ALVOSYDOV SLNAWSVES LNV Id SLNAWSVS OIHLI SAINDIdS SADNOdS SACOOVYLSO VuSsININVYOs SdOdA94 14d SLNAWSV¥s TISHS (SSLINOdVAJ) WNSdAD ALldAd ANIGYSA / ALINOONVTS SVOIWN STVYANIW AAVSH STVYANIW LHOM (% AN LV1Sy) FYNLXSAL SSANCYVH YO109 SAYNLONGLS vl NOEYVO AYOLVYORV1 q1ala SAMPLES ASOIOHLN (SHSLSW) Hidaa 4ALVd NO@YVOOIdVY ADV OIDO1049 | SANAVDOLSIA Id “71 eee et mel ca ae ” = = == Y3AHLO SATOILYVd SIVNOPHVO oom ED ee Wy == ——=— e ° «=i ee ES ee ee SINSAWSVYs LNW Id aa => e=Giessssar= SSeS SESH SLNAW9SVYSs OIHLI SdOdOY¥LSVD ° e SAGOOVYLSO a 5 Sm VussININWYOS = = GE SdOdA041Ad oo ° ° SINSWOVES TIHS 9 eee Eee ee ee (SSLINOdVAJ) EST bs ‘ ‘ es =D easy WASdAD ALIWAd SNIGHSA / ALINOONV19 STVYANIW AAVSH STVYANIW LHONM Zz) wy S) Zz = Ss) 72) w g < = rf E e n Zz g 5 = = Zz 5 S) Z = Z. 5 n aa = = n (% AA LV14y) SYNLXSL APPENDIX 1.—Continued. SSINGHVH ESE pel 5GY3/2|0.3 |: 5GY3/2| O HO109 S 3 g 9 5Y3/2 5Y3/2 5Y3/2 5Y3/2 5Y3/2 5Y3/2 5Y3/2 5Y3/2 SAYNLONYLS | | —_— ~~ —_ vl NOGYVO < AHOLVHOaVT | [— al®@Sal ea] > wlio oN & qials epee c= > | = = F ADOTOHLT | Latah SAMPLES (SHALAW) Hida oe aleae ALVd NO@eVOOIdvy CORE NUMBER S76 A9V 91ID01049 SANADO TOH ANADOLSIA Id “71 178 179 NUMBER 37 APPENDIX 1.—Continued. SdOdA03 14d SATOILYVd SLVNOGYVO ALVOAYDOV SLNAWSVES LNV Id SLNAWSVS OIHLI SAINIDIdS SADNOdS SACOOVYLSO OIHLNAd VussININVYOSs SdOdOULSVD SLNAWSVes4 TISHS (SSLIUOdVAJ) NSdAD ALIYAd ANIGYSA / ALINOONVIS SVOIN STVYANIW AAVSH STVYANIW LHOM (% AN LV1S¥) SFYNLXAL SSANCYVH YO109 AYNLONYLS vt NO8¥VO AYOLVHORV 1 dala SAMPLES ASONOHLI (SHSLAW) HLdaa dLVd NO@keVOOIdv CORE NUMBER S/7 | ADV DIDO 1049 —_=——“_a— 10YR4/2 5Y3/2 5Y3/2 5Y3/2 10YR4/2|2.5 E 10YR5/2 10YR4/2|2.0 [223 10YR4/2}2.5 7 : ee et ee ie il eM al (ela sraiClea (nel Saal suenid Congas HGR Ge CG ae 4! | iesral (prc ee ae ad [ese le ae | ae [ee oo ox) = (pep) Rr oO t+ - Tt oe) oO + © + oI SAINADO 1OnH : SAINADOLSIA Id 1 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 180 APPENDIX 1.—Continued. SdOdA041Ad SFTOILYVd SALVNOGYVO ALVOAYDOV SLNAWOVYs LNV Id SLNAWSV¥Ss OIHLN SAINDIdS JDNOdS SACOOVELSO Vu sININVYOS SdOdOuLSVD SLNAWSVYS TISHS (SSLIYOdVAJ) INNSdAD ALIWAd ANIGYSA / ALINOONV19 SVOIN STVYANIW AAVSH STVYANIW LHON (% ANLV14y) SYN LXSL SSANCYVH YO109 AYNLONYLS vl NO@’Vvo AYOLVHORV) @iala SAMPLES ASONOHLIT (SHSLAW) HLdaa ALVd NOskeVOOIdv" ADV OIDO1049 CORE NUMBER _S77 Il 10YR5/2 10YR7/4 10YR5/2 10YR5/2 10YR5/2 10YR5/2 10YR5/2 10YR5/2 10YR5/2 10YR5/2 10YR7/4 10YR5/2 10YR5/2 10YR5/2 SANADOLSIA Id “1 181 NUMBER 37 APPENDIX 1.—Continued. CORE NUMBER S77 Ill SdOdA04 14d SSTONLYVd ALVNOEYVO ALVOAYDOV SLNAWSVEs LNV Id SLNAWSVeSs OIHLN SAINDIdS ADNOdS SACOOVY"LSO VuSsiNINVYOs SdOdOuLSVD SLNAWSVYs TISHS (SALINOdVAA) WASdAD ALIWAd ANIGYSA / ALINOONVTS SVOIN STVYANIW AAVSH STVYANIW LHOM (% AALV13¥) SYNLXSL SSANCYVH YO109 AYNLONGLS vt NOSYVO AYOLVHORVT q1ala SAMPLES ASONOHLN (SHSLSW) Hidaa ALVd NOSYVOOIdVY ADV OID01049 ANADOLSIA Id “1 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 182 APPENDIX 1.—Continued. CORE NUMBER _S78 YAHLO SFTOILYVd SLVNO8YVO ALVOAYDOV SLNAWSVYS LNVId SLNAWSVdSs OIHLNM SdOdOuLSVD SACOOVELSO VUsSsININVYOS SGOdA041Ad SLNAWSVEs TISHS (SSLIMOdVAJ) WNSdAD ALIYAd ANIGYSA / ALINOONV19 SVOIN STVYANIW AAVSH STVYANIW LHON (% AN LV15y) SYNLX4AL SSANGYVH YO109 AYNLONYLS vt NO@kVO AYOLVHORVT quails SAMPLES ASONOHLN (SHSLAW) HLdad JLVG NOSYVOOICVY ADV 9ID01049 5YR3/2 |2.5 | oo co) ql io, eh oO + oH © SAINADO 1OH ANADOLSIA Id 1 183 NUMBER 37 APPENDIX 1.—Continued. CORE NUMBER S79 | SATOILYVd ALVNOGYVO SdOdOuLSVS ALVOAYDOV SLNAWSVEs LNV Id SLNAWSVES OIHLN] SAINOIdS JDNOdS SAGOOVYLSO VuSsININVYOs SdOdA934 14d SLNAWOVYs TISHS (SSLINOdVAJ) INSdAD ALIWAd ANIGYSA / ALINOONV1S SVOIN STVYANIW AAVSH STVYANIW LHONM (% AALW1S4) AYNLXAL SSSNGYVH YO100 AYNLONYLS vl NOS¥VO AYOLVHORVI q1als SAMPLES ASONOHLNT (SHSLAW) H1d3d ALVd NO@evVOOIdv ADV OIDO010349 10YR4/2 10YR8/2 10YR8/2 ANAVDOLSIAId “1 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES APPENDIX 1.—Continued. 184 SATOILYVd ALVNOGYVO SdOdOuLSVD ALVOAYOOV ae pre rea SLNAWSVEs LNVId — SLNAWOVYS OIHLT — SAINDIdS ADNOdS VHASININWHO-s = EEE ED 22 SES SdOdA034 1d eee eee SLNAWSVYs TISHS (SSLINOdVAJ) INSdAD ALIWAd SNIGHSA aes / ALINOONW19 SVOIN EE ES STVYANIW AAVAH STVYANIW LHONM (% ANLV144) FYNLXSL SSANGYVH YO109 5Y5/2 10YR8/2 5Y5/2 10YR8/2 5Y5/2 AYNLONYLS vl NOSYVO SS eee AYOLVYORVT = SAMPLES IW, 20 © n (ee) (o>) qals = = = = = ASO TIOHLIT (SHALAW) HLdSaa 29 30 35 36 37 38 39 40 ALVG NOSkVOOIdVY CORE NUMBER S79 Il ADV OIDO 1049 SANADOLSIATId “1 185 NUMBER 37 APPENDIX 1.—Continued. CORE NUMBER S79 III SATONLYVd SALVNO@YVO SGOdOYLSVD ALVOAYDOV SLNAWOVYS LNV Id SLNAWSV¥s OIHLIT SAINIDIdS ADNOdS SACOOVYLSO VY ININVYOSs SGOdA031Ad SLNAWOVes TISHS (SSLIUOdVAJ) INSdAD ALIWAd ANIGHSA / ALINOONV1D SVOIWN STVYANIW AAVSH STVYANIW LHOM (% AN LV14¥) SYNLXSL SSSNCYVH YO109 AYNLONYLS vl NO@eVO AYOLVYORVI q1ala SAMPLES ASONOHLI (SHSLAW) Hidaa J1Vd NOSYVOOIdVH ADV OID01049 10YR8/2 5Y6/1 10YR8/2 5Y6/1 ANADOLSIAId “1 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 186 APPENDIX 1.—Continued. SATOILYVd ALVNOEYVO SdOdOuLSVD ALVDAYDOV SLNAWSVEs LNVId SLNAWSVs OIHLI SAINIIdS JDNOdS SAGOOVELSO VYAsININVYOS SdOdA941Ad SLNAWSVYS TISHS (SSLINOdVA3) NSdAD ALIWAd ANIGYSA / ALINOONVT9 SVOIN STVYANIW AAVSH STVYANIW LHONM (% AALV1Sy) SYNLX3L SSSNGYVH YO109 AYNLONYLS vl NO8¥Vvo AYOLVYHORVT Qala SAMPLES ASOIOHLIT (SHSLAW) HLdSa JLVG NOSYVOOIdVY ADV 91ID01049 CORE NUMBER S80 | 4.514 5Y3/2 5Y8/1 sy32 | 1.5] 5Y5/2 5Y5/2 10YR4/2| 4,5]. > 10YR4/2 5Y8/1 10YR8/2 10YR7/4 ANAVDOLSIAId “71 187 NUMBER 37 APPENDIX 1.—Continued. CORE NUMBER _ S80 II SATONLYVd SLVNOGYVO SdOdOuLSVS ALVOAYDOV SLNAWSVes LNV Id SLNAWSV¥S IHL S3INDIdS FDNOdS SACOOVYLSO SIH LNA VYAsININVEOS SGOdA03 14d SLNAWOVYs TISHS (SSLINOdWAJ) WNSdAD ALIYAd ANIGHSA / ALINOONVTS SVOIN STVYANIW AAVSH STIVYANIW LHONM (% AAILV145y) SJYNLXSL SSSNQYVH YO1090 AYNLONYLS vt NO@eVO AYOLVYORVI d1ald SAMPLES ADSONOHLN (SHSLAW) Hidaa J1Vd NOSYVOOIGVH ADV OIDNO 1049 10YR4/2 10YR7/4 ANAVDOLSIA Id “71 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 188 APPENDIX 1.—Continued. SATOILYVd ALVNOGHVO SdOdOuLSVD ALVOAYDOV SLNAWSVES LNVId SLNAWSVYS OIHLI SAINIIdS JDNOdS SAdOOVYULSO VuSsININVYOS SdOdA941Ad SLNAWSVYS TISHS (SSLIYOdVAJ) NSdAD ALIWAd ANIGYSA / ALINOONVID SVOIN STVYANIW AAVSH STVYANIW LHONM (% ANLV14Y) JUN LXSL SSSNGYVH YO100 AYNLONYLS vl NO@YVO AYOLVHORVT Gilala SAMPLES ASOIOHLI (SH3LAW) HLdaad J1VG NOSYVOOIdVY ADV 9ID01049 CORE NUMBER S80 I!I 10YR8/2 10YR7/4 ANAVDOLSIATd “71 189 NUMBER 37 APPENDIX 1.—Continued. CORE NUMBER S81 | SATONLYVd SLVNOGYVO YAHLO ALVOAYDOV SLNAWSV¥s LNV Id SLNAWSV4S OIHLIM SAINOIdS JDNOdS SAGOOVELSO VussININVuOSs SGOdA03 14d SLNAWSVes TISHS (SSLIUOdVAJ) WNSdAD ALIYWAd ANIGYSA / ALINOONVTS SVOIN STVYANIW AAVSH STVYANIW LHONM (% AN LV144) SYNLXSAL SSSNGYVH YO109 SAYNLONYLS vt NOS¥VO AYOLVHORVT q1ala SAMPLES ASOTOHLN (SHSLSW) Hida J1Vd NOSYVOOIdVH ADV 91ID01049 NN yngO eee N sovraia] 469 [2 re 0 N vt $ ss Qperest x © z as S S 3 2 # 2 a fa & oO o fang o 5 > > 6 5 a ra Pe oe > ro) io 9 cy ) iS So im & WSN =e | eee aa een te ram eeiea lea a etal fap alg el wotell ellessllsal FS | oOo ™~ oomonc) loo) Wai GSE He) oO re or at + So ol (o>) foe) (o>) — +H AH AH ~1OH : ANADOLSIA Id “1 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 190 APPENDIX 1.—Continued. CORE NUMBER S81 II SATONLYVd SALVNOGYVO YAHLO ALVOAYDOV SLNAWSVYS LNVId SLNAWSV¥s OIHLN SAINDIdS ADNOdS SAdOOVELSO VuSsININVYOs SdOdA941Ad SLNAWSVYS TISHS (SALINOdWAA) WASdAD ALIWAd ANIGYSA / ALINOONV19 SVOIN STVYANIW AAVSH STVYANIW LHONM (% AALV14y) SYN LXSL SSANCYVH YO109 FYNLONYLS vl NO@kVoO AYOLVEHORVT q1als SAMPLES ASOTIOHLI (SHALAW) HLd3d dLVd NOSkVOOIdVY ADV 9ID01039 ANAVDOLSIAId “1 191 NUMBER 37 APPENDIX 1.—Continued. CORE NUMBER S82 | SATONLYVd SLVNOGYVO SdOdOuLSVS ALVOAYDOV SLNAWSVES LNV Id SLNAWSVeS OIHLI SAINIIdS SONOdS SAGOOVYELSO VYSsININVYHOS SdOdA94 1Ad SLNAWOVYS TISHS (SSLINOdVAA) INSdAD ALIWAd INIGHAA / ALINOONVTS SVOIWN STVYANIW AAVSH STVYANIW LHONM (% AN LVI) JYNLXSL SSANCHYVH YO109 AYNLONYLS vl NOGYVO AYOLVYHORV1 Q1Als SAMPLES ASOIOHLN (SHSLSAW) Hidaa JLVd NOSYVOOIdVY ADV OIDO1049 |: Te) au ro) = a ape a a a a + 7 ES = Sy Sas $ 5 Onis = = Sass oe ae oe é ° hen Laem nS S) ) S40 fo) 3 ro) = I _ SS Oe oo He oot caus ae pattSs ae eS ear at T T T a ea caea| If N fap) st LO co ™m~ co = N oO st a= = ee a oO 20 00 Hon How BA (o>) Or- © DWH MOH ©. SN3OO70H : SANADOLSIAId “71 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 192 APPENDIX 1.