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NOAA Technical Report NMFS Circular 419

Marine Flora and Fauna of the
Northeastern United States.
Protozoa: Sarcodina: Amoebae

Eugene C. Bovee and Thomas K. Sawyer

January 1979

U.S. DEPARTMENT OF COMMERCE

National Oceanic and Atmospheric Administration

National Marine Fisheries Service

NOAA TECHNICAL REPORTS
National Marine Fisheries Service, Circulars

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Cnnl mued on inside hack cover

NOAA Technical Report NMFS Circular 419

•^uS&fr Marine Flora and Fauna of the

Northeastern United States.
Protozoa: Sarcodina: Amoebae

'^'Wo"'^

I

Eugene C. Bovee and Thomas K. Sawyer

January 1979

U.S. DEPARTMENT OF COMMERCE

Juanita M. Kreps, Secretary

National Oceanic and Atmospheric Administration

Richard A. Frank, Administrator

Terry L. Leitzell, Assistant Administrator for Fisheries

S National Marine Fisheries Service

For Sale bv the Superintendent of Documents, U.S. Government Printing Office
Washington, D.C. 20402 Stock No. 003-017-00433-3

FOREWORD

This issue of the "Circulars" is part of a subseries entitled "Marine Flora and Fauna of the
Northeastern United States." This subseries will consist of original, illustrated, modern
manuals on the identification, classification, and general biology of the estuarine and coastal
marine plants and animals of the northeastern United States. Manuals will be published at
irregular intervals on as many taxa of the region as there are specialists available to collaborate
in their preparation.

The manuals are an outgrowth of the widely used "Keys to Marine Invertebrates of the
Woods Hole Region," edited by R- 1. Smith, published in 1964, and produced under the auspices
of the Systematics-Ecology Program, Marine Biological Laboratory, Woods Hole, Mass. Instead
of revising the "Woods Hole Keys," the staff of the Systematics-Ecology Program decided to ex-
pand the geographic coverage and bathymetric range and produce the keys in an entirely new set
of expanded publications.

The "Marine Flora and Fauna of the Northeastern United States" is being prepared in
collaboration with systematic specialists in the United States and abroad. Each manual will be
based primarily on recent and ongoing revisionary systematic research and a fresh examination
of the plants and animals. Each major taxon, treated in a separate manual, will include an intro-
duction, illustrated glossary, uniform originally illustrated keys, annotated check list with infor-
mation when available on distribution, habitat, life history, and related biology, references to
the major literature of the group, and a systematic index.

These manuals are intended for use by biology students, biologists, biological
oceanographers, informed laymen, and others wishing to identify coastal organisms for this
region. In many instances the manuals will serve as a guide to additional information about the
species or the group.

Geographic coverage of the "Marine Flora and Fauna of the Northeastern United States" is
planned to include organisms from the headwaters of estuaries seaward to approximately the
200-m depth on the continental shelf from Maine to Virginia, but may vary somewhat with each
major taxon and the interests of collaborators. Whenever possible representative specimens
dealt with in the manuals will be deposited in reference collections of major museums.

After a sufficient number of manuals of related taxonomic groups have been published, the
manuals will be revised, grouped, and issued as special volumes. These volumes will thus con-
sist of compilations of individual manuals within phyla such as the Coelenterata, Arthropoda,
and Mollusca, or of groups of phyla.

CONTENTS

Page

Introduction 1

Diagnostic characters 1

Ecology 2

Collecting methods 2

Culture 2

Observational techniques 2

Common problems in determining the identity of marine Sarcodina 3

Glossary 3

Key to families and genera of Amoebae and descriptions of species 6

Annotated systematic list 49

Selected bibliography 52

Systematic index 54

Acknowledgments 55

Coordinating editor's comments 56

The National Marine Fisheries Service (NMFS) does not approve, rec-
ommend or endorse any proprietary product or proprietary material
mentioned in this publication. No reference shall be made to NMFS, or
to this publication furnished by NMFS, in any advertising or sales pro-
motion which would indicate or imply that NMFS approves, recommends
or endorses any proprietary product or proprietary material mentioned
herein, or which has as its purpose an intent to cause directly or indirectly
the advertised product to be used or purchased because of this NMFS
publication.

in

Digitized by the Internet Archive

in 2013

http://archive.org/details/marineflorafaunaOObove

Marine Flora and Fauna of the Northeastern
United States. Protozoa: Sarcodina: Amoebae

EUGENE C. BOVEE1 and THOMAS K. SAWYER2
ABSTRACT

This manual contains a key to 15 families of freshwater and marine amoebae, of which only one,
the Echinamoebidae, does not contain a known marine species. Diagnostic features for 49 genera, of
which 34 include marine species, also are given. Descriptions and illustrations for 76 species of marine
amoebae and an annotated systematic list are provided. The basic key is designed to assist the user in
the identification of recognized species of marine amoebae that have been described from waters of the
northeastern United States. However, certain well-known families and genera of freshwater forms
are included to assist in their identification should they be discovered in seawater in future investiga-
tions. Information also is provided which includes comments on the general biology of the Amoebida,
and techniques for microscopic observations and laboratory cultivation of many species. Most of the
amoebae described in the key are free living, but a few are parasitic and known to be of considerable
economic importance. One new free-living species, Vexillifera minutissima, was discovered in Chin-
coteague Bay, Va., and is described herein for the first time.

INTRODUCTION

The amoebae are that group of Sarcodina (Protozoa)
which move by means of subtle changes in the physical
properties of their protoplasm. Probable gel-sol inter-
conversions of their protoplasm produce extensions of the
body mass to form pseudopods which are involved in
both locomotion and feeding activities. The movement of
the protoplasm may be cyclic in the body mass and in the
pseudopods which conduct different specialized func-
tions. The protoplasm is convertible from a slightly vis-
cous fluid state (plasmasol) to a more viscous or rigid
contractile jelly (plasmagel). The specific morphological
appearance of various Sarcodina is a dynamic product of
their protoplasmic activities and movements.

The amoebae of the ocean resemble those of fresh-
water ponds and streams, and the same group of charac-
ters can be used to distinguish them. The amoebae of the
ocean are not yet well known. A great many unknown
species remain to be found, described, identified, and
classified. However, enough of them are known to
provide a basis for provisional identification to the
generic level. Known species are included as examples.

Since identification of amoebae classically depends
mainly on their forms and activities while in loco-
motion, observations must be made while they are ac-
tive. Many marine amoebae are active at dawn or dusk,
particularly the many small species found feeding on
bacteria in bays and estuaries. Others are active mainly
during midday. Observations at almost any time from
dawn to dark, or even at night, may turn up an active
amoeba.

'Department of Physiology and Cell Biology, Division of Biological
Sciences, University of Kansas, Lawrence, KS 66045.
'Northeast Fisheries Center, NMFS, NOAA, Oxford, MD 21654.

Amoebae usually are difficult to preserve in their
typical locomotive form. Sketches and photographs
made by dependable taxonomists of amoebae are as yet
the best sources for their identification, while fixed and
stained specimens are useful for studying their nuclear
structures. There are no extensive type collections, but a
few protozoologists maintain certain species in con-
tinuous culture.

Photomicrographs are not an entirely adequate sub-
stitute for illustration of type-specimens and descrip-
tions should be supplemented with detailed sketches
which are representative of the species being described;
photomicrographs show only a planar section through
the amoeba. Scanning electronmicrographs are not yet
available for most amoebae, and, besides being costly to
prepare, have the disadvantage of portraying fixed
specimens whose contours are more or less distorted.
Hence, few amoebae have been illustrated with scan-
ning techniques and those available do not substitute for
direct microscopic identification.

Fixed and stained specimens may be prepared by us-
ing routine cytological methods for staining cells (Alger
1966; Mitchell 1966); including such stains as iron-
hematoxylin, Kernecht's-red, Feulgen's reaction,
chromotrope-2R, or Biebrich's scarlet-fast-green. For
electronmicroscopy and light microscopy, various
modifications of combined osmic acid and glutaralde-
hyde fixations have been used with success.

DIAGNOSTIC CHARACTERS

Members of the Sarcodina, usually considered to be a
subphylum of the Protozoa, are typically single celled;
but some are multinucleate, and others are plasmodial,
that is, they can fragment into uninucleate cytoplasmic
parts which may fuse again into a multinucleate cyto-

plasmic mass. In most Sarcodina the nucleus is vesic-
ular, i.e., round and bounded by its own membrane, and
usually contains a round central endosome or nucleolus
or both. The cytoplasm is motile within a mucoid outer
coat (called a plasmalemma) and is extensible into lobes
or threads, called pseudopods, which are also used in
locomotive progress and feeding. The plasmalemma or
outer coat may bear a fuzz-like layer which conforms to a
glyco-calyx.

The amoebae are usually divided into two groups,
based on whether the pseudopods are filose (i.e., long,
slender, and needlelike) or lobose (fingerlike, or as lobes).
Members of either group may have, or lack, a shell, de-
pending on the species. Families and genera of amoebae
which have no shell are distinguished by the dynamic
form and movement of the body and the pseudopods dur-
ing steady locomotion and the structure of the nucleus.
Those which have shells are distinguished by both the
active form of the pseudopods and the structure of the
shell, as well as structure of the nucleus.

The Sarcodina, including the amoebae, are probably of
several sources of evolutionary origin, i.e., are polyphy-
letic. Their principal similarity is in the formation of
pseudopods. Any classification of them is artificial and is
useful mainly for the distinction and identification of a
particular genus or species. This key is therefore ar-
tificial and intended only for identification; it does not
necessarily indicate phylogenetic relationships.

ECOLOGY

Most marine amoebae have been collected and ob-
served from inshore areas, e.g., from intertidal zones,
tide pools, brackish bays, or inlets. Some, e.g., Vannella
mira and Acanthamoeba polyphaga, tolerate both fresh
and seawater. Recent collections from the open ocean in-
dicate, however, that some species are widely dis-
tributed throughout ocean waters in the bottom
sediments or near the surface as pelagic organisms.
Many marine amoebae are free living and feed mainly on
bacteria. Others feed on algae. Some scavenge organic
detritus. A few are carnivorous, eating other Protozoa or
small Metazoa. Probably most species are widely dis-
tributed in the oceans owing to waves and ocean cur-
rents, but some have been found only in a few restricted
locations. Temperature of the water, its salinity, and the
availability of suitable food are perhaps the main factors
in their distribution. Some are parasites of diatoms,
fishes, molluscs, or arthropods, a few being pathogenic,
the others commensal; such species are, of course, found
with their hosts.

The importance of amoebae in the ocean has only
recently begun to be assessed. The bacteria eaters and
scavengers are important in maintaining the cleanliness
of shallow, inshore waters and the surface waters of the
open ocean. The pathogens — such as Paramoeba per-
niciosa, which parasitizes blue crabs, causing the grey
crab disease — are important in oysters and other
molluscs, but their effects on such hosts have not been
well determined (Sawyer et al. 1970). In any event,

amoebae are important organisms in oceanic ecosys-
tems.