—Continued. CORE NUMBER S82 II SATOILYVd ALVNOGYVO SdOdOuLSVD ALVOAYDOV SLNAWOVYs LNVId SLNAWSV¥s OIHLIT SAINIDIdS ADNOdS SAGOOVELSO VusasININVdOs SGOdA041Ad SLNAWOVYS TISHS (SSLINOdVAJ) INNSdAD ALIWAd ANIGYSA / ALINOONVI9 SVOIN STVYANIW AAVSH STVYANIW LHON (% AAILV14y) SFYNLX3L SSANGYVH YO109 FYNLONYLS vt NO@k’Vvo AYOLVEHORVT q1ala SAMPLES ASONOHLN (SHSLAW) HLd3d J1vd NOSYVOOIdVY ADV DIDO 1049 ANADOLSIATId “71 193 NUMBER 37 APPENDIX 1.—Continued. SFTONLYVd ALVNOGYVO YAHLO ALVOAYDOV SLNAWSVEs LNVId SLNAWSV8s OIHLI SAINOdS ADNOdS SACOOVHLSO OIHLN3g Vass ININVeOSs JIOHM TISHS SLNAWSVes TISHS (SSLIUOdVAJ) INSdAD ALIWAd ANIGHSA / ALINOONVTS SVOIN STVYANIW AAVSH STVYANIW LHOM (% AN LVI) SYNLXSL SSSNGYVH YO100 AYNLONYLS vt NO@YVO AYOLVYHORVI q1ala SAMPLES ASONOHLIT (SHSLAW) Hida 31Vd NOSYVOOIdVY ADV OIDO1049 CORE NUMBER S83 | in eee 0.1 |: 10YR4/2 5Y4/1 5Y4/1 N5 5B7/1 5Y8/1 WON DD NANA ANADOLSIAId “1 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 194 APPENDIX 1.—Continued. CORE NUMBER _S8@ II SAFTONLYVd ALVNOGYVO YAHLO ALVOAYDOV SLNAWSVes LNVId SLNAWSV¥s OIHLN SAINDIdS JONOdS SAdOOVELSO OIHLNAg VYAsININVYOS FTIOHM TISHS SLNAWSVus TISHS (SALINOdVAJ) NSdAD ALIdAd ANIGYSA / ALINOONV1D SVOIN STVYANIW AAVSH STVYANIW LHON (% AAILV15y) SYNLXSL SSSNGYVH YO109 AYNLONYLS vl NO@kdVvo AYOLVEORV) q1als SAMPLES ASOIOHLNT (SHSLAW) HLdad J1Vd NOSHVOOIGVY JDV 9IDNO1049 ANAVDOLSIAId “71 195 NUMBER 37 APPENDIX 1.—Continued. CORE NUMBER S84 | SATOILYVd SLVNOGYVO Sd0dOuLsvd ALVOAYDOV SLNAWSVEs LNV Id SLNAWSVes OIHLI] SAINDIdS FONOdS SAGOOVELSO VuSsININVYOs SdOdA93 14d SLNAWSVYs TISHS (SSLINOdVAJ) INSdAD ALIWAd ANIGYSA / ALINOONVTS SVOIWN STIVYANIW AAVSH STVYANIW LHOM (% AN LVI) SYNLXSL SSSNQYVH YO100 AYNLONYLS vl NOSYVO AYOLVHORVI Qala SAMPLES ASONOHLN (SHSLAW) Hidaa J1Vd NOSYVOOIGVH ADV 9ID0 1049 SANADOLSIAId “1 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 196 APPENDIX 1.—Continued. CORE NUMBER _S84 II SATONLYVd ALVNOGHVO SdOdOuLSVS ALVOAYOOV SLNAWSVYS LNV Id SLNAWSV¥4s OIHLN SAINOIdS JONOdS SACOOVELSO VYASsININWYOS SdOdA041Ad SLNAWSVYS TISHS (SSLINOd VAI) INNSdAD ALIYAd ANIGYSA / ALINOONVT9 SVOIW STVYANIW AAVAH STVYANIW LHON (% AAILV15¥) SYNLXSL SSSNGYVH YO100 AYNLONYLS vt NO@keVO AYOLVHORVT dala SAMPLES W,,|16 “W,,|17 ASOTOHLIT (SHALAW) HLdSd dLVd NOseVOOIdvY ADV 9ID01049 5YR8/1 5Y8/1 ANADOLSIAId “1 197 NUMBER 37 APPENDIX 1.—Continued. CORE NUMBER _S85 YAHLO SATONLYVd SLVNOGYVO ALVYDAYSOV SLNAWSVus LNV Id SLNAWSVES OIHLIM SdOdA94 14d SdOdOuLSV9 VussININVeOS AJTOHM TISHS SLNAWOVYs TISHS (SSLINOdVAJ) INSdAD ALIYAd ANIGYSA / ALINOONVTS SVOIWN STVYANIW AAVSH STIVYANIW LHONM (% ANLV14S¥) SYNLXSL SSANQYVH YO100 AYNLONYLS vt NOSYVO AYOLVHOSVI q1ala SAMPLES ASONOHLN (SHALSW) Hid3aa ALVd NOGYVOOIdVY ADV 9ID0 1049 5YR8/1 10YR8/2 10YR8/2 10YR8/2 10YR8/2 10YR8/2 10YR8/2 10YR8/2 39730 ] SANAVDOLSIAId “71 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES APPENDIX 1.—Continued. 198 S3dIxXO one = :. ALVOAYDOV SLNAWOSVdS OIHLN — SAINOIdS ADNOdS a 2 SACOOVELSO OIHLNAg VussINIANVYOs SdOdA04 14d e SLNAWSVYS TISHS ) e (SSLINOdVAJ) ISHS: | =e NET Fe a ae RS ge ee ee ee ALldAd ANIGHSA e e == ==> === / ALINOONVT9 SVOIN SS Sg ID STVYANIW AAVAH STVYANIW LHOM (% ANLW14) | AUTTLT] es ull y sa {UTILITIES SUT | oy a Hw in SSANGUYVH 2 (@) - 5Y3/2 2 5Y3/2 5Y3/2 5Y3/2 |0.5 5Y3/2 10.8 5Y3/2 YO109 5YR2/2 5YR2/2 | 4 5Y3/2 5Y3/2 AYNLONYLS —— a Ee a Noa vl NO@YVO eee [ec eee ee | [ea] 1} N SAMPLES VIIli38 dala =a = oO vt _ _ tae AN ee ee AHOLVHOSVT - “I 7 8art say SSO Ss = = | ADOIOHLN ] | (sualaw)Hidgag «1B CL 4910.) Ties eines +100 +110 JLVG NOSYVOOIGVH D CORE NUMBER S86 | 30¥ 91901039 ANADOTOH :1siadd 4 199 NUMBER 37 APPENDIX 1.—Continued. CORE NUMBER _S86 II SATOILYVd SLVNOGYVO S3dIxO ALVOAYDOV SLNAWSVes LNV Id SLNAWSVs OIHLI SAINOIdS JDNOdS SACOOVYLSO OIHLNAG Vass ININVYOS SdOdA034 14d SLNAWSVes TISHS (SSLIYOdVAJ) WNSdAD ALIWAd ANIGHSA / ALINOONV19 SVOIW STVYANIW AAVSH STVYANIW LHONM (% AAILV14y) SYNLXSL SSANGHYVH YO109 AYNLONYLS vt NO@YVO AYOLVHOREV 1 dala SAMPLES ASONOHLNI (SH3LSW) Hidaa J1Vd NOSYVOOIGVH ADV OID01049 ANAVDOLSIAId “1 n ea) 3) Zz =| Ss) n w Z = : e n Zz S = =) oa) % - Zz fe) S) Zz < Zz fe) n oo = = n 200 APPENDIX 1.—Continued. SATOILYVd ALVNOSYVO CORE NUMBER S86 III S3dIxO ALVDAYDOV SLNAWSVYS LNV Id SLNAW9SVdSs OIHLIT SAINDdS JDNOdS SAdOOVYLSO OIHLNAg VussININVYOS SGOdA031Ad SLNAWSVYS TISHS (SSLINOdVAJ) NSdAD ALIWAd SNIGYSA / ALINOONVT9 SVOIN STVYANIW AAVSH STVYANIW LHONM (% AALV13y) SYNLX3L SSSNGYVH YO1090 AYNLONGLS vt NOGYVO AYOLVHORVI q1ala SAMPLES ASOTOHLIT (SHSLSW) HLdad Jiva NOsyvooldvY ADV DIDO 10OAD ISINADOLSIA Id =a 201 NUMBER 37 APPENDIX 1.—Continued. S3dIXO NW / 34 SATOILYVd SLVNO8YVO ALVOAYSOV SLNAWSVEs LNV Id SLNAWSVeSs OIHLIT SAINDIdS ADNOdS SACOOVYLSO OIHLN3d VuaSsININVeOs JTIOHM TISHS SLNAWSVes TISHS (SSLINOdVAA) NSdAD ALIWAd ANIGHSA / ALINOONVT9 SVOIW STVYSNIW AAVSH STVYANIW LHOM (% ANLV1A4Y) SYNLXSL SSSNCYVH YO109 SAYNLONYLS vt NO@YVO AYOLVHOSV 1 q1als SAMPLES ASOIOHLN (SHSLAW) Hid3a ALVd NO@YVOOIdVY ADV 9ID01049 CORE NUMBER S87 | CU.UITTIOTTTITESTOLLVT.TTTTTE UIT? ) © oO om - qa q q q q q q oOo rp) 7) ro) ro) ro) ro) = S S S S S S S oO (o) (=) (=) (o) (=) (fo) (fo) wo wo wo wo wo wo wo MES [co] = nal ed + 1 On oD ~lO cy 9 BY 8 BSB OBEN SB Bao SO eee oe eee ee | ON) a = > = = = Z| N ie) st re) o N —|=| = Ze > > > Si = = = = = = (Peerage elle dle lar tle kee eral ellos alle awed aslo clea eiese iol srs (eel, ley eter slip ta lene aaa leapt aE Siiteakeaigpel [Beeler ea Reel aire slieelb ees elie lnc liscalisee lena teem ler aleee alee Tews | fee eee pea a | eee l Dieter slrer ales ieee dle IP liea) esl lease lene) ae ead renee i ee i! ee blag eel bal rll erate lil bl dbl algal lapel ere eal bali i ey AN Tee Ts eee di se eee elf Me Te ee TTS eile Te Ts a eee oe TT too ee eG TT toes tp eae oie Ta Reese || lose [elses epee eae eos SS 2S eS Sa Sa SS = Se eS Ee Te 1 oO co NI fap) a lO wo ™~ co [o>} oO _ NI [op) st wo oO ™~ fee) (o>) = 7 fom) oO Al oO »w or ~~ H ™~ + SINADO 1OnH : ANADOLSIA Id “1 =| SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 202 APPENDIX 1.—Continued. S3dIXO NW / 3S SATOILYVd ALVNOSYVO CORE NUMBER _ S87 Il ALVOAYDOV SLNAWSVYS LNVId SLNAWSVYs OIHLI SAINDIdS JDNOdS SACOOVELSO OIHLNAg VUssININVYOS AFTOHM TISHS SLNAWSVYS TISHS (SSLINOdVAJ) NSdAD ALIYAd ANIGYSA / ALINOONV1D SVOIN STVYANIW AAVSH STVYANIW LHON (% AN LV14y) SYNLXSL SSSNGYVH YO100 FYNLONYLS vl NO@kVO AYOLVHORV) dala SAMPLES ASOTOHLIT (SHALAW) HLdSa dLVd NOsY¥VOOlavYy ADV DIDO1049 5Y6/4 10YR4/2 10YR4/2 10YR4/2 10YR4/2 ANADOLSIA Td “1 isa) =) N NUMBER 37 APPENDIX 1.—Continued. SAdIXO NW / 34 SATONLYVd SLVNO@YVO ALVOAYDOV SLNAWSVES LNVId Ps] SLNANOVYs OHO | Sa1NOIdS JONOdS SACOOVELSO OIHLN3d VussININVYOS JTOHM TISHS SLNAWSVYs TISHS (SALINOdWAJ) 2 WNSdAD ALldAd ANIGHSA / ALINOONVTS SVOIWN STVYANIW AAVSH STVYANIW LHOM (% AN LV14y) ) es AYN LXAL (2) oO = SSANQYVH YO100 AYNLONYLS vl NOEYVO AYOLVYORV1 q1ala SAMPLES ASOOHLN (SHSLSW) Hidaa ALVG NO@YVOOIdVY CORE NUMBER S87 Ill ADV OIDO1049 | | SINS QD @ ES lee al are ‘ Appendix 2: Core Sample Data Listings TEXTURAL ANALYSIS SAND Sand SILT Silt CLAY Clay TOTAL = 100% Legend 205 POINT COUNT ANALYSIS Abbreviation LT HVY MICA GLAU PYRT EVAP GYP LITH AGG PLTM FORB FORP GSHW GSHF PSHW PSHF SHLW SHLF OSTR SPNG ECHIN BRYO WRMT PTER DIAT INSCT RADIO OTH Fe OXIDE WHITE CARBT CARBON- 14 Composition Light mineral Heavy mineral Mica Glauconite/Verdine Pyrite Evaporite Gypsum Lithic fragment Aggregate Plant material Foraminifera, Benthic Foraminifera, Planktonic Gastropod shell, Whole Gastropod shell, Fragment Pelecypod shell, Whole Pelecypod shell, Fragment Shell, Whole Shell, Fragment Ostracode Sponge spicule Echinoderm Bryozoa Worm tube Pteropod Diatom Insect Radiolaria Other Iron Oxide White calcareous carbonite Carbonate TOTAL = 100% Radiocarbon date SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 206 APPENDIX 2.—Continued. 00 00 00 00 00 0'0 0'0 00 00 0-0 0-0 00 00 0-0 cO 0'0 00 00 00 00 00 00 00 0'0 0'0 00 00 00 0-0 duo 00 00 00 Ei 87 06 SC vl SO v0 cO GS 00 10 1 00 cO 0'0 00 cO0 00 cO 00 0-0 0-0 00 00 00 00 ree CON 00 10 00 GEG 681 v6 GG Gel SCP 0°C9 VT Vl 00 00 OE c0 es 61 vl 00 09 00 00 00 00 0'0 00 00 00 WI1d 00 00 10 9°9 80 LO 00 10 TO eS 00 vec 00 00 Ol 00 Cl SSI Ott 00 00 00 00 00 00 00 00 00 00 IOV a0) 00 00 00 00 00 VI v0 00 00 Te 00 EXC Vc 00 tsS 00 00 00 oP (GE OV Ore ve ve 8c 61 6€ 6 HIT 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 0-0 00 00 00 00 00 dVAd 00 00 00 L6 t 81 8 Cl SO v0 00 00 00 0'0 00 00 (ay 0'0 0'0 LO OC 00 00 00 00 00 00 00 00 00 0'0 LaAd cO 00 00 09 cOl SHEE 98 c9 SL VC 9TI C6 He 611 OCI 881 ve SLC Ice vol 9 o'r 6L c9 86 (Gie 9°6 Os 9°9 AWTS C0 9S c0 TO 00 cS 98 SO Vl 0'0 c8 00 (4 LEY, se v0 9°81 cO al 00 10 Te v8 v0 00 Ee 81 6C ve SO 9°S se OL? c0 OL GG 6€ cO SAG 6€ Cv OP VI 0'6 00 Vl 10 CEI 10 86 SO GL 00 VT 00 SL 00 SIE VOIN AAH Elan O9'€e 19°S] 80°99 91°09 8°79 890 98°89 CV'SE IcSs 99°8e OS'c9 LOSE GEG Tec 60°0C b6'CY CEC IS°cS ce vl It bP voc COC €O'8 LE 60 Les LV L80 AWTO Sel 6S 17 116 ere’ 10°6¢ y9'9€ GGe 8S Ie L109 88° cV e8'0e See 80°ST OF 8L eSLC 9¢°6S 16'SS eyo S8 Or cy It 6c 0S EG CL BL It COC SGG O9'L eS'0 ScO LTS eS18 I8'pl 8CSL 6r'0 £80 860 60'Lt 90°0 Ivy 160 1S'O¢ 610 ST OE C8'8E 910 SS'0C ST] Sc El 90 SC bP Svs Ot P6 vo S6 69°6S 06'°S6 18°96 €O'L8 Oe 86 88°86 CNVS aN N 087 CSC CVC 8'eC VEC OCC OIC t6l psi OL OLI COI eS trl El O¢l eG LOl Vil me) 86 8 OL c9 cS OV (he CE Ol Oona NO at | Of 06 ANNAANAAAAN Mm tM Of 00 O OoOmtnN pat pee AaNNM TM OM OD ON Hiddd IS HAOO 207 NUMBER 37 060 -/+ Obt'L O£1 -/+ 06S'L O8I -/+ OIF'9 APPENDIX 2.—Continued. OO! -/+ 09€'7 O9T -/+ O€T'E 060 -/+ 0£6°7 bI-NO@dVvO ALTHM 00 Cor 10 00 00 00 00 00 00 00 00 00 00 00 00 00 00 0'0 00 00 00 00 00 00 00 00 00 0'0 00 00 00 0 00 00 00 TO 00 00 00 00 00 00 00 00 00 00 00 80 00 00 00 v0 00 00 00 00 00 00 00 00 00 0 00 00 00 cO 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 HLO JLOSNI 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 0'0 00 00 00 00 00 00 00 00 TAM = =NHOW 00 00 00 €C Gc Iv VI 10 cO 00 00 c0 00 0'0 00 0'0 a0) 00 00 00 00 00 00 00 00 00 00 00 00 00 00 0'0 TO TO (Gu) 00 00 00 el 00 00 00 00 00 00 GA LO TO 00 00 00 00 00 00 00 0'0 00 00 ONdS 00 00 00 vl 8°0 Gal 00 10 10 LO c0 cl 00 10 SO 10 cO 00 00 00 cO 00 00 00 00 00 00 00 00 wULsO SOC Sle ev 16 LG c8 Sac 00 00 00 c0 60 00 cO 00 00 00 10 00 v0 10 00 sa) 10 10 SO Gal SO 60 ATHS TO me) 10 00 90 00 00 00 00 00 00 00 00 00 00 00 00 0'0 00 00 0'0 00 00 00 00 0'0 00 00 00 MTHS 6C O'8C 8c CST 1G CVC 9T Sec SC vec vc OCC ec OIC (a6 c6l I? vst Oc OLI 61 OLI 81 TOI LI eS 9] eH SI LE€l al Oe €l LCI Cl LOI Il vil Ol ime) 6 86 8 €8 L OL 9 c9 S cs v OV € GE c GG I Ol ON Hidad IS AOD SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES APPENDIX 2.—Continued. 208 0:0 00 00 00 00 00 00 00 cl 9TI v'L8 OO'€ IS'] 6b 'S6 tc Oo! 00 00 00 00 00 00 00 00 Oe L’6 cL8 98 LSC LS'C6 Ge 8°91 00 00 00 00 oI 00 00 00 c0 e Ol 818 O'S LESae te C6 1? SOI 0'0 00 0'0 10 00 00 00 00 c0 t 6 1°06 C60 90 cL 86 OC ano 00 00 00 00 00 00 00 00 S0 8°6 6 88 8's LOE OS '98 61 OSI 00 00 00 10 00 00 00 00 00 68 L'06 90°F I Rave t9°8L 8I SLI 00 6 el 00 00 00 00 SSI 6 1c 00 1'6¢ Or v9 LV'SE tl 0 Ll O'rI 00 (XG VC 00 00 00 00 C6C oI 8C SPV OV OL Br Ic GEC oI CHE 00 a0) L0 00 00 00 00 O'CE Vl OT S'6P Sas pr Le S0'0C SI CCl 00 vil Sal 10 00 00 00 CSI 8S Cae OL b0'6P 88°cV 80'L vl Teale 00 80 Ol 00 0:0 00 00 CLI LY iG 6 CL 87 OF SGLS EVES el c6 00 0 Ol 10 00 00 60 try 081 90 CVE 1L'09 Be Le 16'l cl 06 00 0-0 v6 10 00 00 c'0 0'0¢ G9 S°0 LI9 98°6£ cO'LS Cla I] 08 00 80 0:07 ve 00 00 c0 pol ole 9'0 Lve Lges 80°Cr Ser Ol Safe 00 10 99 10 00 00 0 9°6 9 (XE SPL SS 6C SL'8P OL'IC 6 t9 00 00 cl 10 c0 00 00 Co Ge 18 P08 8P 9c tS Lv 66 ST 8 (Gs 00 00 tO 10 00 00 00 GY Le CL C8 89°C O18e GEsLe L 8'P 00 00 80 00 00 00 00 C6 CE 1@ P'P8 pS el 8c (BEES) S) Cal 00 00 S°89 00 00 00 00 00 Ge 00 EG 9S'6l SO'CL 6L Le S Be 00 0-0 L°C6 00 0-0 00 00 00 I'l c0 es c60S SO'CC tOLC v lee 00 00 (na CC 00 00 00 00 Sal cl 9'6V LEME IS ee ce 0 t GE 0-0 0-0 eye 10 00 00 00 Ie 61 00 8°CC 61°78 er Sl 8c°0 c 8] 00 00 9'0 00 00 00 00 08 OCI IgG CLE 98°LS ys Iv Oc'0 I Gul duyot auwodt WL Id DOV HLIT dVAH LYAd AVID VOINW AAH LT AVTIO LIS aNVS ON Hidadd cS HAOOD 209 NUMBER 37 O87 -/+ 000'FI OLS EOE OOT -/+ 08S°9 APPENDIX 2.—Continued. 08 -/+ OIT'S 06 -/+ 008'¢ OL -/+ O€8'I PI-NO@UVO ALTHM 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 10 00 00 00 00 0:0 00 00 00 00 00 00 70 00 00 c0 00 SCC a0) 00 c0 00 HLO LOSNI LNUYM NHOY ONdS 00 00 0:0 00 0:0 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 0:0 00 00 00 00 00 00 0:0 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 (ae) m0) 00 10 TO 10 S'0 00 00 10 00 00 00 00 € 0 00 00 0:0 00 00 00 00 00 10 10 00 10 00 €0 a0) 80 10 10 c0 00 Be a0) 10 c0 00 0:0 00 00 00 00 00 0) c0 0) 0 10 0) 00 Ol c0 00 00 00 a 00 00 S°0 00 uLso 00 00 00 0-0 00 00 c0 10 L0 10 TO 00 8 VY 00 (a4 00 Ll 10 TO 00 10 10 00 00 c0 00 10 00 00 00 0'0 00 00 00 00 00 00 00 00 00 00 00 10 0:0 00 00 ATHS MATHS a NM THOM OD Be PSB EOS [=H NOMNMTTYM MN oO N ON HIdad cS HUAOD SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 3 00 00 B= 00 00 S 00 L10 | 00 00 a 00 Z0'81 5 00 SLOI i 00 ges 5 00 90°7 00 Zp 00 957 00 0€'0 00 Irs 00 z€'0 00 O10 00 wal) 00 67'0 00 00 00 00 00 Z0'S 00 870 duod aod 210 00 00 00 00 coe Oye 86 €7C CELL 90°0r Say 160 cO'6E LoS9 cO'ET Os'SI OS" LS'v e£0 CEST 8eSL WILTd 00 00 ents 00 00 ETCE 918 sol 60°9C LOL 0¢'0 Lv'0 6c 01 Ill SLT 670 Lce0 00 c6 | pre DOV Sel 101 ITT 00 00 00 00 00 00 00 00 00 00 e80 00 60 ST@ Sot 00 00 HILT 00 00 00 00 00 00 00 00 00 cS" 00 Sc0 00 cO'l 00 00 00 00 00 8c0 00 00 00 y9'l 00 00 00 00 00 00 00 00 00 00 00 00 00 LST 00 00 dVAH LuAd Ly9 £0'S 9S°S 00 00 00 9E°S 00 00 8791 8801 yO’ 00 66°C 00'ST 99°ST ST? 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BLL Oc ISL? 6l LIL? 81 CE 9C jay IS°Sc oI O8' PC SI Ov vl LST €l 09°C ra vOIT II 9S'0C Ol cc'6l 6 e881 8 ScSI L 166 9 8e8 iS 10'L v 8r's € 8C7C c w¢'l I WoC OE ON HIddd 0¢S TAOD 273 NUMBER 37 APPENDIX 2.—Continued. 00 00 00 00 OZI -/+ OLLOI 00 00 00 OZI -/+ 0F0'8 00 00 00 OZI -/+ 060'8 00 00 00 00 00 OIT -/+ 020'S 00 00 00 00 06 -/+ OLT'S 00 00 00 00 00 00 00 00 00 bI-NO@aVvO ALIHM 00 00 00 00 €0 00 00 00 00 00 00 00 00 00 00 00 €0 00 00 00 00 00 00 00 00 00 00 00 HLO 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 DOSNI LAY NHOd 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 61 LC? SL LP V81 OL 97 €0 tv 00 00 1 a 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ONdS 00 00 00 00 00 €0 00 00 LO 00 £0 LO 00 00 00 00 00 00 90 cO 00 00 00 00 00 00 00 00 uLso €0 c0 (Gi 90 OL Tl 81 eV ce ST SE 88 CC ve 60 Tie 60 80 he cl £0 90 8T 6t 90 c0 00 00 ATHS 00 00 00 00 80 £0 90 90 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 MA'THS co lv Iv Ov 88°8e e8Se VC Tere 9T TE ty 8c BL LC IS°L7 LVL? Ce 9C TS°Sc O87 Ole LS'€C 09°%7 pOIC 9S'0C cc'6l e881 ScSI 166 8e°8 IOL 8rs 87 wig¢'l wo¢ ‘Ot AANKRAAAHA nornorewon Se aNantNOoOrAanera ON Hiddid 0¢S AAOOD SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 274 APPENDIX 2.—Continued. 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 duo es 81 TT ysl LYt SIC 0'9r OL vel a | vo cl 00 £0 t0 £0 00 Tal 90 £0 60 00 00 00 00 00 00 00 00 90 00 00 quod 00 00 00 00 00 00 VT 00 CT 9ST 9'6l £0 Of OT OT ve 00 LS 0'0¢ 00 DE 90 06! t0 00 vl 0°66 9°88 90 el CLI 007 WI1d 0 £0 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 Ul 00 00 t0 00 00 00 I'v 91 OV CL SOV 00 00 00 00 00 00 00 00 00 00 80 90 00 0 00 00 00 00 00 a0) €0 £0 00 80 GC 00 00 00 00 tl El LC HIT 06! 