COLLECTING METHODS

Amoebae may be found in almost any damp
place — moist soil or sand, on aquatic vegetation, on wet
rocks, in lakes, ponds, streams, glacial meltwater, tide
pools, bays, estuaries, on the bottom of or afloat in the
open ocean, or on (or in) littoral organisms.

The easiest collecting method for shallow water species
is to collect a sample of vegetation, with some soil or
sand, and about a liter of water from around or near the
plants. This, placed in a clean glass jar with a screw-cap
lid, can be taken to the laboratory for observation.

In the open ocean, where amoebae may be few, 1 or
more liters of water may be taken with a water sampler
at any depth. This water should be passed through a fine
filter. Vacuum filtration at 3 to 4 lbs/in2, using millipore
filters of 1.2 pm mesh and 47 mm diameter, is recom-
mended. The filters can then be floated on unfiltered sea-
water (from the original sample) in 60 mm plastic dishes.
Dishes may be kept at about 23°C ("room temperature")
for several days or weeks. Transfers from the dishes to
nutrient agar plates will often produce growth of bac-
teria and amoebae. Bottom samples may be taken with
an Eckman or Petersen dredge.

Some amoebae are hardy in the laboratory; others are
not. Cultures will usually produce only the hardier
species. Nonetheless, clonal cultures are sometimes the
best way to accurately distinguish one species from
another closely similar species.

CULTURE

Many species that eat bacteria may be grown on a
moist nutrient agar which will support bacterial growth.
Seawater known to contain, or potentially containing,
amoebae can be used as an overlay for a 1V&% agar base;
or 1% agar plates can be used without a water overlay,
but must be kept in a moist chamber. These, when in-
oculated, will yield growth of some species. For brackish
water organisms, brackish water should be used.
Aerobacter aerogenes is a bacterium which many
amoebae will eat. Amoebae which eat algae may be
grown with the algae in a similar fashion.

Carnivorous amoebae should be cultured in clean
(preferably filtered) seawater. Their prey should be
grown separately and fed to them daily in amounts suf-
ficient to support good growth, but without overfeeding.

Reference to methods successfully used by others in
culturing amoebae is useful in setting up cultures (Saw-
yer 1975a, Page 1976).

OBSERVATIONAL TECHNIQUES

Most marine amoebae are so small that they require
the use of a compound microscope to be seen. Some are
so tiny or translucent as to be virtually invisible by
bright-field microscopy. The best means of observing

them is with a phase-contrast microscope of good quality
with 10X, 40X, and 100X objectives. Wide-field eye-
pieces of at least 10X magnifying power are very
beneficial, and a binocular microscope is much easier
and less tiring to use than a monocular one.

Amoebae tend to attach to and crawl on surfaces. They
are most easily found in organic detritus on the bottom of
a sample at the mud (sand) and water boundary. They
may also be squeezed out of detritus or plant material
more easily than they can be pipetted out of a sample.
The squeezed material may be agitated with a glass nee-
dle after a drop of it has been placed on a clean micro-
scope slide causing many amoebae to float out of the
debris. These "floaters" eventually settle to the slide
where they will resume a typical locomotive form. The
edges of the coverslip placed over the drop should be
sealed with petroleum jelly.

Observations should be made as soon as possible after
the samples are collected. Some marine amoebae sur-
vive transfer to the laboratory for only a few minutes to a
few hours after collection. Hardier species often may ap-
pear in large numbers after several days of culture, and
others may appear and disappear at intervals for several
weeks.

COMMON PROBLEMS IN DETERMINING
THE IDENTITY OF MARINE SARCODINA

Most major taxa of marine Sarcodina are in need of
reexamination with modern equipment such as phase
contrast and electron microscopic techniques. Descrip-
tions based on specimens grown in pure clonal culture
also are highly desirable for species with several com-
mon morphological characteristics. We have attempted
to compose a key to the Amoebida to include both
morphological and ecological data, reinforced with ap-
propriate literature citations, which should enable most
investigators to recognize the principal genera and
species of marine forms. Certain genera and species
which so far have not been reported from marine
habitats, or from waters of the United States, are in-
cluded in the key to facilitate their identification should
they be discovered by other workers. Since amoebae
probably have received less comprehensive treatment
than other groups of marine Protozoa, it would be short-
sighted for us to assume that the present key includes
most or all of the genera that are likely to be encoun-
tered in seawater samples. Rather, the marine amoebae
so far discovered in waters of the northeastern United
States possibly represent the "common" species which
have little or no niche specificity.

Protozoa from aquatic habitats other than fresh water
often are cited as being marine or brackish water species.
Natural disasters such as floods or hurricanes may cause
large intrusions of fresh water to dilute nearshore
brackish or high salinity waters to the extent that their
normal flora and fauna undergo shifts in species com-
position and abundance. Hurricane Agnes in the sum-
mer of 1972 had such a drastic effect on Chesapeake Bay,

Md., that large species of Testacea and Heliozoa, or-
dinarily found in fresh water, were present in bloom
proportions in the upper reaches of the bay. Historical
records showed that the water usually ranged from
5 to 10 %o salinity but dropped to 2-3%0 after the
hurricane. Thus, studies on brackish water protozoans in
Chesapeake Bay yielded unusual findings in late 1972
and illustrate the importance of knowledge of environ-
mental data before attempting to characterize the biota
of a typical brackish water habitat. Some of the species
of Testacea and Heliozoa encountered after the
hurricane are illustrated herein as atypical Sarcodina in
waters of the northeastern United States.

The increasing interest in marine Sarcodina may be
noted in recent literature concerning their role in
polluted and nonpolluted waters, in marine food webs, as
parasites of marine hosts, and their suitability as models
for study in molecular and cellular biology. Biologists
who attempt to isolate and culture marine Sarcodina for
study are likely to find genera and species that previously
have not been reported from waters of the United States,
including some which may belong to the Testacida,
Foraminiferida, Proteomyxida, etc. — groups which are
not included in the present key. Standard texts on the
Protozoa are adequate for determining the appropriate
class or order of most marine protozoans; however, there
remains a major need for new keys to marine Sarcodina
other than the Amoebida.

While the present key was in preparation an excellent
key to freshwater amoebae was published by Page (1976)
which included culture procedures and observational
techniques. Page (1976) also provided several important
references to recent publications on freshwater and soil
amoebae, and includes a proposed reclassification of the
subclass Gymnamoebia Haeckel, 1862. We accept the
families Mayorellidae, Paramoebidae, and Coch-
liopodiidae as valid taxa while Page abolishes Mayorel-
lidae and excludes Cochliopodiidae from the Amoebida.
No attempt is made here to resolve or dispute existing
problems in the taxonomy or systematics of the
Amoebida. We have prepared the key to assist the user in
determining the correct genera and species of marine
amoebae with the idea that higher taxa be a matter of in-
dividual preference. A useful background on the tax-
onomy and systematics on the principal genera of
amoebae may be obtained from the following pub-
lications, Greeff (1866, 1874), Chatton (1910), Volkonsky
(1931), Singh (1952), Page (1967a, 1967b, 1968, 1969,
1972b, 1975, 1976), Bovee (1970), Singh and Das (1971),
Bovee and Jahn (1973), Jahn et al. (1974), Sawyer and
Griffin (1975).

GLOSSARY

acentriolar Lacking a centriole at the poles of the mitotic

spindle during cell division.
algivorous Feeding on algae or diatoms.
amphosome A "secondary body" adjacent to the nucleus

of amoebae in the family Paramoebidae Poche.

1

r *

#

w ' 4

■' ' .< Wi

Figure 1. — Heliozoa and Testacea from upper Chesapeake Bay, Md., on protargol-stained cover slips, X5G0. A. Acanthocystia sp.

B. Actinophry8 sp. C. Centropyxis sp. D. Difflugia sp.

chromatin granules Small darkly staining granules
usually displaced peripherally under the nuclear mem-
brane.

chromatoid body Elongate refractile rod-shaped bodies
which stain deeply with hematoxylin; often seen in
cysts of Entamoeba.

clavate Club-shaped.

commensal An association in which an organism, the
commensal, is benefited, while the host is neither
harmed nor benefited.

cruciform Shaped like a cross.

cyst A stage in the life cycle of certain Protozoa in which
a one- or more-layered membrane protects it during
periods of inactivity; may resist dessication.

cytivorous Feeds on cells or tissues of other organisms.

dentate Having a toothlike form.

digitate Having a fingerlike form.

ectocyst The outer layer or membrane of a cyst.

ectoplasm The outer clear, nongranular protoplasm of
an amoeba.

endocyst The inner layer or membrane of a cyst.

endoplasm the inner, granular protoplasm of an amoeba.

endosome The distinct inner mass of a nucleus of an
amoeba, often called a nucleolus; may be spherical or
fragmented.

filopod A slender thread- or needlelike pseudopod.

filose Like a needle or a thread.

flagellipod A slender, motile pseudopod which resembles,
but is not, a flagellum.

flagellum A slender, fibrous, undulating or flexible or-
ganelle of a protozoan; used in swimming.

helical Coiled, as if around a cylinder.

hemolymph The internal fluids of an insect, crustacean,
or other invertebrate metazoan.

herbivorous Feeds on plant materials.

light -re fractile The ability of an object to bend light rays
as they pass through it.

limaciform Shaped like a slug or snail's foot.

linguliform Shaped like a tongue.

lobopod A wide, rounded pseudopod; lobe-shaped.

lobose Like a lobe.

mesomitotic Type of nuclear division in which the nu-
cleolus (endosome) dissolves as the spindle forms. The
nuclear membrane disappears prior to telophase and
centrioles are absent.

metamitotic Similar to mesomitosis but the nuclear
membrane dissolves as the spindle forms. Centrioles or
centriolelike bodies are formed.

morulate Shaped like a berry, a cluster of more or less
globular parts.

multiform Having many forms.

nucleolus A compact mass of material within the nu-
cleus of a cell.

omnivorous Feeds on a variety of plant or animal foods.
operculum A plug or cap which covers an opening

through the membrane(s) of a cyst.
palmate Having the form of a hand and fingers.
populate Having many small, rounded projections.

paranuclear Located beside the nucleus (the ampho-
some of Paramoeba, for example).

pathogen Any organism which causes a disease.

pelagic Floating in a moving current of water.

pharopod A flat, wide, clear, ectoplasmic pseudopod.

plasmalemma That part of the living ectoplasm which
serves as a covering for the body of an amoeba.

polygonal Having many sides.

polymorphic Having more than one form.

promitotic A type of nuclear division in which the nu-
cleolus (endosome) divides to form two polar caps,
membrane is intact throughout nuclear division (as
applied to amoebae).

pseudopod Any extension of cytoplasm which is used in
locomotion or feeding.

punctate Marked with many points or dots, or having
many points or depressions.

ramose Branching or having branches.

Sarcodina Those Protozoa which form pseudopods used
in locomotion and feeding.

saprozoic Feeding by absorption of dissolved material.

scur A pseudopod shaped like a flake or a scale.

serrate Having form like a row of saw teeth.

shell An external covering of organic material with at-
tached or imbedded mineral material.

secondary nucleus A questionable term for an ampho-
some or paranuclear body; adjacent to the nucleus of
certain amoebae.

subspherical Oblate; not quite, but nearly spherical.

symbiont An association of two species of organisms that
is mutually beneficial.

test An external, usually close fitting, covering of inor-
ganic or organic material; usually with a small opening.

truncated Having the top or tip absent or removed.

uroid The posterior trailing protoplasm of an amoeba in
active locomotion; bulbous, morulate, filose, filamen-
tous, etc.

vesicle Any globular structure in the cytoplasm which is
separated from the cytoplasm by a membrane; may
contain fluid, food, minerals.

vesicular Like a vesicle.

water-expulsive vesicle That vesicle which collects water
from the cytoplasm and expels it; also known as a pul-
sating vesicle or a contractile vacuole.

KEY TO FAMILIES, GENERA, AND SPECIES OF MARINE AMOEBAE

The diagnostic characters used in the couplets do not stand alone as singular distinctive features. Lobose, filose, or
conical pseudopods may be common to more than one family or genus and are used in various combinations with other
diagnostic features to provide a specific diagnosis. Thus, a primary character may be assigned to both members of a cou-
plet when the members are closely related, and secondary characters are used to distinguish them from one another.

1 Body naked with pseudopods monopodial, polypodial, or transient and indefinite in number;
lobose, conical, filose, or broad and variably discoid, ovoid, or ellipsoid. Uninucleate, or multi-
nucleate with nuclear endosome entire or fragmented. Cysts present or absent, with or without
operculae 2

1 Body naked with dorsal surface covered with microscopic granules produced via Golgi appara-
tus. Anterior and posterior margins smooth or with delicate thin pseudopods. Shape usually
discoid or broadly ovate, little change in shape during locomotion Cochliopodiidae ... 45

1 Body naked, polymorphic in locomotion with pseudopods forked, branched, or plasmodial. In-
dividual pseudopods blunt-tipped, lobose, or broadly tapered. Mononucleate or multinucleate
Stereomyxidae ... 46

(/) Body in locomotion tubulate, limaciform, palmate, or clavate. Pseudopods few to many, lobose
and more or less eruptive; clear or with clear hyaline caps. Posterior uroid temporary, semiperma-
nent, or absent. Uninucleate, or multinucleate, with endosome entire or fragmented. Two to four
flagella are transient in a few genera; cysts present or absent

2 (1) Body in locomotion triangulate, ovate, or ellipsoidal. Pseudopods one to many, conical, spiny,
filose, or hemispherical and smooth with longitudinal ridges or temporary transverse ripples or
waves. Uroid present or absent. Uninucleate, rarely binucleate, endosome entire or fragmented

18

3 (2) Body in locomotion tubulate or cylindroid with rounded lobose pseudopods, usually polypodial.
Shape palmate to clavate in locomotion, pseudopods granular with clear hemispherical tips.
Uroid temporary. Uninucleate with submembranal endosomal granules, or rarely multinucleate,
or with central endosome. Flagella and cysts absent Amoebidae ... 4

3 (2) Body in locomotion more or less tubular, limaciform; pseudopods granular, more or less hemi-

spherical and eruptive. Uroid semipermanent. Uninucleate, or multinucleate, with or without

central endosome 8

4 (3) Pseudopods multiple, tubulate, rarely ridged; do not meld at bases during locomotion; one

serves as main channel of protoplasmic flow. Usually uninucleate; nucleus discoid, without

central endosome Amoeba lescherae

Figure 2.

-Amoeba lescherae: A — locomotive, with uroid; B-
after Taylor and Hayes (1944).

-locomotive, without uroid;

Amoeba lescherae

Size: Rounded, about 300^m diameter; polypodal in locomotion, 250 to 400 nm long, 200 to 300 Mm wide; clavate in
locomotion, 500 to 600 /jm long, 100 to 150 nm wide. Pseudopods: Cylindroid, rarely ridged, slightly tapered with dis-
tinct, clear caps, tips. Uroid: Temporary, lobate. Ectoplasm: Clear 4 to 5^m thick over entire body; thicker at uroid
and at pseudopodial caps. Endoplasm: Granular, cascades over pseudopodial tip during advance. Nucleus: Ellipsoid,
sometimes twisted, 30 by 50 ^m with granules adjacent to membrane, with a clear, oval or band-shaped endosomal
mass. Vesicles: Few, small, 8 to lOf^m diameter; water-expulsive vesicle, when present, 40 to 50^ m diameter. Crys-
tals: Square, prismatic, or deeply truncated bipyramids, 1.0 to 2.0 y.m square. Cyst: Gelatinous, 30am diameter.
Feeding: A scavenger, on detritus. Habitat: Marine, brackish tide pools. Distribution: Known from British Isles;
probably widely distributed. References: Morphology; ecology; description; Taylor and Hayes (1944).

4 (3) Pseudopods few or multiple, cylindroid; one or more serve as main channel of protoplasmic flow.

Uroid temporary or absent. Uninucleate or multinucleate, with or without central endosome 5

5(4)

5(4)

Pseudopods multiple with conspicuous ridges or grooves in the ectoplasm; do not meld at bases.
Endoplasm filled with bipyramidal crystals. Multinucleate, without central endosome. No
marine species known

Chaos

Pseudopods few, without ridges or grooves extending into ectoplasm; may or may not meld at
bases. One or more pseudopods serve as main channel of protoplasmic flow. Uninucleate with or
without central endosome 6

6 (5) One large pseudopod functions as main channel of protoplasmic flow. Granular endoplasm fills
entire amoeba except for extreme tips of pseudopods; pseudopods do not meld at bases. Nucleus
without central endosome. No marine species known Metachaos

6 (5) One or more large pseudopods serve as main channel of protoplasmic flow; pseudopods may or

may not meld at bases, without ridges or grooves. Uninucleate, with or without central endosome 7

7 (6) Pseudopods meld at bases, one or more serves as main channel of protoplasmic flow. Uninu-

cleate without central endosome. No marine species known Polychaos

7 (6) Pseudopods do not meld at bases, subcylindrical, not ridged. Mononucleate with central endo-

some. Parasites of coelenterates (Hydra). No marine species known Hydramoeba

8 (3) Uroid semipermanent. Uninucleate or multinucleate, without central endosome. Often with

bacterial symbionts or containing particles of organic matter Pelomyxidae . . . 9

8 (3) Uroid more or less permanent, or absent. Uninucleate with central endosome. No apparent bac-
terial symbionts 10

9 (8) Large, multinucleate, nuclei without central endosome. Usually with bacterial symbionts

Pelomyxa ostendensis

Figure 3. — Pelomyxa ostendensis: A — rounded, at rest; B — active,
flattened; C, D — locomotive, "sausage" forms; after Kufferath
(1952).

20 jum

Pelomyxa ostendensis

Size: Rounded, 25 to 30,um diameter; locomotive, like a truncated cone 35 to 40 [j.m long, 28 to 30> m diameter an-
teriorly. 20 to 22um diameter at rear, or sausage-shaped 45 to 50 (*m long, about 20[xm diameter anteriorly, about 15[xm
diameter at rear. Pseudopods: Eruptive, clear hemispheres formed anteriolaterally, invaded and filled by granular
endoplasm; no others formed. Uroid: Not described. Ectoplasm: Distinct, clear, about 2m m thick over entire body. En-
doplasm: Very granular. Nucleus(i): Multinucleate, described as obscured by granules and food vesicles. Vesicles:
Numerous, mainly food vesicles of various sizes to lOpim or more diameter; no water-expulsive vesicle. Cyst: None
known. Feeding: Herbivorous, on algae. Habitat: Marine; coastal tide pools. Distribution: Known from west coast of
Europe, Atlantic Ocean, and North Sea, probably more widely distributed. References: Kufferath (1952).

9(8)

Large, uninucleate with central endosome; no apparent symbionts Trichamoeba schaefferi

Figure 4. — Trichamoeba schaefferi: A, B — locomotive; C — at rest; after Radir (1927).

Trichamoeba schaefferi

Size: Subspherical, 150 to 175Mm; polylobate, 175 to 250Mm; clavate, 225 to 300nm. Pseudopods: Semi-eruptive lobes.
Uroid: Semipermanent bulb or group of small lobes. Ectoplasm: Thin; distinct. Endoplasm: Clear; agranular.
Nucleus: Spherical; 30 [xm; with cup-shaped cluster of endosomal granules. Water-expulsive vesicle: None. Food
vesicles: Rare. Crystals: As truncated pyramids in pairs with smaller ends apposed. Cyst: Unknown. Feeding: Her-
bivorous; eats diatoms. Habitat: Marine; in quiet bays and estuaries. Distribution: Known from Pacific coastal waters,
United States, California, probably widely distributed. References: Morphology; description; Radir (1927).

10 (8) Body more or less clavate or variable. Uroid bristlelike or papulate, more or less permanent, or

absent Saccamoebidae ... 11

10 (8) Body elongate and more or less cylindrical or flattened. More or less monopodial with clear erup-
tive pseudopods. Uroid filamentous or absent. Nuclear division mesomitotic or promitotic.
Forms resistant cysts. Flagellate stage present or absent 12

11(70) Body clavate, uroidal filaments bristlelike when present Saccamoeba . . . A

A (11) Uroid bristlelike S. gumia

A (11) Uroid papulate S.fulvum

Figure 5.— Saccamoeba gumia: A, B— locomotive; after Schaeffer (1926).

Saccamoeba gumia

Size: Locomotive, 60 to lOOp m long; 30 to 40/U m wide. Pseudopods: Eruptive, at anterior end in locomotion. Uroid:
Semipermanent, with bristlelike filaments to 10p m long. Ectoplasm: Smooth; thin; clear. Endoplasm: Granular; fluid.
Nucleus: Spherical; 12/u m diameter; with endosome, 7 to 10/j m diameter, central. Water-expulsive vesicle: None.
Other vesicles: Few; clear; to lO^m diameter. Crystals: None. Cyst: Unknown. Feeding: Herbivorous, on algae.
Habitat: Marine; in tide pools. Distribution: Known from Atlantic coastal waters, United States. References:
Morphology; ecology; description; Schaeffer (1926).

Figure 6.

-Saccamoeba fulvum: A — afloat; B — locomotive; C — at
rest; after Schaeffer (1926).

100 jam
Saccamoeba fulvum

Size: Rounded, 40nva; radiate, body 20Mm, pseudopods 20 to SOfim long; clavate, 50 to 70jum long by 25 to 30Mm wide.
Pseudopods: Locomotive, as short, blunt lobes; of radiate state, cylindroid with rounded ends. Uroid: Temporary,
papulate. Ectoplasm: Smooth, clear. Endoplasm: Flocculently granular. Nucleus: Spherical, 9 pm diameter; central
endosome dense, 7 pm diameter. Water-expulsive vesicle: None. Crystals: None. Cyst: Unknown. Food vesicles: 2 to
5pm diameter; contain brown granules. Feeding: Herbivorous, on diatoms. Habitat: Marine. Distribution: Known
from Atlantic coastal waters, United States. References: Morphology; description; Schaeffer (1926).