60 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 L@ 80 00 00 00 90 00 00 0 00 00 00 00 00 00 LaYAd 80 00 00 00 00 00 00 00 Ul CC 69 OLI 0'6¢ O81 Orel Ovl OTT 081 OTT OrI OI 09 00 6t €8 6 00 00 c0 Os! t9 OV NWwTD 00 c0 00 OC 00 €C 00 vl cS? 80 vil Tl 89 60 00 00 0°67 ee Ose 60 OIC 90 L8 Ol CV 90 EE Ol 9T 91 he LO 96 60 081 cl 96 (a cl el ov CC 60 8T uke 60 O07 ve 61 LY 90 61 00 00 ve c0 Ve Lic ce 91 86 9% VY vy VOIN AAH 0'e9 O'9OL O16 0°08 OCI oss O'8e OC OeP 0°67 OSP O'9e O19 OL O18 O'6L OSL O'St Ors O18 O'eL 0°88 OL 0°68 O'¢8 0't6 O'l> CL 0°06 O'eL OS OCS IT 99°LL 8r'8L 60°CL TVCL 68°99 96 0L 96°99 vT69 STCL bor Le19 LOCb OES p9'8e 68°CS pLSs 6S' 19 LO LE 8S°CS 99°0C ct 6V LVtr Bere LSI 9S°6 pS'9l EVEL L8°SL 8S°0S ples 88°SP AVI) CIC el Ic LVL LYLE t6 Ce OL'87 8 CE 1¢'6c CLL tTSs ST 8E 00'0S 9S°Cr vo lv cOCE cLCY COVE bros sr rr 91°8c 98'PP 8S°LS 6E'8S OL IT CL CC C66 tO'LT LO'VC St Or LO EL 18'6r ITS cT0 6¢°0 vr'0 cT0 810 Se0 910 Sv'l €10 eS0 8e 0 Sal PIs trv 6l 68°Tl vie 0s'0 6S vo"? 81s e8'¢ STO COL 99°L9 ce'89 pS el 080 90°0 LO’ Oe? Icy CNVS ce v9c Ie GEC Or Tse 6C VVC 8 RAE lv LCC 9 Oe SC OIC x6 0'0c €C L6l (C6 vsi I¢ CLI OC 9°91 6l CSI 8I Cr LI 9'eT Ol CCl SI oral vl VII tl LOI cl v6 IT 16 Ol c8 6 OL 8 69 Ls cs 9 6v ¢ oP v Ot € VC Cc Gi I €0 ON HIddd TeS HAOO 21d NUMBER 37 APPENDIX 2.—Continued. 00 00 00 00 00 00 duo 00 00 00 00 OT vol quod 00 00 00 00 00 90 WI1d 00 00 00 00 00 00 SOV 00 00 00 00 00 00 HIT 00 00 00 00 00 00 LuAd 00 00 00 90 00 00 nvTD 0°86 O18 098 06 OL O'8P IT OS'SI SV'8L STOL 9 EE 00'V 60°LS AVWTO cc8 Or IC €S'6C coe 9L0I C96 LS ST9OL 60°0 ce0 Oc ES €CS8 67 aNVS 0°67 8°87 T8C 0'8¢ V Lt VLC ARAARHR ON HIdad TeS AAOO SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 276 APPENDIX 2.—Continued. 80 00 00 00 Obl -/+ OS8'L 00 00 00 00 00 00 00 00 00 00 00 00 VC 00 Obl-/+ 0S9'L 00 00 00 00 00 00 00 00 OI -/+ 06S'9 00 00 00 00 00 00 00 00 00 00 Ol -/+ OF8'S 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 06 -/+ 097'E 00 00 c0 00 00 00 00 00 6t 00 CV 00 vI-NO#AVO HLO OIGVa 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 vo 00 t0 00 00 00 00 00 00 00 00 00 00 00 00 vid 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 Wald OAN el LCI eC 81 90 Iv 90 00 00 00 00 00 t0 LO c0 t0 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 NHOW 00 00 00 00 00 00 90 00 ce ve vl 00 00 00 00 c0 61 61 Ol 90 00 60 t0 00 00 00 00 00 90 t0 00 00 ONdS 00 v6 00 cv 00 81 00 vl c0 0'6r 00 OT 00 09 00 00 00 91 00 90 t0 80 00 00 00 Ot 00 el 00 00 00 00 00 60 vO ita cO vl 00 t0 00 00 vo 00 cO 90 00 t0 00 00 00 00 00 00 00 00 00 00 tl 00 60 67C 00 LO ULsO - O'THS 00 00 00 00 00 00 00 00 00 00 tv 90 00 00 0°06 00 00 00 00 00 00 00 Ose 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 t0 00 00 00 00 HHSd MHSd SO 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 HHSD MHS9 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 voc (axe Tse VVC CET LCC DIT OIC 007 Lol Psi CLI 9°91 CSI al oe! 4 OCI VI LOI v6 16 c8 OL 69 cs 6v ov Oe vC cl c0 RANKRARRR ARRAS CO ESTE MARLO AGS OCR ON aANaMtTNHOrF ODES AA ON Hidud TeS AAOOD 20 NUMBER 37 APPENDIX 2.—Continued. OL9'ST< 08 -/+ 0889 vI-NO@avo 0) 00 00 00 00 00 00 00 00 00 00 00 00 8 0°67 C9 00 00 00 00 00 00 00 00 00 00 00 00 Le 8°87 OTT 00 00 00 00 00 00 00 00 00 00 00 00 OE C87 a0) 00 00 00 00 00 00 00 00 00 00 00 00 Se 0°87 Ol 00 00 00 00 00 Ol 00 00 OsI 00 00 OL we VLt 00 00 00 00 00 00 £0 90 00 09¢ 60 00 00 ce Lc HLO OIdVa IVIid Wald OAYM NHOA DNdS ALSO OTHS SJHSd MHSd SAHSDS MHSI ON Hiddd TeS AAOO SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 278 APPENDIX 2.—Continued. 00 00 00 00 00 €9 ST 00 CC 00 00 00 00 WI1Td 00 00 00 00 00 00 00 90 00 00 00 L6 O19 06! OVI 90 OLI 00 00 00 00 IOV 00 00 00 00 00 O'Oe c0 OT 081 61 00 00 00 00 00 90 00 00 90 vl OCI HIT 90 00 el 00 60 Vl cl SC 00 00 00 00 00 00 80 00 00 c0 je 00 00 dVAd 00 00 00 00 00 00 00 00 00 00 00 £0 OT 00 ee 00 60 00 00 00 00 LaAd 09 ve 00 OT CC 00 el 00 os €0 cs vo 09 cl a | 80 OCI O81 OL oxo} 00 Ol CY 6€ 00 oral 00 OLI Oc! 98 BY vl 61 OC! ce 61 8V 87 08 OT Bs 16 NVIS VOIN I¢ 8 0c Oc CLI 6! 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L'6 CL 60 Orel 00 Ost OCI 61 Otel vi c9 OCI OLT SRS 06 EG Vs C6 vl AVIS 80 £0 9°0 00 Ol 00 00 £0 60 es 9°0 Gil IC 9°0 81 00 Ll 30 £0 Cal 0-0r OCC 0'6¢ CE $6 081 Ose OS OC 1 VOIN 0°06 06 08 0°86 00 00 S0 0°C6 0'S8 OLL 0'C8 0'C8 O'6L 0'S6 O'9OL 0'V6 O'8L O08 OLI O18 OVC OLS OTS 0°99 0°09 OcL OST OCS O'6L 0°68 LT Ot CSc 6C VVe Ic BET 0c 8°CC 61 fc 81 AG LI TI? 91 L0c Sl TOC 8¢ L6l LT 881 9¢ SLI SC 091 VC Srl XG Tel va 9TI el Lil Cl SOl I OO! Ol 6 6 v8 8 SL L GL 9 9 S 8s 4 vv t ve c eC I a CC Ol ON Hidadd ecS AAOOD 281 NUMBER 37 APPENDIX 2.—Continued. OrL'l -/+ O8E FE OSI -/+ 09S'€ O61 -/+ 00S°S PI-NO@AvoO 00 00 00 00 9T 00 £0 00 OO! 00 00 00 00 00 £0 00 00 00 00 00 00 00 00 00 00 00 00 0'0 00 00 00 00 00 0'0 0'0 00 00 00 00 00 00 00 00 0'0 00 00 00 00 00 00 00 00 0'0 00 00 0'0 00 00 00 00 HLO OIdVU 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ct All 9°0 00 00 Ol 00 00 00 00 Lvid 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 wWaLd 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 OANA 00 00 00 00 00 0'0 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 NHOW 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 £0 £0 00 00 is LC £0 00 9°0 0 LO 00 00 00 ONdS 00 c0 00 (a 00 00 00 00 00 00 00 00 00 00 00 00 00 00 £0 9°0 60 60 (aa 9°0 el L0 60 el £0 (Ga 00 00 £0 00 00 00 00 00 £0 00 Te 00 00 00 00 00 tl 9°0 07? OV v8 00 £0 00 O'LT 90 00 00 00 80 uLso OTHS 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 0°08 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 HHSd = MHSd 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 £0 00 00 00 00 00 00 £0 00 00 0'0 0'0 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 0'0 00 00 00 00 00 00 THSS MHSSD Of SSC 67 VC lig BEC Oc 8°CC 61 (GGG 81 HAIG LI VIc 91 L0¢ SI €:0¢ 87 L6l Lt L8I 9 CLI SC 091 vC Srl €C Cel vl all el LI a SOI Il OO! Ol £6 6 v8 8 SL L GE 9 co ¢ ss v vv € ve G BC I cl CC Ol ON HIddd €eS TAOO SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 282 APPENDIX 2.—Continued. 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 duo 00 00 c0 00 00 00 00 00 00 00 00 00 00 00 00 00 00 £0 00 00 00 Ol 00 00 00 90 00 t0 00 00 00 00 00 quod 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 0 c0 00 ECC Ol 90 06S 00 00 00 00 00 00 00 00 WI1d 00 90 90 90 00 £0 00 00 60 cl 60 00 00 Ve 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 DOV 90 60 80 90 t0 60 cl el 60 cl 0 £0 LO £0 00 £0 £0 00 £0 el 60 90 00 00 00 60 00 cl 90 00 00 £0 00 HIT (4 TT 61 6 ve 61 ty el 81 cl 00 00 00 00 se 61 90 OAS, oT 00 00 00 00 00 00 00 00 00 00 £0 00 00 00 dVAd 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 cil 00 00 cl 00 00 00 00 00 00 00 00 LaAd VI 6€ 6€ he 8? ¢9 81 I'v 89 (x6 81 cl £0 90 61 LY 61 Vs SC CT 6€ TL 06! co 80 VS cs LY CV 00 00 0 90 NVWTD 80 00 90 90 90 60 00 60 90 00 00 00 £0 00 OT 00 £0 90 90 90 c0 OCS CC 81 Oe 67 81 el TT 00 00 00 00 VOIN 16 = = 06 _ —_— 18 — — 18 —_ — 88 _ — TB —_ =_— C8 =— — 8 —_— _ £8 — = 98 — - LlvtL etl 6 WEL Peel 6 = O88’ 6 ger Pec 88 _ _ O8 — _ £6 : : 2 : * 16 = 16 7 = 68 — _ L6 = 6%E_— BSD CL ULE EB'OF 8 StT9l — 9¥'Sz pl POTS LOOP C8 _— _ 88 — — 99 E : ® E Z 86 _— _ 16 — _ 6 2 E % OLT 6S IT AVTO Is IL'S6 dNVS 68t Le BSE eve SCE GLE L'6¢ C8T L:9¢ SST TSc SVC 9°€T 9°CT 617 9°07 Vol CLI O9ol 81 al Vel a OTT vol 86 v8 69 es se eT OT c0 TOLaAmsTHSVARANHor mag Rh RARaae —O7T7NM eee ON HIddd beS AOD 283 NUMBER 37 APPENDIX 2.—Continued. 00 00 00 00 00 00 00 00 60 00 90 00 Gl 00 £0 00 00 00 60 00 0@6-/+ 0SO'TZ 60 00 Ov8-/+ OSP'6I 90 00 00 00 c0 00 90 00 VI 00 90 00 00 00 00 00 061-/+ OIL'9 00 00 00 00 O8I-/+ OLE'8 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 vl NO@UVO HLO OIdVa 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 90 00 00 on 00 00 00 00 00 00 00 00 LVId 00 00 00 00 00 €0 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 Wald OANA 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 90 a0) 00 00 00 00 00 00 NHOW 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 9T c0 00 el 00 00 00 00 00 00 00 00 ONdS 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 90 00 00 00 00 a0) 00 00 00 00 00 00 wLsSO 90 c0 00 Ul el 60 00 00 00 00 00 00 00 00 67 00 OT Le 60 91 VC el 00 00 00 UT cl LI 80 00 €0 90 00 O'THS 00 00 00 00 VT 00 00 00 00 00 00 00 81 00 91 00 ve 00 61 00 00 00 00 00 00 00 00 00 00 00 0 OI 00 00 00 Le 00 00 00 90 00 cl 00 00 00 00 00 00 00 00 00 60 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 HHSd = AAHSd 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 90 00 00 00 c0 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 90 SHS MHSS ee 6 8e ce Le Te BSE Oe eve 6C BCE 8C GAS v6 L'6C 9C C8C SC L9C VC CSC 6 Tse 8 CVC L 9'ET 9 9°CT &C 617 (C6 9°0¢ Ic Vol OC CLI 6l 09T 8I 84 LI 6! ¢ Vel v a € OTT G vol Ol 86 SI V8 vl 69 €l es cl se I eC Ol Ol I c0 ON HiIddd veS TAOOD SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 284 APPENDIX 2.—Continued. 00 0:0 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 £0 00 00 00 00 00 00 00 duo 00 10 00 00 00 00 00 £0 00 00 00 OV Ol TOS Vl 9'0 tO 00 00 Ol £0 tO 00 S'0 (ay) 00 £0 00 00 00 00 quo 0'0 00 0'0 0'0 0'0 0'0 00 00 0'0 00 00 O's 0'6 O'LT SLI OST L0 0'0 00 c6l 00 00 00 81 9°0 00 00 00 0'0 00 0'0 WITd 0'0 00 0'0 0'0 00 0'0 0'0 00 0'0 00 0'0 0'0 00 00 £0 00 00 00 00 0'0 00 0-0 0-0 00 00 0'0 0'0 00 00 00 00 IOV 00 c0 10 0 0'0 £0 £0 cl 60 00 90 00 0'0 £0 00 9'0 OC L0 6t Ol lee cl 81 tl OT Cl 60 9¢ Sl cl 90 HIT £0 60 80 00 0'0 9°0 LO GI 9°0 00 TO 00 00 0'0 00 00 00 O's 00 00 (Gal 00 €0 00 OC VC VC 00 0'0 00 00 dVAd 00 00 00 00 00 00 00 00 00 00 00 OC OO! 00 00 90 00 00 00 00 00 00 00 00 00 00 00 00 00 0'0 0'0 DaAd tv 61 cl O's 80 VC 81 sa 81 SC vc 00 00 00 OSI 8°6 €'8 IGG OI O1T 9’ st cs €? 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NUMBER 37 00 00 00 00 c0 00 00 90 00 61 96 r= zs = Iv O'SP 00 00 00 00 el 00 00 el 00 OT 6 = = = Ov ver 00 00 00 00 00 00 00 £0 00 91 L6 = = = 6€ on a4 00 00 00 00 0 00 00 el 00 61 6 a = = 8t vOov 00 00 00 00 00 00 00 81 0c se 16 eS = si Le £6€ 00 00 00 00 00 00 00 0 £0 90 6 = = = OC e8e 00 00 Of O18 00 00 00 00 00 c0 os 0¢'8 LS've eVLs €l VLE 00 00 OV O'¢8 00 00 00 00 00 OT Ol trl Ese €TOS ra GLE 00 00 00 00 00 00 00 00 00 se 96 LLLS COSC OC 9! I C9E 00 00 00 00 00 00 00 00 00 eC 86 Tvs SC IC pee Ol CSE 00 00 00 00 00 00 00 00 00 eC 6 €9'€9 OL'0c LOSI 6 Ove diOi daoi WIld SOV HIIT dVAH JLaAd NVID VOIN AAH nist AVTO LTS dNVS ON HIddd 9¢S HAOOD SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES APPENDIX 2.—Continued. 288 00 00 00 00 00 00 00 90 60 00 00 00 00 oe Ove 00 00 00 00 00 00 00 00 VI 0) 00 00 00 ve Se 00 00 00 00 00 00 00 00 60 00 00 00 00 tt GANS 00 00 00 00 00 00 00 00 60 00 00 00 00 ce L6C t0 00 00 00 00 00 00 00 eC 00 00 00 00 It C87 00 00 00 00 00 00 00 00 t0 00 00 00 00 Ot L9¢ 00 00 00 00 00 00 00 00 00 00 00 00 00 8 8ST OL9 -/+ OZL'LZ 009 00 00 00 00 00 00 c0 00 00 00 00 00 L CST 00 00 00 00 00 00 00 00 vl 00 00 00 00 6C LYC 00 00 00 00 00 00 00 00 cl c0 00 00 00 8C DEE 00 00 00 00 00 00 00 00 00 OO! 00 00 00 Kv ICC 00 00 00 00 00 00 00 00 I 00 00 00 00 9c 9°0c 00 00 00 00 00 00 00 00 60 00 00 00 00 SC Vol 00 00 00 00 00 00 00 00 c0 00 00 00 00 VC CLI 00 00 00 00 00 00 00 00 Ol 00 00 00 00 €C O9I 00 00 00 00 00 00 00 00 VI] 00 00 00 00 (ee 84 00 00 00 00 00 00 00 00 00 00 00 00 00 9 trl OZI -/+ 080°L 00 00 a0) 00 00 00 Ol S0 00 00 00 00 00 S OF 00 00 00 00 00 00 £0 00 c0 00 00 00 00 4 eel 00 00 00 00 00 00 €0 00 00 00 00 00 00 € € I 00 00 00 00 00 00 tO 00 S0 0) 00 00 00 IC vii 00 00 00 00 00 00 00 00 c0 90 00 00 00 OC 66 00 00 00 00 00 00 00 00 el 00 00 00 00 6l v8 00 00 00 00 00 00 00 00 cl 90 00 00 00 8I 69 00 00 00 00 00 00 00 £0 LO 00 00 00 00 LI es 00 00 00 00 00 00 00 00 00 00 00 00 00 9] ita 00 00 00 00 00 00 00 00 00 00 00 00 00 SI 9T 00 00 00 00 00 00 00 00 00 00 00 00 00 Cc 81 00 00 00 00 00 00 00 00 El 00 00 00 00 vl 6a 00 00 00 00 00 00 00 00 t0 00 00 00 00 I c0 00 00 00 00 00 00 00 c0 90 00 00 00 00 jams 00 bI-NO#UdvoO HLO OIdVa LVvid Wald OAH NHOW SNdS ULSO OTHS JTHSd MHSd AHSS MHSD ON HIddd 9¢€S AAOO 289 NUMBER 37 APPENDIX 2.—Continued. 00 00 00 00 00 00 00 00 00 00 0 00 00 00 Ol 00 00 00 00 00 OL -/+ OLS'ST7 90 00 tI-NO@dVvO HLO OIdVU 00 00 00 00 00 00 00 00 00 00 00 LVId 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 Uald OA 00 00 00 00 00 00 00 00 00 00 00 NHO" 00 00 00 00 00 00 00 00 00 00 00 ONdS 00 el 00 el 00 el €0 61 00 (| 00 OT 00 0) OT 00 00 00 00 00 00 00 uLsoO O'THS 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 HTHSd = MHSd 00 00 00 00 00 00 00 00 00 00 00 4HSS MHSSD 00 00 00 00 00 00 00 00 00 00 00 Iv OSP OV ver 6€ 6 lr 8 vor Le € 6€ OC € 8e tl VLE ra | GLE I COE Ol Se 6 OVE ON HJddd 9€S AAOOD SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES £0 0'0 00 £0 00 00 00 00 00 00 00 cl 00 0'0 00 Oe 00 00 0-0 00 APPENDIX 2.—Continued. quod 290 00 00 00 00 00 £0 OCC €0 OST 19 vl eye 86 00 I] 09] OL 60 0'0 0'0 WITd 00 £0 00 00 00 00 00 00 0'0 00 0'0 tO £0 00 0'0 L0 0'0 9°0 EA 00 IOV £0 60 00 0'0 vil £0 0'0 £0 0'0 00 EN 00 VI £0 A 00 0'0 0'0 Oig 0'0 HIT 00 00 £0 00 00 00 00 00 00 0'0 00 00 0'0 00 00 00 00 00 0'0 0°C6 dVAd 00 00 00 00 00 00 00 00 00 00 00 0 00 00 00 al 0'9OV 00 00 00 DaYAd St VC ve 00 Oe! 00 Ol £0 se Ip O'T 60 06 Otel E6 Ll 00 61 EL 60 NVvTD 00 60 60 0'0 00 00 c9 61 0°67 ES vv 9°8 O'el Ve (Ge 0-9r LY Orel aC 9°0 VOIN 0'S6 0'v6 0't6 0'66 O'C8 0'66 OVO 0'S6 OLE 0°89 OLL 0'6L 0'V9 0'C8 0'C8 0'CC O9¢ O18 08 8s LT 0c S'0¢ 61 Oo! 81 eLl LI O9ol 91 al SI Cel vl O'el tl STI cl CCl Tl LOI Ol 66 6 16 8 OL L OL 9 19 S ov v se € 6TC c oa I v0 ON Hiddd LES HAOO 291 NUMBER 37 APPENDIX 2.—Continued. 00 00 00 00 00 00 00 OLI -/+ OL8'°9 00 00 00 00 00 00 00 00 08 -/+ 097'E 00 00 00 00 00 PI-NO@dvO NAO 00 00 00 00 00 00 00 00 61 00 00 00 80 00 00 Ot 00 00 00 00 ONdS 00 00 £0 €0 0 €0 £0 €0 00 00 00 00 00 81 00 00 61 L0 Otel 0'0 00 00 81 00 00 00 00 00 00 00 [EC 00 67 00 00 00 00 00 00 00 uLsO O'THS 00 00 00 0'0 00 00 00 00 00 00 00 00 00 00 00 00 00 0'0 00 0'0 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 HHSd MHSd 00 00 00 00 00 00 0'0 00 0'0 00 00 00 00 00 00 00 00 00 0'0 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 HHS MHS9D 00 0'0 0'0 00 00 00 00 00 00 00 00 00 00 00 0'0 0'0 00 0'0 00 00 dauod S 0c 06! Ol O9T orl cel Otel Tl GG LO 66 16 OL OL 19 oP se 67 sal vO j=) N TUCO SPUD Ot (OO GN SRGN SOS Mat! Oe O05 ON ON HIdad LeS TAOO SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 292 APPENDIX 2.—Continued. 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 0-0 00 00 00 00 00 00 00 00 duod 00 00 0:97 00 00 80 a0) (a0) a0) Gi] 00 €0 00 00 00 JUNOD UlBIH JOJ puvS JUdIDIYJNSUT 00 Sell 00 00 00 O'8L 00 00 0'0¢ 00 00 097¢ 0'0 00 OL 00 00 00 00 00 OIC 00 00 00 00 00 t 0 00 00 GI 00 00 OOP 00 Ctl 60 00 aE 08 00 00 Cl 00 00 60 00 CLE 00 00 O1T 00 00 00 £0 00 00 Ol 00 00 LO 00 88 TC 00 00 tl 00 8°0 Olr 00 60 S°6 00 00 Vl quot WITd DOV 9°0 CC CC L@ 00 00 0'0 £0 eel £0 00 c0 a0) SiG CC 00 a0) 00 OV Lil 00 00 al 0 Ol £0 L0 t0 60 61 HIT 00 00 00 00 0-0 00 Tot 00 00 LO 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 cO 00 00 00 dVA 00 £0 00 00 00 00 00 00 00 00 00 00 00 00 00 00 OC 00 Gl 00 9°0 00 00 00 L0 00 v0 0'0 00 00 LaYAd Vs ov 69 16 00 00 00 zs 89 EXC 00 cO0 Ve Ea 19 00 LY CC c6 OVI 00 fa)! 19 19 OO! e9 9'6 O€ Or€ 19 AWTS OOS O'LT OTT VC 6 67 EC C8C CC L9G I? 1S? OC VVC 61 O'€7 cy 617 81 SIT Iv L0C LI vOc 9] Sol Ov rol Sl 9°81 al GLI el O9l Cl Srl I] Lel Ol 8Tl 6t 6Tl 6 OTT 8 v6 L OL 8e eye 9 st S 6S v O'S € oP Cc O€ I GC Le le¢ 9¢ j.ans ON HiIddd 8¢S HAOOD 293 NUMBER 37 APPENDIX 2.—Continued. 00 00 00 00 00 00 00 00 00 00 00 00 duiod 00 00 (a0) 00 9°0 cO 00 0 00 00 00 00 quod 00 00 cO 00 00 cO 00 00 00 00 €0 00 WIL1d 60 9°0 tl 81 9°0 a0) LO c0 00 (a £6 Ove IOV 0 80 Ll 60 8 GE OC Le 61 Ul £0 00 HILT 00 00 00 00 00 00 00 00 00 cO 0'0 00 dVAd 00 c0 00 00 00 00 00 00 00 00 00 00 LaAd 6 cc cv SL SL €9 VL 8°38 vy OVI 6€ 09 AWTS 90 0 v0 LT vl Cl TO cO t0 88 OSI OC VOIN = Se OST = ve ver = te 6 IL = ce Por = Ie 6 8E = Oe ele = 6C 8Se a 8¢ ere Ee Lt 8ce €9°9P 9T O'CE 9¢ 01 ty OTE OTL Sc 80e SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 294 APPENDIX 2.—Continued. 