11 (10) Body variable, triangulate or fan-shaped to clavate or subcylindrical. Uroidal filaments pro-
nounced and more or less adhesive Rhizamoeba ... A

A (11) Uninucleate or multinucleate R. polyura

A (11) Uninucleate B

A

Figure 7. — Rhizamoeba polyura: A — biextended form; B — morulate, afloat;
C — attached, contracted; D — beginning locomotion; E, F — locomotive, with
uroid; G — locomotive, without uroid; after Page (1972a).

50 jam

Rhizamoeba polyura

Size: Contracted, irregular 30 to 100 pm across; rounded, afloat, 22 to 43p m diameter; locomotive, club-shaped, 25 to
135p m long (mean, 75p m), 20 to 30 (im broad near anterior end, tapered to 6 to 12pm wide, at rear end. Pseudopods:
Eruptive, granular, hemispherical, at anterior end, or at periphery of nonlocomotive state. Uroid: Temporary, clear,
rounded, 6 to 12p m with attached, stretched, tapered filaments 10 to 12pm long. Similar filaments at periphery of con-
tracted nonmotile stage. Ectoplasm: Clear, glossy, forms uroid and eruptive state of pseudopods. Endoplasm:
Granular, fluid. Nucleus: Spherical, 5 to 6p m diameter, with central endosome 2.5 to 3.5pm diameter, both elastic, dif-
ficult to see; division acentriolar, mesomitotic; sometimes bi- to multinucleate; endosome may have adjacent granular
mass. Vesicles: Few, small. Crystals: None; but many granules, about 1.0 to 2.0pm, in endoplasmic rows. Cyst:
Unknown. Feeding: Bactivorous. Habitat: Marine; shallow estuaries. Distribution: Known from Atlantic coastal
waters, United States, Virginia to Maine. References: Morphology; ecology; description; Page (1972a).

B(A) Uninucleate, nucleus lOp m in diameter R. pallida

B(A) Uninucleate, nucleus 3.5p m in diameter R. sphaerarum

Figure 8.— Rhizamoeba pallida: A— afloat, radiate; B— flattened, contracted; C, D-
locomotive, with uroid; after Schaeffer (1926).

50 wm

Rhizamoeba pallida

Size: Rounded, about 30 (itn; locomotive, clavate, 50 to 60pm long by 25 to 30p m wide. Pseudopods: Slowly eruptive, at
anterior end in locomotion. Uroid: Always present in locomotion, as several fine, ectoplasmic filaments 3 to 12pm long.
Ectoplasm: Thin, clear, as thin anterior cap and as uroidal bulb and filaments. Endoplasm: Finely granular, with a few
granules 1 to 2pm. Nucleus: Spherical, 10p m, with distinct central endosome, 5pm. Vesicles: Several food vesicles 3 to
8^m diameter; no water-expulsive vesicle. Crystals: None. Cyst: Unknown. Feeding: Bactivorous. Habitat: Marine;
shallow coastal waters. Distribution: Known from Gulf of Mexico and Atlantic coastal waters, United States.
References: Morphology; ecology; description; Schaeffer (1926).

Figure 9.— Rhizamoeba sphaerarum: A— rounded, at rest; B, C— locomotive, with uroid; after

Schaeffer (1926).

20 jum
Rhizamoeba sphaerarum

Size: 8 to lip m diameter; locomotive, clavate, 20 to 30pm long by 10 to 15p m wide. Pseudopods: Eruptive waves at
anterior margin. Uroid: Nearly always present in locomotion, of posterior ectoplasmic filaments 2 to 5pm long, less than
0.5pm diameter. Ectoplasm: Clear, glossy, thin. Endoplasm: Clear, finely granular; about 50 to 100 other granules,
about 0.5 to 1.0pm diameter. Nucleus: Spherical, 3.5 pm diameter; endosome indistinct. Vesicles: Several food

10

vesicles, 1.0 to 4.5pm; no water-expulsive vesicle. Crystals: None. Cyst: Unknown. Feeding: Herbivorous, eats small
algae, bacteria. Habitat: Marine; shallow coastal waters. Distribution: Known from Gulf of Mexico and Atlantic
coastal waters, United States. References: Morphology; ecology; description; Schaeffer (1926).

12 (10) Nuclear division mesomitotic; paranuclear amphosome present or absent. Flagellate stage ab-
sent. Cysts without operculae Hartmannellidae ... 13

12 (10) Nuclear division promitotic. Flagellate stage present or absent. Ectocysts with or without oper-
culae Vahlkampfiidae ... 16

13(22) Nuclear division mesomitotic, paranuclear amphosome absent; uninucleate. Cysts smooth . . Hartmannella

Figure 10. — Hartmannella tahitiensis: A — two amoebae in the intestinal epithelium of an oyster;
B-E— active amoebae, stained; after Cheng (1970).

20 jum

Hartmannella tahitiensis

Size: Rounded 6 to 10pm; locomotion, clavate to triangulate, 8 to 13pm long by 4 to 10/im wide. Pseudopods: More or
less lobose, eruptive, clear. Uroid: None. Ectoplasm: Clear, as anterior one-fourth to one-third of locomotive body and
pseudopods. Endoplasm: Finely granular. Nucleus: Spherical, 2. Op m, with endosome 0.8 to 1.0pm (with or without a
peripheral layer of fine granules). Vesicles: Several, with food, 1.5 to 3p m diameter. Crystals: None; but several en-
doplasmic granules, 0.5 to 1.0pm. Cyst: Unknown. Feeding: Bactivorous; cytivorous. Habitat: Reported from gut of
moribund oysters, Crassostrea commercialis. Distribution: Reported from Tahiti; perhaps worldwide. References:
Morphology; ecology; etiology; description; Cheng (1970).

13(72) Similar to Hartmannella but binucleate. Meiosis present or absent in cysts 14

14(13) Binucleate in locomotive form and cyst. No meiosis within cysts. No marine species known . . Hartmannina

14 (13) Similar to Hartmannina, meiotic division within cysts, or absent. Paranuclear amphosome

present or absent 15

15 (14) Meiotic division within cysts. Paranuclear amphosome absent. No marine species known Glaeseria

15 (14) Similar to Hartmannella but paranuclear amphosome present. No meiotic divisions, cysts un-
known. Parasitic in chaetognath worms (Sagitta sp.) Janickina ... A

A(15) Endoplasm strongly granular, many vesicles posteriorly J. pigmentifera

A(15) Endoplasm with few granules, vesicles few and dispersed J. chaetognathi

11

Figure 11. — Janickina pigmentifera: A — feeding; B, C — locomotive; after
Janicki (1912).

20 jum

Janickina pigmentifera

Size: Locomotive, 25 to 50p m long when clavate, average length 34pm; radiate, body 25p m diameter; with pseudopods,
to 50pm diameter. Pseudopods: Locomotive, more or less eruptive lobes; radiate, stubby, rounded. Uroid: Temporary.
Ectoplasm: Thin, clear. Endoplasm: Strongly granular. Nucleus: 15 by 18p m, with adjacent, oval, paranuclear body
(amphosome), 9 by lip m, divides synchronously with nucleus; nuclear division, mitotic. Vesicles: Many, at rear. Cyst:
Unknown. Feeding: Commensal, saprozoic. Habitat: Testicle; marine chaetognath worms (Sagitta). Distribution:
With hosts in Atlantic Ocean and Mediterranean Sea. References: Morphology; ecology; distribution; Janicki (1912).

Figure 12. — Janickina chaetognathi: A, B — locomotive; C — rounded, at rest; after

Janicki (1912).

20 jam

Janickina chaetognathi

Size: Locomotive, 25 to 30fxm long, average 27pm; rounded, 20pm average diameter. Pseudopods: Locomotive, more or
less eruptive lobes. Uroid: Temporary, when present. Ectoplasm: Clear, as thin plasmalemma and eruptive
pseudopods. Endoplasm: Granular. Nucleus: Subcylindroid, 13 by 11 [xm, lacks endosome; with indistinct, elliptical,
adjacent, paranuclear body (amphosome), 9 by 7fxm, divides synchronously with nucleus; nuclear division, mitotic.
Vesicles: Few, refractile, dispersed. Cyst: Unknown. Feeding: Commensal, saprozoic. Habitat: Testicle; marine
chaetognath worms (Sagitta). Distribution: With host in Atlantic Ocean and Mediterranean Sea. References:
Morphology; ecology; distribution; division; Janicki (1912).

16 (12) Pseudopods eruptive and explosive, locomotion rapid. Ectocyst smooth or rippled. Flagellate

stage absent Vahlkampfia ... A

A(16) Uroidal filaments weak to absent V. baltica

A(16) Uroidal filaments in multiples B

12

Figure 13. — Vahlkampfia baltica: A — radiate, afloat; B — rounded, at rest; C, D — beginning
locomotion; E — two locomotive amoebae, with uroid; F — flattened well-fed forms; G — two
cysts; after Schmoller (1961).

20 jim

Vahlkampfia baltica

Size: Rounded, 8 to 9.5 p mdiameter; locomotive, monopodial, 17 to 20pm long by 4to5pm wide. Pseudopods: Eruptive
from anterior margin with thin barely recognizable hyaline border. Uroid: Absent. Ectoplasm: Clear, as thin plasma-
lemma and indistinct cap around pseudopods. Endoplasm: Finely granular and pale. Nucleus: Spherical, about 2.5 to 3
(im, distinct with spherical endosome. Vesicles: Few, containing bacteria; distinct water-expulsion vacuole. Crystals:
None. Cyst: Irregular shape with thin double wall, and 3, 4, or 5 shallow points; not typical of the genus Vahlkampfia.
Feeding: Bactivorous. Habitat: Marine; shallow coastal waters. Distribution: Known from European Atlantic waters.
References: Morphology; ecology; description; Schmoller (1961).

B(A) Filaments clear and slender, 5-15pm long V. salina

B(A) Filaments clear and small, 1-3 pm V. longicauda

Figure 14. — Vahlkampfia salina: A — rounded, at rest; B-D-

after Hamburger (1905).

■locomotive, with uroid; E — cyst;

20 jum

Vahlkampfia salina

Size: Rounded, 6 to 8pm; locomotive, more or less clavate, 8 to 12pm long by 6 to 8pm wide, with uroid to 25pm long.
Pseudopods: Eruptive, clear, hemispherical at advancing margin or periphery. Uroid: Several slender, clear filaments,
5 to 15 pm long, tapered from a base about 0.6pm diameter to barely visible tips, originating from a clear, posterior bulb
about 3/im diameter; uroid usually present. Ectoplasm: Thin, clear, except as pseudopods. Uroid: Uroidal bulb and
filaments present. Endoplasm: Finely granular. Nucleus: Spherical, about 2.5pm diameter, indistinct, with central en-
dosome about l.Op m diameter, also indistinct unless stained. Vesicles: Few, containing bacteria; no water-expulsive
vesicle. Crystals: None. Cyst: Smooth, spindle-shaped with terminal knobs, 6 by 4pm with visible nucleus, one or two
vesicles, few granules; bilaminar, terminal knobs part of ectocyst; endocyst spindle-shaped. Feeding: Bactivorous.
Habitat: Marine; shallow coastal waters, tidal pools. Distribution: Probably worldwide; known from Mediterranean
and Atlantic coastal waters of Europe and Atlantic coastal waters of United States. References: Description; Ham-
burger (1905).