00 00 00 00 cO 00 00 00 00 0'0 00 00 00 00 6L 00 00 00 80 0'0 6S 00 00 00 009 -/+ 060'1Z 00 00 00 00 00 00 007 -/+ O8E'€ 00 00 O€T -/+ OITL 00 00 06 -/+ OPTL 00 00 00 00 00 00 00 00 00 00 Lal 00 00 00 00 00 00 00 00 00 00 0'0 00 00 00 00 00 00 PI-NOPAVO HLO OIdVu 00 00 00 00 00 0'0 00 00 0'0 00 00 00 00 00 00 00 cO 00 00 00 00 00 00 00 00 00 00 00 00 00 00 LVId 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 0°0 00 00 00 00 00 0:0 00 00 00 00 00 00 0'0 00 00 Wald 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 OATH 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 NHOW 00 00 cO 00 00 00 00 00 00 00 00 00 00 00 00 00 67C c0 ve 00 €0 Oe 00 00 00 00 00 00 £0 00 00 ONdS 00 00 £0 0 Ll OC £0 00 00 00 00 00 00 00 00 00 00 00 00 00 0'0 00 00 00 00 00 (ay 00 00 9°0 £0 00 00 VC 00 c0 c0 00 00 £0 £0 £0 00 00 00 00 00 00 00 00 0'0 00 €0 OFT 00 00 €0 30 9°0 cI 0'0 00 ULsO O'IHS 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 0-0 00 00 00 MHSd 00 00 cO 00 00 00 00 00 00 00 00 00 00 0'0 00 00 00 0'0 00 00 00 00 00 00 00 00 00 00 00 00 00 MHSd 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 0-0 00 0-0 JHSS MHSD 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ve 6°67 tc C8C CC EQS Ic TSC 0c Vv 61 Oe? (44 617 81 SIC Ip LOC LI vOc 91 c6l OV rol Sl 9°81 al CEL €] 091 cl Cr I] ESS | Ol 8 Cl 6€ 6Tl 6 OTT 8 v6 E OL 8e 16 9 se S 6s 4 9S S oP c Oe I SC LE Ike 9¢ ms ON HIddd 8¢S AAOO 295 NUMBER 37 APPENDIX 2.—Continued. 00 00 00 00 00 00 0'0 00 00 00 00 00 00 00 00 00 00 00 00 00 097 67< 6€ 00 00 00 PI-NO@AVO HLO OIdVa 00 00 00 00 00 00 00 00 00 00 00 00 IV1d 00 00 00 00 00 00 00 00 00 00 00 00 Wald 00 00 00 00 00 00 00 00 00 00 00 00 OANA 00 00 00 00 00 00 00 00 00 00 00 00 NHOW 00 00 00 00 00 0'0 00 00 00 00 00 00 ONdS 9°0 0 0 9°0 v0 cO 9°0 Gil £0 Vl a0) cO cO S0 00 cO £0 0 00 cO 00 00 00 00 uLsoO OTHS 00 00 00 00 00 cO 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 HHSd MHSd 00 00 00 00 00 00 00 00 00 00 00 00 HHS MHS9S 00 00 00 00 00 00 00 00 00 00 00 00 Se O'SP re rer €€ 6IP a3 POP I€ 68€ os ELE 67 BSE 87 ere LZ See 97 ove er OlE S7 8'0€ ON HIdad 8¢S HAOOD SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 296 APPENDIX 2.—Continued. 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 duo 00 00 00 00 00 00 00 00 00 00 00 00 00 00 d 00 quod 00 60 00 00 00 00 00 O's 00 00 00 00 00 80 00 90 £0 90 00 c0 00 cl 00 VI 00 90 00 al d 00 9°91 d WI1d SOV c0 HLT 00 00 00 00 00 00 0 00 00 00 00 00 00 00 O'8e d dVAd 00 00 00 00 00 00 00 00 00 00 00 0 00 00 00 LYAd es d AVTD c0 Vs c0 v9 00 LC LO LI 00 OT 0 67 cl es Oe ee LS Vs el vv vv (a | Le Lie Ee oe 9S cl d d 80 00 d VOIN AAH + aon! CLI O9l CSI trl Or! O'el VI 66 v8 69 es OV ce Of TC Cl 80 m= NO = —COnantrnoreanes Va) — ON HIdad 6¢S HAOOD 297 NUMBER 37 APPENDIX 2.—Continued. O9b'T -/+ OOL'TZ 067 -/+ O@ETI 067 -/+ OFS'r OOI -/+ Or8'e bI-NO@PAVO 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 HLO OIdVa 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 Ivid 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 Wald OA 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 NHOW 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ONdS 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 S0 00 d 00 ULsO 8 OTHS 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 HHSd MHSd 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 HHSDS MHS9 CLI 09l CSI rl Ovi Oe! VI 66 V8 69 es OV ce Oe 1 cl 80 aN TS SS —=SrnmtnNnoraanles Va) _ ON Hiddd 6¢S HAOO SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 APPENDIX 2.—Continued. duo 298 00 00 00 00 00 00 00 00 00 00 00 00 90 00 00 00 00 00 00 quod 00 00 c0 00 00 00 00 00 £0 L9 ECE 00 00 00 00 00 00 t0 00 WITd 00 00 00 90 00 00 00 Cl 90 vv 00 VI 00 00 £0 £0 00 O'Oe 00 SOV cO 00 90 Til 60 LO cl 90 al Tv c0 Iv ve CC 87 87 60 0 00 HLT 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 dVAd 00 00 00 €0 00 cO 00 00 00 c0 LI €0 00 00 tO c0 00 00 00 LaYAd 00 90 0 Lal cl Cl OT Gl ve O'CC (as ov 97 el 87 61 CT £0 00 AVIS 00 LI 00 80 90 cO OT €0 90 OTT Orel lf 00 £0 00 c0 00 £0 00 VOIN 9°66 06 0'L6 0'V6 06 0'L6 0'S6 O06 0°06 0'8P Otr 0O'L8 O16 0°C6 0°C6 0°06 0'S6 Ors 0'S6 IT 69°C SLS9 868 LOVC €e'89 8c6 80°LL 1660 dGNVS 81 6 LT LI LLé OI 9ST SI CVC vl 6°CT €l TIc ral L6l Il V8] Ol 89 6 ssl 6l 84 Orel vil 66 V8 69 os ita O€ =AaNMN TM OC CO ON HIddd OPS HAOOD 299 NUMBER 37 APPENDIX 2.—Continued. 0S6 -/+ OSE'61 Ol -/+ 0S0'9 OSI -/+ OFS'€ OI -/+ OSP'L OI -/+ Ore PI-NO@AVO 00 00 00 00 00 00 00 00 00 00 00 00 00 81 6 LT OV 00 00 00 00 00 00 00 £0 00 00 00 00 LI LLt 00 00 00 00 00 00 00 00 £0 00 £0 00 00 91 9ST 00 00 00 00 00 00 00 00 £0 €0 00 00 00 cI CVC 00 00 00 00 00 00 00 00 00 00 00 00 00 vl 6°CC 00 00 00 00 00 00 00 00 c0 00 00 00 00 el VIé 00 00 00 00 00 00 00 00 cO 00 00 00 00 cl L6l 00 00 00 00 00 00 00 00 00 £0 00 00 00 1a 181 00 00 00 00 00 00 00 00 9°0 £0 00 00 00 Ol 89 00 00 00 00 00 00 9°0 c0 £0 00 00 00 00 6 8ST 00 00 LI 00 00 00 80 00 00 00 00 00 00 6l 84 00 00 00 00 00 00 00 00 00 00 00 00 00 8 Oe! 00 00 00 00 00 00 00 00 9°0 00 00 00 00 [E Vil 00 00 00 00 00 00 00 00 £0 00 00 00 00 9 66 00 00 00 00 £0 £0 00 00 €0 00 00 00 00 ¢ v8 9°0 00 00 00 00 00 00 00 9°0 00 00 00 00 v 69 00 00 00 00 00 00 00 00 00 9°0 00 00 00 € os 00 00 00 00 00 00 00 0) BC 00 00 00 00 Cc se LO 00 00 00 00 00 00 00 8? 00 00 00 00 I Of HLO OIdVa Ivid Wald OAYH NHOU ONdS ALSO O'THS SJHSd MHSd 4AHSD MHSD ON Hiddd OFS HAOOD SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 00 00 00 61 £0 00 00 el gs €0 0:99 vor 00'S 9L'I 4 v9c 00 00 00 9S 90 0 00 os 6€ 6€ 0°69 Or'er SOLYV $9°8 VC 9ST 00 00 00 0°87 0 00 0 Iv 6¢ cl OLE or br Lo9OV 8c6 €C Osc JUNOD UTLIH) JOF pues JSTITNSUy 8e'€9 SOTE LO'V (C6 ve JUNOT UlBIDH JOF pues JUSTOTNSUT 99°89 66°87 SET 8P CVC 00 0 00 90 60 t0 €0 OL cl EG 0'S8 10’ css LV 16 IC SEC 00 0 00 £0 0¢ 00 00 c8 £0 6¢ 08 col 90° 1¢'S6 Oc Vt 00 90 00 00 (a6 00 00 Ve 80 8P 0°88 L90 vl 68°L6 6l L0c 00 a0) 06 00 00 00 00 Of 88 O07 OSL 10°C? 18°81 816 8I T0c 00 00 es cl ce 00 £0 19 LY Tl O9L 61'Se e8Sp 66°81 Ly V6l 00 00 60 Cl 87 00 00 {ets Ve ve 08 09 eV lore 6V' IC ov CHI a 00 00 00 60 87 00 90 99 cl 6€ 0'C8 06'T 90'7 vO'V6 a 6€l a 00 00 00 00 Le 00 00 00! 0c 8Y OLL v09 19°0 SE £6 I Orel < 00) 00 00 90 BE 91 00 OTT £0 cl 0°08 S80 6ST 9S°L6 Ol vit 00 00 00 cl 81 0 t0 99 €0 60 OL8 08°0 ell 90°86 6 66 00 £0 00 0 LO c0 00 oP 0c 97 0°68 L8 Cl 8E Te SLs 8 16 00 00 89S 00 00 00 0 cl O'CC CC OOo! 99°LS tLe Isr 4 L8 00 £0 00 90 61 00 00 99 60 Iv O'r8 09°0 Os'0 06°86 L c8 00 00 00 t0 81 c0 00 06! Of 90 OvL L8°6 pes 6L IL 9 6L JUNO,) UlBID) JOF puws JUSTOLJNSUT 96° C8 CC CO br SL 00 €0 00 0 0 EN 00 AG 80 UT O16 8r'0 irae) 166 ¢ 69 00 00 00 00 60 cl 00 OV 90 ve 0°68 c8'T LLO Iv L6 v ES 00 00 00 0 00 90 00 L@ £0 cl O06 6L7 LETC S8'r6 c se 00 00 00 c0 cl 00 00 60 00 ime 0'S6 STO Lv'0 8£°66 G €? 00 00 00 c0 60 00 00 60 00 L9 O16 6€ 0 69°0 C686 I 80 00 00 00 00 0) 00 00 VT 00 OI O'S8 Le0 OCT €e86 Y pins duo quod WIO'ld DOV HLIT dVAH JLuwAd ANVID VOIN AAH IT AV) ITIS dNVS ON HiIddd IvS AAOO 300 301 APPENDIX 2.—Continued. NUMBER 37 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 duo 00 00 00 00 00 00 00 00 00 £0 c0 00 00 c0 00 €0 00 00 quod 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 WI1d 60 90 60 c0 c0 00 £0 c0 00 £0 60 00 fe el 00 LY 00 0O'Or DOV Cl 90 cl 80 61 90 67 c0 t0 90 17? 60 vl 67 60 80 00 00 HLIT cl 90 60 TT 00 cl 00 c0 90 90 60 60 00 97 £0 el €0 £0 dVAd 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 LYAd Of 67 LT@ ce AG LI 61 61 UT Ul CY €C 69 CV 00 L8 00 co NvlID 60 90 00 c0 £0 00 60 TT 00 90 60 00 60 VT 00 17 00 TC VOIN 8L'I OI? £eC cr ell 90'T t8 TC L8°0 9e'T Bel v0 SIT e&C 99°¢ £80 cS0 LO EY AVT)D Ke vie tec 801 EW 68°0 09°¢ 9C'T SLI ty ve srl Ive vor cc0 6£°0 LSet ITs 76'S6 9L' V6 peso OS'L6 OL'L6 £086 LS'€6 98°L6 68°96 0c L6 €L'96 Or'L6 Sc v6 Or'68 C986 80°66 OV IC dGNVS 6€ ASR RARBBRAARER TIS C'6r O'8r COV O'SP ver 6 IP vov 6 8e Le BSE eve BCE (ats L6C C8T TVL¢ v9C ON HIddd TvS HAOOD SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES Ove 00 LI 00 Ove 00 00 00 00 00 OOI -/+ 06b'€ 00 00 O01 -/+ O€€9 00 00 00 00 S 00 00 g OSZ-/+ 0E9'9 00 00 s 00 00 & 00 00 | 00 00 S OLI-/+ OL8'E 00 00 5 £0 00 fi IT 00 a 001 -/+ 068'P 4 00 00 00 00 00 OL-/+ 090°€ 60 00 90 00 00 00 00 00 00 00 00 00 00 00 00 00 S0 00 rI-NO@UVI HLO Oldva 302 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 90 00 00 00 00 00 00 00 00 IVId 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 €0 00 00 00 00 00 00 YaIld OAL 00 00 00 00 00 90 £0 90 00 00 00 00 00 00 00 00 00 00 00 c0 €0 00 00 c0 00 00 00 00 NHOW 00 €0 60 00 00 00 00 £0 90 JUNOD UTeID JO} pues JusToTJNsuy JUNOD UILID JO} pues jusTONsuy 00 00 £0 00 00 80 00 £0 00 €0 0 80 a0) 00 90 00 00 t0 00 00 00 00 00 On 00 00 c0 00 00 00 00 00 60 00 00 00 00 00 90 00 00 90 00 00 GI 00 00 00 81 90 CC 00 00 90 00 00 90 JUNOD UleID JOj pues JusTOYJNsuy 00 £0 OT 00 00 £0 00 00 £0 00 00 £0 00 00 00 00 00 00 ONdS ULSO OTHS 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 HHSd MHSd 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 0 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 JHSS MHS9 6 AaASARA Ol =aANntHyFor Yond oa) v9T 9°ST OST VVC CHC SEC Ct L0G T0c V6l 9°81 esl 9°9T LSI S's cr 6 tel Orel Vl 66 16 L8 c8 6L SL 69 es se eC 80 jams ON HIddd IvS AAOO 303 APPENDIX 2.—Continued. NUMBER 37 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 80 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 9 00 vI-NO@AVO HLO OIdVa 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 IVvid 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 Wald OANA 00 00 00 00 00 00 00 00 00 00 00 00 00 c0 £0 00 00 00 NHOd 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 SNdS 00 00 90 90 00 00 00 00 00 €0 00 00 00 00 00 00 00 00 00 €0 00 0 00 £0 00 00 00 £0 00 60 00 VT 00 LO 00 60 uLZsoO OTHS 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 HHSd = AAHSd 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 4HSD MHSD 00 00 00 00 00 00 00 00 £0 00 00 00 00 00 00 00 00 00 cy TIS Iv S'6r OP O'8P 6€ SOV 8 OSP Le ver OF 6 Iv Se vor ve 6 8t te eLe ce SSE Ie eve Ot Se 6C Ge 8C L'6C Le C8C 9C Le SC v9C ON HIddd IvS TAOO SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 304 APPENDIX 2.—Continued. 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 duo 00 90 00 00 00 £0 00 c0 £0 0) £0 00 0) 00 £0 00 £0 €0 00 eC c0 00 C0 00 S0 90 a0) 00 00 cO £0 00 00 00 00 quod 00 00 00 00 00 c0 00 00 00 00 00 00 00 00 00 00 Ore 00 v6 ita £0 00 00 00 00 00 00 00 00 00 00 00 00 00 00 WIId 00 00 00 00 00 00 00 c0 00 0 0 90 00 00 00 00 97 00 c0 LI 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 DOV 00 €0 00 0 £0 Ol £0 60 [i 6 60 87 9 LY cS 00 60 8T ST CC Sil oT 67C OT OT V? Os 61 cl I'v Oe se Sv a cl HIT 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 dVAd 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 DaAd cO £0 VI el 90 00 LE Tv ve 89 O07 Le ee c9 OL 00 60 6¢ Ce 6L 09 OV 67 BE ct ve 0c [al cl es 16 vs Ot 81 él AWTS 00 £0 00 t0 90 00 a) t0 £0 €0 0 90 61 cO 60 00 O'el 00 OO! L9 00 80 00 0) c0 00 00 €0 90 a0) vl 0) 90 00 00 VOIN 0°86 0°96 0°96 0'€6 0'L6 0'L6 O16 0°88 0:06 0'S8 0°06 0°98 O'OL O'8 O'C8 O16 O'0r 0'S8 OL9 O'eL O'L8 OL8 OL8 O18 0°88 0°06 OOP 0°C6 0°06 0°98 O'C8 O'S8 O16 O'S8 Or9 IT ITs £6 6P Orel CV Iv ps0 AVI) a = ce O'SP = = Ie ver is zs Or 6 lv S: a 6C vOr a a 8C 68t = = Ke ele = is 9 8st = ms SC eve = = VC BCE = = €C CTE = a (ws L6C = = IC T8C = = 0 L9¢ a 3 6l [Sc = ra 8I 6 ET t0°6 98°S8 LI CET 99'8t IvV'Tl ce Tec = i 91 OCC LO'8C LV'8S SI CIC 9C'SP Ce EI ve L0c = = vl 10¢ - = tl Vol é=) = cl CLI = = Il O9l = a Ol LY¥l zs i 6 Vel = z 8 Vit 7 ry ib 86 ee = 9 €8 = rs S 69 zr v es = zi € st i i (6 (6 7 I cl 8e°0 80°66 €€ 00 ITS dNVS ON Hiddd CPS HAOD 305 NUMBER 37 APPENDIX 2.—Continued. 06 -/+ 098°L OSI -/+ O€L'9 O7I -/+ 067'8 OOI -/+ OIPL OOI -/+ 068° OL -/+ O19'€ vI-NO@AVO 00 00 00 00 00 00 00 00 €0 00 00 00 00 00 00 00 £0 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 90 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 HLO OIdVa 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 LVvid 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 £0 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 Wald OA 00 00 00 00 00 00 00 00 00 00 00 £0 00 cO 0 00 00 80 00 c0 00 00 0) 0) 00 00 c0 00 00 cO 00 00 00 00 00 NHOW 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 07 00 £0 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ONdS 00 a 00 91 00 EA 00 80 00 OT 00 OT 00 0 00 cl 00 LI 00 Ul 00 vil 00 81 00 0'0c 00 LI 00 90 00 vs 00 cl 00 vl 00 00 00 00 00 eal 00 6¢ 00 67 0) OO! 00 ev 00 67 00 08 00 6 00 Of 00 CC 00 61 00 cl 00 90 00 90 00 00 ULsO OTHS 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 OSE 00 00 00 00 00 00 00 00 HHSd MHSd AHSDS MHS9D 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 £0 00 00 00 c0 os 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 Oc 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 c0 00 00 00 00 00 00 00 SFSARANNARQRRAARSA ce €l Ranntnoroaaera O'SP vev ov v Ov 6 8E eLe BSE eve SCE GWE L'6C C8C L9@ Tse 6 ET CEC Tez OCC CIC L0c [0c Vel CLI 09T Lvl Vel Vil 86 €8 69 es 8€ eC al 00 ON HIddd CPS TAOOD SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 306 APPENDIX 2.—Continued. 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 duod 00 00 00 00 00 00 00 00 00 00 00 00 00 00 c0 00 00 00 0) 00 £0 00 00 00 19 09 80 00 00 00 quod 00 00 00 00 00 00 00 00 00 00 00 c0 00 00 0 00 00 00 C0 00 00 00 00 ce Cl 87 vv c0 00 00 WIId 90 00 vs 00 c0 60 00 a0) 60 el 90 Ol 60 00 t0 CT LO 960 O'8e el 81 scl Ve 00 81 vs oe Le el 90 DOV 81 00 c0 60 Ve ve 00 £0 81 00 £0 €0 00 00 cl Ol 0 00 00 el 60 60 c0 ce 00 60 00 c0 60 90 HILT 00 00 00 00 00 00 00 00 00 00 00 90 00 90 00 90 c0 960 00 00 00 00 00 90 00 00 00 00 00 00 dVAd 00 cl 00 00 90 00 00 se c0 0 8? 60 00 es c0 00 oe 00 00 €0 00 00 Ve 60 00 Of 90 00 6 LO 00 ce 00 00 L9 el 00 00 00 00 60 90 00 GI 81 00 8s 90 00 Oe 00 £0 OCI 960 61 (Gs 0) JUNOD UIeID JO} pues WoToyJNsuy 00 08 90 00 Lol cl 00 os Sel £0 vs ve 00 [ie 90 0 88 ct 00 99 09 80 OTT LSC 00 ie 60 00 60 ra) 00 61 c0 LYAd = NVWID VOIN Ole 81C 86°C 6LT 9ST 69°C ISL 91 6r ell VOT S81 98"t 10’ 90°09 Tet 00'V 8st ILI 9P'S9 eS'c9 SOC 99°C 89°C 18°91 COLT c9'V9 6S° CV cO'0E vol 13°] 9S'el AVTO cS'€ 6c PV eve CL 6e°C el? Icv C8' VC a0) SOC 96°C 99°9 CEL 86:0 COE COIL Te°8 68°91 SLOe 90°9¢ OS's LC8 lop ccel LO'IT O8'L7Z 96'S 099 bs0 6L°0 9E°S Ls 8 £6 by'e6 8° £6 9r' 6 S0'S6 81°S6 L788 cO'9T 8°86 18'P6 61'S6 8r'68 99°88 96°81 Lv'v6 9€°88 S888 Iv'0L 6L'€ Tvl vy'c6 90°68 C8°C6 7969 IL TS 8S°L SV IT LSS CT'86 vL6 80°18 dNVS Ke Ce 9 (Bike SC L'67 VC C8C eC L‘9T (C6 VST Ic 8 104 VVC 6l 9°ET 81 L:Ge LI 9°0T 9] vol SI 681 vl 9°81 el CLI cl O9l II 61 Ol al 6 Lel Le Vel 8 VI E 86 9 06 ¢ S38 9€ 6L v OL ce c9 € SES G eC I 80 ve 00 ON HIdadd €vpS TAOD 307 NUMBER 37 APPENDIX 2.—Continued. 00 00 00 00 00 00 duo 00 00 00 00 00 00 quod 00 00 00 00 00 00 WI1d 0) 00 00 00 90 c0 SOV c0 90 VT 80 00 £0 HILT 00 00 00 00 00 00 dVAd 00 00 00 c0 00 00 LaYAd Of cl LT 81 v1 c0 AWTS 00 CT €0 eC 0 VC c0 os ma LI 00 S0 VOIN AAH 0't6 0°S6 0°C6 0°%6 0'S6 0'L6 IT 8CC LSI 8CC v8 I IV? 10°C AVTO CEE 9E'T tv 00'V Bre ysl Is OV v6 LO'v6 60 $6 OT v6 IS P6 S196 dNVS ce Te 6 Iv vov 6 8e Ce BSE eve ON Hiddd €v-S AOD SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 308 APPENDIX 2.—Continued. 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 90 00 00 00 00 00 00 00 OII -/+ 0L6'9 00 00 00 00 00 00 00 00 00 00 60 00 00 00 OI -/+ O19'S 00 00 90 00 OI -/+ 079'r 00 00 00 00 00 00 00 00 PI-NO#AVO HLO OIdVY 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 90 00 £0 00 00 00 00 LVId 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 Yad 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 OANA 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 NHOW 00 00 60 00 00 £0 00 00 00 00 00 90 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 LO £0 00 c0 €0 00 00 00 00 00 00 00 00 00 00 Gil 00 00 00 00 00 00 00 00 00 OT 00 c0 JUNOD UleID JOJ pues JudToyynsuy 00 00 00 00 00 00 00 00 00 90 00 00 c0 00 00 c0 00 60 c0 91 LS 80 00 €0 00 00 £0 00 00 c0 00 00 00 ONdS ULSO OTHS 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 x0) 00 00 00 00 00 00 00 00 00 00 00 c0 00 00 00 00 00 MHSd = MHSd 00 00 00 t0 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 HHS MHSD 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 8Cce GLE L'6C C87 L9C vse 8 VT VVC ET LG? 9'0 vol 681 9°81 CLI O91 641 cr Lel Vel vl 86 06 C8 6L OL co cs 1G 80 00 SRZRXRANNAKRRA BSI ie} BannmOtrRnorwoahacraen ON Hiddd epS HAOO 309 NUMBER 37 APPENDIX 2.—Continued. pI-NO&avO 00 00 00 00 00 00 00 00 00 00 00 00 HLO OIdVa 00 00 00 00 00 00 LVId 00 00 00 00 00 00 Wald 00 00 00 00 00 00 OANA 00 00 00 00 00 00 NHOd 00 00 00 00 00 00 ONdS 00 ra) 00 90 00 00 00 00 £0 c0 00 311 ULSO OTHS 00 00 00 00 00 00 00 00 00 00 00 00 SHSd MHSd 00 00 00 00 00 00 SJHSS MHS9 00 00 00 00 00 00 (63 Te 6IV vov 68e Giles BSE eve ON Hidad €vpS HAOD SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 310 APPENDIX 2.