13

Figure 15.-

-Vahlkampfia longicauda: A — beginning locomotion; B — rounded, at rest; C, D — loco-
motive, with uroid; after Schmoller (1964).

10 jam
Vahlkampfia longicauda

Size: Rounded, 5 to 11^ m diameter; locomotive, clavate, 7.5 to 20um long by 3 to 6jum wide, usually 10 to 15 by 4pm.
Pseudopods: Clear, eruptive, from anterior margin. Uroid: Usually present, as fine filaments, 1 to 3Mm long,0.3pm
diameter, barely visible. Ectoplasm: Thin, clear, as anterior clear zone, one-fifth to one-third body length, eruptive
pseudopods and uroidal filaments. Endoplasm: Finely granular. Nucleus: Spherical, about 1.0/j m diameter, with dis-
tinct endosome, 0.6pm diameter. Vesicles: Small, seldom present, 1.0 to 2.0pm diameter; no water-expulsive vesicle.
Crystals: Absent. Cyst: Unknown. Feeding: Bactivorous. Habitat: Marine; shallow coastal waters. Distribution:
Known from Atlantic coastal waters of Europe and United States. References: Morphology; ecology; description;
Schmoller (1964).

16 (12) Similar to Vahlkampfia but with a temporary amoeboflagellate stage 17

17(26) Two flagella in flagellate stage, cysts smooth with operculae. No marine species known Naegleria

17 (16) Similar to Naegleria, 4 flagella in flagellate stage. Amoeboflagellates of two different sizes. Cysts

without operculae Heteramoeba clara

Figure 16.— Heteramoeba clara: A— large flagellated form; B— small
flagellated form; C — large ameboid form; D— small, actively locomo-
tive form; E— feeding form; F— cyst; after Droop (1962).

Heteramoeba clara

50 jum

Size: Flagellate stage, rounded, 20 to 30 um, with collar and gullet, 2 flagella, each about 60 um long. Ameboid, rounded,
12 to 40am; locomotive, more or less elongated, clavate, 20 to 70um long by 10 to 30 um wide. Pseudopods: Clear, more
or less eruptive bulges from anterior margin in locomotion. Uroid: Often present as several clear filaments, 5 to 10 um

14

long from slightly bulbous rear end. Ectoplasm: Thin, clear, as anterior one-fifth to one-fourth of locomotive body and
eruptive pseudopods, uroidal bulb and filaments. Endoplasm: Clear, granular, many refractile granules 3 to 5(jim
diameter. Nucleus: Spherical to ovate, about 7p.m diameter; no endosome; chromatin in patches adjacent to nuclear
membrane; division promitotic. Vesicles: Many, as light-refractile bodies; no water-expulsive vesicle. Crystals: None.
Cyst: Round, 10 to 20p-m diameter; endocyst round, smooth, thick, no operculae; ectocyst, thin wrinkled, often torn.
Feeding: Herbivorous; on algae and bacteria. Habitat: Marine; shallow waters. Distribution: Known from Atlantic
coastal waters, Europe; possibly worldwide. References: Morphology; growth; division; description; Droop (1962).

18 (2) Body in locomotion variably triangulate or ovoid. Pseudopods few to many, conical or filose and
spiny; originate from advancing margin, body surfaces, or both. Posterior uroid temporary,
semipermanent, or absent. Mononucleate, rarely multinucleate, endosome round and distinct.
Division by mesomitosis or metamitosis. Paranuclear body ("Nebenkorper") adjacent to nu-
cleus, present or absent. Single transient flagellum present in one family. Cysts present or absent

.19

18 (2) Body in locomotion variably discoid, ovoid, triangulate, or trapezoidal. Monopodial with more

or less smooth anterior and posterior margins. Dorsal surface smooth or with longitudinal ridges
or folds, or transverse ripples or waves of clear protoplasm. Uroidal filaments few and delicate,
or absent. Usually uninucleate with spherical or fragmented endosome. Division mesomitotic
with nuclear membrane sometimes persisting until late anaphase. No flagellate stage. Cysts
usually absent 36

19 (18) Pseudopods clear, conical, pointed, with more or less blunt tips; usually long and slender on

body surface, broad based and short on clear advancing margin. Nucleus vesicular with spheri-
cal endosome, and adjacent, dense, paranuclear body. Free living or parasitic in decapods. Cysts
and flagellates absent Paramoebidae ... 20

19 (18) Pseudopods clear, elongate and conical, or short and spiny. Nucleus spherical with distinct
endosome; dense paranuclear body absent. Cysts present or absent. Flagellate stage in one
family 21

20(79) With characters of the family, free living A

A(20) Large (70 to 90 t*m); feeds on diatoms Paramoeba eilhardi

A(20) Small(10to40p.m);bactivorous B

Figure 17 .—Paramoeba eilhardi: A, B— locomotive forms; after Grell (1961).

100 jum

Paramoeba eilhardi

Size: Rounded, 40to50[jim diameter; locomotive, 70 to 90pm long by 50 to 65 pm wide, temporarily to 100 pm long by 20
to 30pm wide. Pseudopods: From advancing clear margin, usually in pairs, 5 to 10 pm long, 3 to 5pm basal diameter
tapered to tips 2pm diameter. Uroid: Temporary, if present. Ectoplasm: Clear, distinct at anterior margin. En-
doplasm: Vesicular and granular. Nucleus: Spherical, 6 to 7pm, with central endosome, 4pm diameter; with one to
three secondary, dense, ovoid paranuclear units, 8 by 4pm, possibly parasites adjacent to true nucleus. Vesicles: Many,
2 to 4p.m diameter; no water-expulsive vesicle. Cyst: Reported as mucilaginous. Feeding: Herbivorous, on algae.

15

Habitat: Marine; in coastal waters. Distribution: Known from European Atlantic coast, and Atlantic coast of the
United States. References: Morphology; description; ecology; division; Schaudinn (1896), Grell (1961).

B(A) Small (20 to 40p:m); resembles Mayorella P. pemaquidensis

B(A) Smaller than P. pemaquidensis (10 to 20/um); resembles a duck's foot P. aesturina

Figure 18. — Paramoeba pemaquidensis: A, B — radiate, afloat; C — beginning
locomotion; D, E — actively locomotive; after Page (1970b).

20 jum

Paramoeba pemaquidensis

Size: Contracted, irregular, about 10 pi m across; afloat, irregular 7 to 10 /j m; radiate, body mass 8.5 pi m diameter, with
pseudopods to 60 pm across; locomotive, 14 to 37. 5 pm long (mean, 21/" m) by 12 to 48pm across, usually longer than
broad. Pseudopods: Of radiate stage, 25 to 30pm long, usually straight, sometimes twisted, tapered, 3.0pim basal
diameter to 2.0pi m diameter at rounded tips; locomotive stage, from clear, anterior margin, bluntly conical, 3 to 6pm
long. Uroid: Temporary, morulate, of old pseudopods. Ectoplasm: Clear, forms anterior margin and pseudopods. En-
doplasm: Clear, granular. Nucleus: Spherical, 3.5 to 5pm, with central endosome 2.0 to 2.5pim diameter; division,
mesomitotic; with attached, paranuclear structure 2.5 to 3.5 p m. Vesicles: Several, 2 to 3 pi m, contain bacteria. Crys-
tals: None. Cyst: Unknown. Feeding: Bactivorous. Habitat: Waters of sandy beaches; marine. Distribution: Known
from Atlantic coastal waters, United States, Virginia to Maine. References: Morphology; ecology; description; division;
Page (1970b).

Figure 19. — Paramoeba aesturina: A — radiate, afloat; B — extended on substrate; C — extended,
active form; D — fan-shaped, locomotive form; after Page (1970b).

20 jum

Paramoeba aesturina

Size: Rounded, 8 to 10 fx m across; afloat, irregular 10 to 12 pi m across or radiate, body mass 7 to 8pi m diameter, with
pseudopods to 60 p< m across; locomotive, 10 to 20 pi m long by 7 to 14pim wide, mean length about 13.5pim. Pseudopods:
Of radiate stage, 20 to 25p< m long, tapered, about 1.5pim basal diameter to about l.Opi m at tips; of locomotive stage, 1.5

16

to 3.5p m long, bluntly conical 1.5 to 2. Op m wide, from anterior clear margin. Uroid: Temporary, bulbous or morulate, of
old retracted pseudopods. Ectoplasm: Clear, forms distinct anterior border and pseudopods. Endoplasm: Granular,
clear. Nucleus: Spherical, 2.5 to 3pm, with central endosome 1.0 to 1.5pm diameter; division, mesomitotic; has at-
tached, dense, secondary paranuclear structure 1.5 to 2.5 pm. Vesicles: Few, small. Crystals: None. Cyst: None.
Feeding: Bactivorous. Habitat: Marine; coastal salt marshes. Distribution: Known from Atlantic coastal waters,
United States, Virginia to Maine. References: Morphology; ecology; division; description; Page (1970b).

20(29) With characters of the family, parasitic Paramoeba perniciosa

Figure 20. — Paramoeba perniciosa:
after Sprague et al. (1969).

20 jm

Paramoeba perniciosa

Size: Rounded 15 to 20p m; locomotive, 40 to 50pm long by 30 to 50pm wide. Pseudopods: Few, one to three at anterior
margin as clear, blunt, conical or tonguelike lobes of clear ectoplasm, 3 to 5p m long. Uroid: None. Ectoplasm: Clear.
Endoplasm: Vesicular and granular. Nucleus: Spherical, 3pm diameter with central endosome 1.75p m diameter; also
with ovoid, dense, secondary paranuclear unit, 3 by 1.5pm, possibly parasitic, adjacent to true nucleus. Vesicles: Many,
1.5 to 3pm diameter; no water-expulsive vesicle. Cyst: Unknown. Feeding: Parasitic; perhaps cytivorous. Habitat:
Hemolymph of blue crab, Callinectes sapidus; marine coastal waters, Atlantic coast, United States. Distribution:
Known from Virginia and Maryland, probably more widely distributed. References: Parasitism; Sprague and Beckett
(1966); physiology; pathogenicity; Sawyer (1969); taxonomy; description; distribution; Sprague et al. (1969).

21 (19) Pseudopods clear and conical, more or less broad based and short to elongate; rigid or waving.

Monoflagellate stage present or absent. Do not form cysts 22

21 (19) Pseudopods numerous, short and spiny; originate from advancing margin, body surface, or both.

Cysts smooth or wrinkled, with or without operculae. No flagellate stage 32

22(21) Single, long, anterior flagellum present Mastigamoebidae

Figure 21. — Mastigamoeba aspera: A — ameboid form with flagel-
lum; B — ameboid form without flagellum; after Page (1970a).