—Continued. 00 £0 00 00 00 t0 60 00 00 Ll 00 Lal quod 00 00 00 00 00 6 CE Call 0'9¢ 0'6E Gel 06S 00 WITd 00 00 00 00 00 Iv LY SL Oe 9'0 00 £0 9OV c0 00 Gall 80 9°0 00 00 00 00 90 LO GG HILT 00 00 00 00 00 00 00 00 00 00 00 Oc dVAd 00 9°€ 00 os 00 Te 00 Tes 00 Oe 00 EG €0 O'el lel CC €0 Ol OCI 60 00 61 00 9°0 DTYAd = AWTS 0 60 91 80 a Ose 88 O'8P OSL OCI st OC VOIN £0 £0 i Cl 9°0C 8°8 8 CEL E 169 9 coo ¢ 19 ce LY v I8'¢ c 8CC G 9L0 I jus ON HIddd OSS AAOO 327 NUMBER 37 APPENDIX 2.—Continued. 00 00 00 00 00 00 quo 00 00 00 00 00 00 WIId 00 00 00 00 00 00 IOV L6'l 67 C Sct ce0 c9°C 790 HILT 00 00 00 00 00 00 dVAd 00 00 00 00 00 00 LaAd 00 c£0 ce0 00 £0 960 NvTD £0 00 00 00 00 00 VOIN 1L96 9V't6 18°c6 S086 t1C6 tc v6 LT = = = l€ =: Tv'0h = = = O€ sg'8E ? = z 6% See P = = 8% «ESSE = ; = Le GE = ; = 9% BLE AVID = LTIS” GNVS ON Hidadd 0SS HAOD Oce -/+ OFO'TI 06 -/+ OS6'L SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 08 -/+ 009°9 APPENDIX 2.—Continued. 08 -/+ OL8'7 bI-NO@UVO 328 00 00 00 00 00 90°8 L8'] 00 00 00 00 00 00 00 00 00 00 ce 0 00 00 00 00 00 00 00 00 00 00 90 00 00 0'0 00 HLO 00 00 00 00 00 00 00 0'0 0'0 0'0 00 0'0 00 0'0 00 00 00 00 00 00 00 00 00 Sc 00 88°0 0'0 00 90 00 0'0 00 00 LVId 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 te 0 670 Ie 0 00 00 00 00 00 00 NHOW 00 00 0'0 00 00 00 00 LOT fs t9°0 LG 860 pS] r6'l E9iT tc Ol 9°0 $90 98'0 00 960 re 0 ce0 10'S OG 670 00 00 £9°0 0'0 0'0 00 00 ONdS 00 00 00 00 00 00 00 00 LO 00 00 00 00 00 ce 0 00 00 00 00 00 00 00 00 00 00 6c 0 00 00 0'0 90 00 t£0 00 ULSO 00 t0 00 00 00 00 00 00 00 00 00 00 00 00 00 e£0 00 00 00 00 00 00 00 00 00 88°0 00 00 00 £0 00 00 00 O'THS 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 Ie 0 60 IO 00 00 HSd 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 90 00 00 00 MHSd 00 00 £0 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 0'0 00 00 00 00 00 00 00 00 00 00 00 690 00 00 00 00 00 00 00 00 00 00 00 0'0 00 00 00 00 00 00 00 00 00 00 00 HHSS MHS9 Sc 9T IE ve VL 6C tc 06°L7 CC v89C 6t 9C ih C6 PC I? OL YC OC vCVC 61 tc 81 L8°CC LI Se Ic Le SL'0C 9] C861 9e 90°61 SI 8 al LLY el cc SI ce 9T V1 cl 97 El II Gl ve bri Ol L9‘0I CE 96 6 p88 8 cel ie 169 9 cso S 19 (Bg LY 4 IS € 8TC G 9L0 I y.ns ON HIddd OSS HAOO 329 NUMBER 37 APPENDIX 2.—Continued. 00 00 0'0 00 00 00 bI-NO@UVO HLO 00 00 00 00 00 00 LV1Id 00 00 00 00 00 00 NHO" 00 00 00 00 00 00 ONdS 00 00 0'0 00 00 00 uLSO 00 00 00 00 ce 0 ce 0 O'THS 00 00 00 00 00 0'0 HHSd 00 00 00 00 00 00 MHSd 00 00 00 00 00 ce0 HHSD 00 00 00 00 00 00 MHS9 A O€ sg8E 6¢ - -9GHe 8¢ | NEsice Los sieve 9Ge ASIRCE ON H1dad OSS HAOO SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 330 APPENDIX 2.—Continued. 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 99°0 00 00 00 quod 00 00 I¢'0 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 LIP Sle y9'T c6'| viv c6'0 S90 8c l 1S°C6 ce'0 619 c9°0 £60 scl WI'1d 00 00 T¢0 00 00 00 00 00 00 0¢'0 00 00 00 00 00 00 00 ce0 00 00 00 660 00 00 c9'0 s9'0 960 00 6c | t6T c9'0 pLsl by 19 JOV COE Ite c9'0 (Ga 9C'I voc 8c'l S60 00 19°0 S87 v8" Bee vIy 167 CTE 6l't tC 9T'T 09'1 68'1 00 Las p90 I¢'0 00 91 00 90 00 His 00 00 HL L60 voTC ce'0 00 00 00 dVAd 00 00 00 00 00 tc 0 00 00 00 00 00 00 00 00 (6a0) 00 00 00 00 00 £90 ee 0 8r'0 ECT? S19 00 00 00 00 $90 00 00 00 LaYAd 00 00 ele LOE 6L't 690 00 S60 te 0 97 PV sre 97'T ps'T 960 69° 960 SLs CBE 99° 6C'6 60°01 eS] LO9I OCLI 00°91 61 VC L76 S6l v8 Or Lv’8 or Ol 8691 Isc nvlD 00 00 00 00 ce0 00 00 00 00 00 £90 00 00 00 00 00 00 ce 0 9c ort 9E TT 16°8 OEE pO'L tcS vs'y c6'1 tol 6L'S 687 scl Ses 9L't VOIN 80°96 69°96 LI€6 St C6 C198 CI'v6 80°86 18°96 7096 v'C6 C688 LI'16 69°16 C788 L9'88 L068 99'b8 IT 18 96'C8 c69L IS°L9 Oe OL 98'EL 1079 pS'69 IL'8P ST18 9 L88V LOVL v8'PLl CLLS €S'8C IT 9¢ Iv 0r Sc 68°8E VW 9ELE eC p8'Se (C6 le ve Ic 6L'Ce OC 97 Te 6l bL'6C 81 I78c LI 69°97 91 91'Sc SI y9'tT vl ILce tl 6S'0C Cl 90°61 I SLI Ol 98'S I 6 cO'rl 8 Cl el tt ciel ce ec ll L 89°01 9 S16 Ie 8e°8 ¢ OL Or v8°9 v 19 6¢ 09'S 8C LGV € Lov c SLT I cs'I WG 8¢0 ON HIddd IsS HAOO 331 NUMBER 37 APPENDIX 2.—Continued. OI -/+ 08S°9 OT -/+ O€6'S 09 -/+ 008'€ vI-NO€AVO 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ce 0 99°0 ve0 y9'°0 Ie0 00 00 00 00 00 00 00 00 NHOW 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ce0 8ST 86'1 8r'0 LeI T¢0 00 00 00 00 00 00 00 00 ONdS 00 00 00 00 00 T¢0 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ce'0 00 00 00 00 00 00 00 00 00 00 00 00 00 uLsSO OTHS 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 c9'0 00 SHSd dAHSS MHSS 00 00 Te0 00 ce 0 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 I¢0 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 332 APPENDIX 2.—Continued. 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 c9'0 00 00 00 col 96°C COT quo 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 96°C L8LE ce0 90 £099 S6eL 66°91 eo Tl 00 00 cL'06 6c'l vy (on, WI Td 00 00 00 00 00 00 00 00 S90 00 00 00 00 00 00 00 00 ce0 00 00 CST 00 00 ce0 00 00 S681 9c 00 S90 00 8L°C9 L9'9 S90 ALT Sel CTT S90 8 91 91'e 617 90 L60 87 tO€ 6c | 9C'T S60 L8C L@ 90 S60 £90 00 00 6S°0 S60 9ST 00 00 00 10 LV? S90 00 00 00 L60 dVAd 00 00 00 00 00 00 00 00 00 00 00 ce 0 00 00 00 00 00 ce0 £90 00 ces 8r'l ce0 00 00 00 Teal ple 00 00 00 S90 00 00 LYAd 8 98° 69°C voe Ie £9'0 £90 y90 C6 00 LOE 88'E Tv ely SN 9V'T 8S°6 tvy 80°77 te 0 60 89 b8'6 Or Tl 90 STC 96'1 09°9 (6 eG Oe'81 99°0 6c'1 wr? 66°C1 NvTd 00 £9°0 00 00 ce 0 00 00 00 ce 0 6S°S 00 ce 0 00 S60 ce 0 00 p90 8S'I I¢0 00 9T'I 81 Ors 99° y90 LSC S16 98°9r c9'0 96'1 00 v6'l tee s90 VOIN pS'L8 c9'L8 00°68 00°06 8L'88 6106 C18 S6 C6 10°28 69°98 68°98 L9'88 L768 8e'L8 1¢'68 ST'16 IL'€8 by'ss pe68 90°L6 Ive9 81S 619L 61°08 Ile 6C 61 8r'Cr BSE tv'08 OVSL OES ps9 8L'L9 OV'CL LY vOr 68t VLE BSE eve SCE Ee pL'6c 187 L9C 9ST VOC VC 9°0C 90°61 SLI 91 aa 6Tl SeTl LOTT e801 00°01 €6 €0'8 8LL 60'L Sc9 ely (as 60 TC 891 €0 jans AANNAAAKHA =ANMtAHONRWOD SS ASS MAIO Fe RA AE ey DN =NQMSmrtrnDWoArRwoAaes ON HiIddd csS AAOO 333 APPENDIX 2.—Continued. NUMBER 37 O€I -/+ OIS OI 08 -/+ OSS"9 OL -/+ 06L'P OOI -/+ OST'E 09 -/+ OL9'T bI-NO@UVO 00 00 00 00 00 00 00 I¢'0 8 vOv 00 00 00 00 00 00 00 00 Lv 68e 00 00 00 00 00 00 00 00 9 VLe 00 00 00 00 00 00 00 00 SC BSE 00 00 00 00 00 00 00 00 VC CVE 00 00 00 00 00 00 00 00 €C 8Ce 00 00 00 00 00 00 00 00 (C6 ele 00 00 00 00 00 00 00 00 IC bl 6c 00 00 00 00 00 00 00 00 OC IT 87 00 00 00 00 00 00 00 00 6l SKE 00 00 00 00 00 00 00 00 8I 91ST 00 00 00 00 00 00 00 00 LI POET 00 00 00 00 00 00 00 00 OI ae 00 00 00 00 00 00 x0) 00 SI 9'0C 00 00 00 00 00 00 00 00 vl 90°61 00 00 00 00 00 00 00 00 el pS LI 00 00 00 00 00 00 00 00 cl 9] 00 00 00 00 00 00 ce 0 00 I] CTI 00 00 00 00 00 00 00 00 Ol 6Cl 00 00 00 00 00 00 00 00 6 Sel 00 00 00 00 00 00 00 00 we Lo TI 00 00 00 00 00 00 00 00 8 c8 Ol 00 00 00 00 00 00 00 00 tte 000! 00 00 00 00 00 00 00 00 L 6 00 00 00 8c l 00 00 00 00 ce £08 00 6c 1 00 00 00 00 00 00 9 BLL 860 00 00 ps9 tc0 00 00 00 Ie 60'L 00 90 Tc0 681 68'T 00 97 I 00 ¢ Sc9 TO 00 00 00 00 00 00 00 v tly 00 00 00 00 00 00 00 00 € ce Ite 00 00 00 00 00 00 00 Or 60 TC L60 00 00 ce0 6c'l S90 00 00 6c 89°] OL't 00 00 00 srl DIS 00 00 Cc 0 Oc'l 00 00 00 97 ce 00 00 I jms HLO LVIGd NHOd SNdS ULSO OTHS HHSd MHS9 ON HIddd csS HAOO SMITHSONIAN CONTRIBUTIONS TO THE MARINE SCIENCES 334 APPENDIX 2.—Continued. 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00'T ce0 00 Loe eve quo 00 00 00 00 00 00 00 00 00 00 00 p9'l ST 00 OL'€8 06°68 LOLL 61's LO'8E 00 6109 9T'0S tl Or 1S'0¢ 69'TI L7S1 WITd 00 L60 00 $90 00 00 00 00 00 00 90 00 00 00 S90 681 00 y9'0 00 00 00 00 88°e 90 Lo'es 86 LV DOV 960 S90 £90 00 vol c9'0 LOC Oi v9'0 19a 00 99°0 00 ce'0 00 00 00 00 00 00 00 00 00 00 00 00 HIT 00 00 00 00 00 00 00 00 00 00 Ive 00 00 00 00 00 00 00 00 00 00 00 00 960 00 00 dVAd 00 00 00 00 00 00 00 00 00 ce 0 ce'0 00 Lo9 81P 00 8S'1 0¢'6 tv 9c OL'8t 609 yO'll col CEC 98°C 00 00 LYAd 09'T s9'0 £90 c9'l 9CT 06°C XG (60) 161 OL'SI 09'1 99°0 cc l 19'| 00 00 00 SG (6x0) ves 09°0 990 00 871 c9'T L8'1 nvTd 00 00 00 ce'0 00 ce'0 oil ce0 Lol Ose! 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