50 ym

17

Mastigamoeba aspera

Size: Rounded, 45 to 50p m; locomotive, 75 to 150pm long; clavate, broadest near the rear, 30 to 50 pm, narrow near
anterior end, 20 to 30/um. Pseudopods: Many, formed at anterior end, clear, conical, round-tipped, extend to 20 to 25pm
long, 3jjmat base tapered to pointed tips, moved along body basally to rear; absorbed. Often with many attached bac-
teria along pseudopodial lengths. Also, usually, one flagellum present, 20 to 25 p m long. Uroid: Temporary, of retract-
ing pseudopods at rear. Ectoplasm: Clear; as rounded anterior end and pseudopods. Endoplasm: Clear; granular.
Nucleus: Spherical, 10 to 15 ju m, with central endosome 8 to 10p m diameter. Vesicles: Many food vesicles, 5 to 20p m
diameter; many chromatophores of prey in small vesicles; water-expulsive vesicle 16 to 22 p m in fresh water; absent in
seawater. Crystals: None, when amoeba in seawater. Cyst: Unknown. Feeding: Herbivorous; eats algae. Habitat:
Freshwater or marine; in shallow pools. Distribution: Known from estuarine tide pools, Atlantic coast, United States
(Maine); probably cosmopolitan. References: Description; Schulze (1875); marine; ecology; Page (1970a).

22 (21) Flagellate stage absent Mayorellidae ... 23

23 (22) With characters of the family. Elongate rigid pseudopods from body surfaces, do not swing in an

arc. Pseudopods of radiate stage stellate, more or less rigid Mayorella . . . A

A(23) Length less than 100p m, crystals present B

A(23) Length 30-170pm, crystals absent C

B(A) Length 25-30p m, crystals few M. crystallus

B(A) Length 40-50pm, crystals numerous M. gemmifera

Figure 22.— Mayorella crystallus: after Schaeffer (1926).

25,um

Mayorella crystallus

Size: Locomotive, 25 to 30pm long. Pseudopods: From clear anterior end and body surface; clear, slightly tapered with
rounded ends; 2 to 10p m long, 2 to 3^m basal diameter, tips about l.Oju m diameter. Uroid: None. Ectoplasm: Clear,
thin; distinct at advancing margin. Endoplasm: Flocculent; grayish. Nucleus: Spherical, 6 to 8pm diameter; with cen-
tral endosome, 3 to 4pm diameter. Vesicles: None. Granules: None. Crystals: Several; square, thin, 3 by 3 by 1.0pm.
Feeding: Carnivorous; eats small flagellates. Habitat: Marine; coastal waters. Distribution: Known from Gulf of Mex-
ico, Florida, U.S.A. References: Morphology; distribution; description; Schaeffer (1926).

Figure 23.— Mayorella gemmifera: A— radiate, afloat; B— wrinkled, at rest; C— ac-
tively locomotive; after Schaeffer (1926).

50 jam

18

Mayorella gemmifera

Size: Locomotive, 40 to 50 /j m long. Pseudopods: Locomotive; few, short, bluntly conical, from clear, anterior wavelike
bulges; long, slender in radiate stage. Uroid: None. Ectoplasm: Clear; distinct at anterior, advancing margin. En-
doplasm: Finely granular. Nucleus: Spherical, 10/-im diameter; with central endosome, 5^m diameter. Water-expul-
sive vesicle: None. Food vesicles: Usually present. Other vesicles: Few; form and shrink. Crystals: Many; about 1.0
n m long, probably bipyramidal with bases apposed. Cyst: Unknown. Feeding: Herbivorous, on algae. Habitat: Marine;
in warm, coastal waters. Distribution: Known from Gulf of Mexico, Florida, U.S.A. References: Morphology; ecology;
description; Schaeffer (1926).

C(A) Length over 100/um, no crystals M. conipes

C(A) Length lOOyu m or less, no crystals D

Figure 24. — Mayorella conipes: A — afloat, radiate; B, C, D — loco-
motive; after Schaeffer (1926).

100 jam

Mayorella conipes

Size: Rounded, 30 to 40a< m; radiate, body 20 to 30 ^m, with pseudopods, to 70 /um; locomotive, 100 to 170 n m long.
Pseudopods: Clear, conical, with rounded tips; 5 to 20 Aim long, basal diameter 3 to 10/im, tips 1 to 3 Aim. Ectoplasm:
Clear, distinct at anterior end. Endoplasm: Granular. Nucleus: Spherical; 10 to 20pm diameter, with central endosome
4 to 9(im diameter; division mitotic. Uroid: None. Water-expulsive vesicle: None. Food vesicles: Usually present, to 5
jjm diameter. Crystals: None. Feeding: Herbivorous, on algae. Habitat: Marine; in coastal waters. Distribution:
Known from Atlantic coastal waters, United States, Florida to New York. References: Morphology; ecology; descrip-
tion; Schaeffer (1926).

D(C) Length 50- 100 pm; nucleus 5/im in diameter M. corlissi

D(C) Length 30-40m m; nucleus indistinct M. smalli

19

Figure 25. — Mayorella corlissi: A — radiate,
afloat; B — beginning locomotion after floating;
C, D — locomotive forms; after Sawyer (1975a).

50 jum

Mayorella corlissi

Size: Locomotive, 50 to 100 p long (mean 60pm); width 28 to 40pm (mean 34pm). Radiate stage with 8 to 12 tapered
pseudopods; body globular, about 20pm diameter; with pseudopods to 90 p m tip to tip. Pseudopods: Locomotive, clear
from clear anterior margin, 4 to 7p m long, 3 to 4pm basal diameter, 1.5 to 2^m diameter at rounded tips. Of radiate
stage, clear, 30 to 35p m long, basal diameter 3 to 4pm, at tips about 0.5 pm diameter. Uroid: Temporary. Ectoplasm:
Clear, thin; distinct at advancing end as clear margin. Endoplasm: Granular; vesiculated in locomotive stage. Nucleus:
Spherical, 5pm diameter; with central endosome, 3p m diameter. Water-expulsive vesicle: None. Crystals: None.
Food vesicles: Usually present. Other vesicles: Usually present; sometimes numerous. Cyst: Unknown. Feeding: Her-
bivorous, on algae. Habitat: Marine; shallow waters of bays and estuaries. Distribution: Known from Virginia (Chin-
coteague Bay) to Massachusetts (Salt Pond at Woods Hole). References: Morphology; ecology; distribution; Sawyer
(1975a).

Figure 26.— Mayorella smalli: A, B, C— locomotive forms; after Sawyer (1975a).

25 ;om
Mayorella smalli

Size

strate

: Locomotive, 30 to 40p m long, 10 to 15p m wide, limaciform. Pseudopods: Clear, conical, in contact with sub-
;e, 1 to 2p m diameter at base, about 1.0/j m at tip, may spread to 2.0/um at tip when contacting substrate. Uroid:

20

Temporary. Ectoplasm: Clear, evident at bases of pseudopods. Endoplasm: Finely granular. Nucleus: Not described.
Vesicles: Not described. Crystals: None described. Cyst: Unknown. Feeding: Probably bactivorous. Habitat: Marine
bays. Distribution: Atlantic coast of United States, Virginia, northward, extent unknown. References: Morphology;
ecology; Sawyer (1975a).

23 (22) With characters of the family, similar to Mayorella but with multiple, elongate, pseudopods as

long as or longer than body mass 24

24 (23) Elongate pseudopods swing laterally from bases during retraction Vexillifera ... A

A(24) Length less than 50pm; bactivorous B

A(24) Length 60-80pm; herbivorous V. aurea

Figure 27. — Vexillifera aurea: A— rounded, at rest;
B-E— locomotive; after Schaeffer (1926).

100 jim

Vexillifera aurea

Size: Rounded, 25 to 30pm; subspherical 30 to 40pm with 2 to 4 long, tapered pseudopods; locomotive, ovoid, 60 to 80
pm long, 20 to 60 p m wide with many pseudopods. Pseudopods: Clear, conical with round tips, 60 to 100pm long, 2 to 5
pm diameter at bases, 1 to 3pm at tips. Uroid: Absent. Ectoplasm: Clear. Endoplasm: Granular. Nucleus: Spherical,
15pm with central, round endosome 6pm. Vesicles: None. Crystals: None; but many yellowish granules. Cyst:
Unknown. Feeding: Herbivorous; on diatoms. Habitat: Marine; coastal waters. Distribution: Known from Gulf of
Mexico, Florida, U.S.A. References: Morphology; ecology; description; Schaeffer (1926).

B(A) Length 15-45p m; bactivorous V. telmathalassa

B(A) Length 30p m or less; bactivorous C

Figure 28.

-Vexillifera telmathalassa: A — radiate, afloat; B — at rest, attached; C,
D — locomotive; after Bovee (1956).

50 jim

'21

Vexillifera telmathalassa

Size: Rounded, 8 to lOp m; radiate, body 6 to 8p m diameter, with pseudopods to 45pm; locomotive, 15 to 45a m long.
Pseudopods: 5 to 30p m long, from margin or body surface, 1 to 2pm diameter at bases, about 0.5pm at rounded tips,
slightly flattened on contact with substrate. Uroid: None. Ectoplasm: Clear. Endoplasm: Finely granular. Nucleus:
Spherical, 3pm diameter, with central endosome, 2pm. Vesicles: None. Crystals: None. Cyst: Unknown. Feeding:
Bactivorous. Habitat: Marine; shallow coastal waters. Distribution: Known from Atlantic coast of United States,
Florida to Massachusetts; also, Pacific Coast, southern California. References: Morphology; ecology; description;
Bovee (1956), Mitchell and Yankofsky (1969).

C(B) Length 18-27pm; nucleus 5.6pm V.ottoi

C(B) Length less than 25pm; nucleus 3pm or smaller D

Figure 29. — Vexillifera ottoi: A— radiate, afloat; B, C— active, locomo-
tive; D — beginning locomotion after floating; after Sawyer (1975a).

20 jim

Vexillifera ottoi

Size: Afloat, irregular body 10 to 15pm diameter, with pseudopods to 60pm; locomotive, 18 to 27pm long (mean, 21
pm), 12 to 18pm wide (mean, 13.5pm). Pseudopods: Afloat, tapered, 20 to 60pm long, about 1.5 to 2.0pm basal
diameter, less than l.Op m at tips; locomotive, from periphery or body surface, 2 to 15pm long, 1.0 to 2.0pm basal
diameter, less than 1.0pm at tips, slightly flattened on contact with substrate. Uroid: Temporary, when present, lobate
or of short, fine filaments. Ectoplasm: Thin, pale, clear. Endoplasm: Finely granular. Nucleus: Spherical; distinct, 5 to
6pm diameter, with central endosome, 3 to 5p m diameter; division, mesomitotic. Food vesicles: Few to several, 3 to 5
pm diameter; no water-expulsive vesicle. Crystals: None. Cyst: Unknown. Feeding: Bactivorous. Habitat: Shallow
coastal waters; in bays, estuaries. Distribution: Known from Atlantic coast, United States, Virginia to Massachusetts.
References: Morphology; ecology; description; Sawyer (1975a).

D(C) Length 14- 18pm; nucleus ovate V. pagei

D(C) Length less than 25pm; nucleus spherical, 3p m or less E

Figure 30.— Vexillifera pagei: A, B— radiate, afloat; C— beginning locomotion after float-
ing; D, E — locomotive forms; after Sawyer (1975a).

20 jum

22

Vexillifera pagei

Size: Rounded 5 to 6pm; radiate, body 5 to 6pm diameter with pseudopods to 35pm; locomotive, 14 to 18pm (mean, 16
pm), width 7 to 14pm (mean, 10pm). Pseudopods: Of radiate stage, to 15pm long, less than 0.5pm tips; locomotive, 1.5
to 8pm long, about 1.0pm diameter at bases, tapered to about 0.5pm at tips somewhat flattened in contact with sub-
strate, 2 to 3pm wide with round tips, from body surface or margin, bend and swing as retracted. Uroid: None. Ecto-
plasm: Thin, pale, clear. Endoplasm: Finely granular. Nucleus: Ovate 3pm long, 2 to 7pm wide, with central endosome
2pm diameter; division mesomitotic with small polar granules. Vesicles: Absent. Crystals: None. Cyst: Unknown.
Feeding: Bactivorous. Habitat: Marine; shallow bays and estuaries. Distribution: Known from Atlantic coast of
United States, Virginia to Massachusetts. References: Morphology; ecology; description; Sawyer (1975a).

E(D) Length 14-23pm; nucleus 2. 5-3pm V. browni

E(D) Length 5-8 (jm; nucleus 1pm V. minutissima n. sp.

Figure 31. — Vexillifera browni: A, B— floating stages; C— beginning locomotion after floating;
D — locomotive form; after Sawyer (1975a).

20 jmn

Vexillifera browni

Size: Rounded, 10 to 12pm; afloat, body 8 to lOp m diameter, with pseudopods 40 to 80pm; locomotive, 14 to 23pm long
(mean, 16.5pm), 7 to 14pm wide (mean, 11pm). Pseudopods: Slender, tapered, clear; of radiate stage, irregular,
sometimes twisted, 10 to 50 pm long; of lomotive stage, from periphery or body surface, 8 to 30 pm long, 1.0 to 2.0pm
diameter at bases, less than 1.0pm at tips. Uroid: Temporary, filamentous. Ectoplasm: Clear, pale, thin. Endoplasm:
Finely granular. Nucleus: Indistinct, spherical, 2.5 to 3.0pm diameter, with central endosome, 2 pm diameter; division,
mesomitotic. Vesicles: Several, mostly food vesicles, 2 to 10pm diameter; water-expulsive vesicle absent. Crystals:
None. Cyst: Unknown. Feeding: Bactivorous. Habitat: Marine; in shallow bays, backwaters. Distribution: Atlantic
coast. United States, Virginia to Massachusetts. References: Morphology; ecology; description; Sawyer (1975a).

Figure 32.— Vexillifera minutissima: A— radiate, afloat; B— rounded, with attached bacteria; C— beginning

locomotion; D, E — locomotive forms.

10 jim

Vexillifera minutissima n. sp.

Size: Rounded, 3 to 4pm diameter; afloat, radiate, body mass 3p m diameter, with 20 to 24 slender, radiate pseudopods;
motile, 5 to 8pm long by 3 to 5pm wide. Pseudopods: Of radiate stage, barely visible, less than 0.5pm diameter, 8 to 10
pm long; of locomotive stage, in clear, conical pairs from a clear anterior projection or projections, 2 to 3pm long, 0.5p m
diameter at bases, 0.3p m or less at tips, or slender, filose, from body surface, 2 to 10pm long, wave as retracted. Uroid:

23

None. Ectoplasm: Clear, in pseudopods and advancing margin. Endoplasm: Light-refractile, faintly granular.
Nucleus: Spherical, l.Op m diameter or slightly less; endosome indistinct, less than l.Op m diameter. Vesicles: One or
two vesicles, often none. No water-expulsive vesicle. Crystals: None. Cyst: Unknown. Feeding: Bactivorous; attached
bacteria digested at end attached. Habitat: Discovered in shallow water (bays, estuaries) Chincoteague Bay, Va. Dis-
tribution: Known from Virginia to Massachusetts, U.S.A.

24 (23) Similar to Vexillifera but with several slender pseudopods originating from a common base 25

25 (24) Pseudopods in groups of 2, 3, or 4 all arise from a common base on clear anterior advancing mar-

gin, or from body surfaces Triaenamoeba

Figure 33. — Triaenamoeba jachowskii: A — extended form; B, C-
locomotive form; after Sawyer (1975a).

-floating forms; D —

20 ixm

Triaenamoeba jachowskii

Size: Afloat, irregularly rounded, body 9 to 10pm diameter, with pseudopods, 40 to 50pm diameter, or body irregular
with pseudopods to 60p m diameter; locomotive, 13 to 22.5 pm long (mean, 17 pm), by 7 to 12pm wide (mean, 9pm).
Pseudopods: Clear, tapered; of locomotive stage, from body or periphery, one to several from common, moundlike base,
5 to 15p m long, slightly tapered, about l.Op m diameter at base, less at the tip, flatten somewhat on contact with sub-
strate; of radiate stage, numerous, less than 1.0pm diameter, 2.0 to 15.0pm long. Uroid: None, or a few temporary
filaments. Ectoplasm: Pale, refractile, clear. Endoplasm: Finely granular. Nucleus: Indistinct, spherical, about 3.0 m
diameter, with central endosome 2.0pm diameter; division, mesomitotic. Vesicles: Few; food vesicles, 2 to 3pm
diameter; no others. Crystals: Unknown. Feeding: Bactivorous. Habitat: Marine; shallow bays. Distribution: Known
from Atlantic coast, United States, Virginia to Massachusetts. References: Morphology; ecology; description; Sawyer
(1975a).

25 (24) Pseudopods in groups of 2 or more, originate only from clear advancing margin. Body limaciform

in rapid locomotion; without conical pseudopods except in slow locomotion or while changing

from radiate floating form 26

26 (25) Stellate floating form. Changes to spread form with conical pseudopods when beginning loco-

motion, and to limaciform in forward locomotion Striolatus tardus

24

Figure 34. — Striolatus tardus: A — radiate, afloat; B — beginning
locomotion; C — feeding, active stage; D — slowly locomotive; after
Schaeffer (1926).

50 jum

Striolatus tardus

Size: Contracted, 30 to 40 pm across, discoidal; radiate, body 15 to 20pm, with pseudopods to 60 pm diameter.
Pseudopods: Of radiate stage, clear, conical 15 to 20p m long, basal diameter 8 to 10p m, tips 2 to 3pm diameter; of ac-
tive stage, clear, conical 5 to 40pm long, basal diameters 2 to 10pm, tips 1 to 3pm; of locomotive stage, slowly formed,
clear bulges at anterior end, 20 to 25pm diameter. Uroid: None. Ectoplasm: Clear, distinct, glossy. Endoplasm: Finely
granular. Nucleus: Mononucleate or binucleate; each spherical, 10pm diameter, with endosome 5pm diameter.
Vesicles: Several, clear 10 to 15pm diameter; no water-expulsive vesicle. Crystals: None, but many bright granules.
Cyst: Unknown. Feeding: Herbivorous; eats diatoms. Habitat: Marine; in shallow, coastal waters. Distribution:
Known from Atlantic coastal waters, United States, Florida to New Jersey. References: Morphology; ecology; descrip-
tion; Schaeffer (1926).

26 (25) Body flattened, limaciform to oblong with longitudinal ridges and short conical pseudopods, or

somewhat rounded with many relatively long, clear pseudopods from peripheral body surface 27

27 (26) Large, oblong amoebae with longitudinal ridges and short bristlelike, pointed pseudopods aris-

ing from anterior and lateral margins of body Pontifex maximus

Figure 35. — Pontifex maximus: after Schaeffer (1926).

100 jum

25

Pontifex maximus

Size: Rounded, 100 to 150pm; radiate, 100 to 150p m diameter; locomotive, 100 to 500pm long, trapezoidal, with 2 to 5
dorsal, longitudinal ridges. Pseudopods: Of radiate stage, short, bristlelike. Of locomotive stage, few, spinelike, mostly
10 to 12^m long; from anterior margin and sides. Uroid: None. Ectoplasm: Clear, peripheral. Endoplasm: Finely
granular. Nucleus: Obscured. Vesicles: 5 to 10 pm, containing brownish food masses; no water-expulsive vesicle.
Crystals: None. Cyst: Unknown. Feeding: Herbivorous; eats brown algal detritus. Habitat: Marine; shallow, cool
waters. Distribution: Coastal waters, northeastern United States; also reported from coral reefs of Madagascar.
References: Morphology; ecology; description; Schaeffer (1926).

27 (26) Large amoebae of variable shape, numerous, long, clear pseudopods arise from body surface and

advancing margin. Nucleus large, spherical, and with distinct endosome which may be obscured

by refractile, ingested, plant debris 28

28 (27) Similar to Mayorella and Vexillifera, broadly triangulate in shape with multiple, very long,

conical pseudopods Dinamoeba

Figure 36.

-Dinamoeba acuum: A — radiate form; B — active form;
after Schaeffer (1926).

50 irni

Dinamoeba acuum

Size: Rounded, 20 to 30pm; radiate, body 20p m across, with pseudopods, to 140pm across. Pseudopods: Clear, conical,
round-tipped from advancing margin and body, 10 to 60p m long, 5 to 10pm basal diameter, tapered to round tips, 2 to 3
nm, wrinkle, coil in retraction. Uroid: None. Ectoplasm: Clear, as anterior margin and pseudopods. Endoplasm: Clear,
finely granular. Nucleus: Spherical, 10 to 12p m diameter, with endosome 5 to 6 pm diameter. Vesicles: Numerous, 2 to
10pm diameter; also brownish globules, 3 to 5pm. Crystals: None. Cyst: Unknown. Feeding: Herbivorous; on small
algae. Habitat: Marine; shallow, muddy, coastal waters. Distribution: Known from Gulf of Mexico and Atlantic coastal
waters, United States. References: Morphology; ecology; description; Schaeffer (1926).

28 (27) Pseudopods very long and slender, multiple or few. Body form variable

.29

29 (28) Pseudopods multiple and elongate, retract quickly in presence of light. Locomotive form un-
known Boveella obscura

Figure 37 .—Boveella obscura: A — contracted, after light; B — extended,
in darkness; after Sawyer (1975a).

50 jam

26

Boveella obscura

Size: Contracted, ovoid, 20 by 30 /j m; radiate form, body 20 p m diameter, covered by debris and diatoms, with
pseudopods to 100 u m between tips of opposite filose pseudopods; locomotive stage, unknown. Pseudopods: Of con-
tracted state, remnants of long pseudopods; of radiate stage, 40 to 50 v m long, clear, conical, basal diameter 3 to 4 m m,
tapered to about 1.0 n m at tips; pseudopods from upper surface when attached, radiate from entire body when afloat.
Ectoplasm: Clear, thin. Endoplasm: Finely granular. Nucleus: Unknown, due to debris on body. Vesicles: Also un-
known. Crystals: Unknown. Cyst: Unknown. Feeding: Probably herbivorous; on diatoms. Habitat: Marine; shallow
bays, under bottom detritus. Distribution: Atlantic coastal waters, United States, reported from Virginia to
Massachusetts. References: Morphology; ecology; distribution; Sawyer (1975a).

29 (28) Pseudopods elongate, few in number with one usually much longer than others 30

30 (29) Several long pseudopods which are actively waved; one may anchor to substrate with rest of

amoeba flowing into it before resuming locomotion. No marine species known Oscillosignum

30 (2.9) Similar to Oscillosignum but body awl-shaped in active locomotion. Anterior-most pseudopod

long and may resemble a broad based flagellum 31

31 (30) Posterior portion of body expanded and wider than anterior portion. Awl-shaped in locomotion

with one broad based, clear, conical, anterior pseudopod. No marine species known Subulamoeba

31 (30) Similar to Mayorella, body not awl-shaped. Long, thin, vibratile anterior pseudopod very much

like a flagellum. No marine species known Flagellipodium

32 (21) Pseudopods numerous, short, and spiny; single or in groups along anterior margin and on all

body surfaces. Form triangulate or elongate in locomotion. Uninucleate with distinct round en-
dosome; division by mesomitosis or metamitosis. Cysts round, polygonal, or stellate; ectocyst

wrinkled, rippled, or nearly smooth, with or without distinct operculae Acanthamoebidae . . . A

A(32) Cysts polygonal A. gigantea

A(32) Cysts stellate A. griffini

Uz

Figure 38. — Acanthamoeba gigantea: A, B — locomotive forms; C — cyst; after Schmoller

(1964).

20 nm

Acanthamoeba gigantea

Size: Rounded, 7 to 20 m m (mean, 15 u m); locomotive, trapezoidal to triangular, 15 to 40 u m long by 7 to 20 /j m wide
(mean, 30 by 16^ m). Pseudopods: Eruptive bulges at anterior margin; also slender, tapered, clear, 5 to 7 /um long, singly
or in groups of 2 to 4 from clear, advancing margin and body. Uroid: Temporary, when present. Ectoplasm: Clear, as ad-
vancing margin and pseudopods. Endoplasm: Clear, granular. Nucleus: Spherical, 5 to 6/jrn, with endosome 3.5 to 4
Mm; large forms multinucleate. Vesicles: Food vesicles, food globules, 2 to 5jum; water-expulsive vesicle in brackish or
fresh water, 8 to 10a/ m diameter. Crystals: None. Cyst: 13 to 22/um diameter, usually 15 to 17^ m; two-layered; ectocyst
wrinkled, thin; endocyst stellate, 5 or 6 sided, with operculae. Feeding: Bactivorous; scavenging. Habitat: Marine; shal-
low coastal waters; tolerates fresh water. Distribution: Known from Atlantic coastal waters of Europe and United
States; probably worldwide. References: Morphology; ecology; description; Schmoller (1964).

•11

Figure W.—Acanthamoeba griffini: A— cyst, in distilled water; B— cyst in
27 %(, sea water; C — cyst in 35%o seawater; D, E— locomotive forms; F—

rounded precystic forms; after Sawyer (1971).

20 jam
Acanthamoeba griffini

Size: Rounded, 10 to 15 a/ m; locomotive, 23 to 41 n m long by 9 to 16 fj m wide (mean, 29.5 by 13.0 /j m), more or less
triangular. Pseudopods: Blunt, eruptive bulges from clear margin in locomotion; also, slender, tapered 3 to 10p m long,
singly or in groups of 2 to 5 from body and clear margin. Uroid: An ectoplasmic bulb, temporary. Ectoplasm: Clear, as
anterior margin and pseudopods. Endoplasm: Clear, granular. Nucleus: Spherical, 5 to 7 pm, with endosome 3 to 5/um;
division mesomitotic, no centrioles. Vesicles: Small food vesicles and food globules, 2 to 4/jm; water-expulsive vesicle in
brackish water, 7 to 10/j m diameter. Crystals: None. Cyst: Mean diameter, 15.8pm; endocyst thick, stellate, 3 to 6
rays; ectocyst thin, wrinkled. Feeding: Bactivorous. Habitat: Marine or brackish shallow water; tolerates fresh water.
Distribution: Known from Atlantic coastal waters. United States, Virginia to Connecticut, probably cosmopolitan.
References: Morphology; growth; division; description; Sawyer (1971).

32 (21) Similar to Acanthamoebidae. Several to many fine pseudopods; short, slender, and produced

mainly from advancing margin but not from body surfaces. Numerous uroidal filaments may

extend posteriorly in locomotive forms. Cysts round with operculae, or absent 33

33 (32) Body usually longer than broad in locomotion. Pseudopods few to many, thin and short; usually

produced from clear advancing margin. Cysts round, smooth, and without operculae. No marine

species known Echinamoebidae ... 34

33 (32) Body usually broader than long in locomotion. Pseudopods few to many, thin and short or long;

usually produced from clear advancing margin and from trailing posterior border. Cysts absent,

or as spherical pseudocysts which do not resist drying Flabellulidae ... 35

34 (33) Pseudopods few, produced mainly from anterior margin. Anterior margin not entirely bordered

by clear hyaline zone. No marine species known Echinamoeba

34 (33) Pseudopods thin, numerous; produced from anterior and lateral borders of advancing margin.

No marine species known Filamoeba

35 (33) Pseudopods of locomotive form numerous and short; anterior margin irregular or serrate with a

few deep scurs. Uroid pronounced, formed by trailing posterior filaments Flabellula . . . A

A(35) Length 15-75/j m, anterior margin with deep scurs. Uroidal filaments pronounced, numer-
ous. Nucleus 4-6pm in diameter F. citata

A(35) Length less than 50 y m; uroidal filaments variable. Nucleus less than 5 p m B

28

Figure 40.— Flabellula citata: A— radiate, afloat; B, C, E — loco-
motive forms; D — lobed form when disturbed; after Schaeffer

(1926).

50 }m

Flabellula citata

Size: Rounded, 8 to 12pm diameter; radiate, body 6 to 10pm diameter, with pseudopods to 35p m; locomotive, fan-
shaped with clear, broad, fan-shaped anterior, 15 to 75p m long by 25 to 55p m wide. Pseudopods: Clear, conical, round-
tipped, from margin and body, 5 to 10pm long, 2 to 3p m diameter at base, 1 to 1.5pm at tips. Uroid: Of several to many
filaments at rear of body. Ectoplasm: Clear, distinct in pseudopods and anterior margin. Endoplasm: Finely granular.
Nucleus: Spherical, 4 to 6p m diameter, with endosome, 2 to 3p m; division, mesomitotic. Water-expulsive vesicle:
None in seawater; 5 to 6p m in brackish water; no other vesicles. Crystals: None. Granules: Several, 1 to 2pm, light-
refractile. Cyst: Unknown. Feeding: Bactivorous. Habitat: Marine; brackish waters of shallow bays and estuaries. Dis-
tribution: Known from Atlantic coas'\ United States, Florida to Maine. References: Morphology; ecology; dis-
tribution; Page (1971a), Schaeffer (1926), Bovee (1965).

B(A) Length variable, 8-22pm; uroidal filaments few, short. Nucleus 2-3pm F. calkinsi

B(A) Length 20-40 p m; uroidal filaments variable. Nuclear diameter variable C

E

Figure 41. — Flabellula calkinsi: A — contracted form; B — dividing form; C, D,
E — locomotive forms; after Hogue (1914).

Flabellula calkinsi

20 ^m

Size: Contracted, irregularly rounded, 5 to 10 p m; radiate, body 4.5 to 7.0 u m across, with pseudopods to 25 p m;
locomotive, fan-shaped, 8 to 22pm long, by 12 to 35pm wide. Pseudopods: Clear, conical, 2 to 5p m long, or as scurs at
irregular anterior margin. Uroid: Few, short filaments at rear. Ectoplasm: Clear, as anterior margin and pseudopods.
Endoplasm: Finely granular. Nucleus: Spherical, 2 to 3pm, with central endosome 1.0 to 1.5Mm; division, mesomitotic.
Vesicles: Few. Crystals: None. Cyst: Unknown. Feeding: Bactivorous. Habitat: Marine; bays and estuaries. Dis-
tribution: Known from Atlantic coastal waters. United States, Maryland to Maine. References: Morphology; descrip-
tion; ecology; Hogue (1914), Page (1971a); division; Page (1971a).

C(B) Length 21pm or slightly more or less; uroidal filaments few; nucleus 5pm F. patuxent

C(B) Length 25-40p m; uroidal filaments numerous. Nucleus less than 5pm D

29

Figure 42. — Flabellula patuxent: A, B, C — locomotive forms; D — presumed cyst; after

Hogue (1921).

20 ym

Flabellula patuxent

Size: Rounded, 10 to 13pm; locomotive, mean size 21 ju m long by 13pm wide, generally fan-shaped. Pseudopods: Clear,
conical, or as blunt scurs from clear, anterior margin in locomotion. Uroid: Of several filaments at trailing end. Ec-
toplasm: Clear, as anterolateral margin of fan-shaped body. Endoplasm: Clear, granular. Nucleus: Spherical, about 5
p m, with endosome about 3 um. Vesicles: Numerous food vesicles, 3 to 6pm diameter. Crystals: None. Cyst: Round, 3
to 18 n m, 3-layered. Feeding: Bactivorous; scavenging. Habitat: Commensal in gut of oysters; also free living. Dis-
tribution: Known from Atlantic coast, United States. References: Morphology; culturing; description; Hogue (1921).
D(C) Length 20-40pm; uroidal filaments numerous, trailing. Nuclei 15-20 in number, diameter 1.5^m F. pellucida
D(C) Length 13-27 pm; uroidal filaments variable. Nucleus single, 4-4. 5pm E

Figure 43. — Flabellula pellucida: A — locomotive, with
long uroid; B — broad, locomotive form; after Schaef-
fer (1926).

50 jum

Flabellula pellucida

Size: Rounded, 30 to 40 p m diameter; locomotive, 20 to 40p m long, 60 to 100p m wide. Pseudopods: Short, blunt, 3 to 6
pm long, at periphery. Uroid: Several filaments derived from old, trailing pseudopods. Ectoplasm: Pale, clear,
peripheral. Endoplasm: Pale, clear, faintly granular. Nuclei: 15 to 20, each spherical, 1.5pm diameter. Vesicles: Ab-
sent. Crystals: Absent. Cyst: Unknown. Feeding: Bactivorous. Habitat: Marine; coastal waters. Distribution: Known
from Gulf of Mexico, Florida, U.S.A. References: Morphology; ecology; description; Schaeffer (1926).

E(D) Length 16-25 p m; uroidal filaments numerous, short. Nucleus 4pm F. reniformis

E(D) Length 13-27 p m; uroidal filaments numerous, long, and trailing. Nucleus 4.5 p m. Forms nonre-

sistant round pseudocysts F. hoguae

50 jm

Figure 44.— Flabellula reniformis: after Schmoller (1964).

30

Flabellula reniformis

Size: Rounded, 10 to 20pm diameter; radiate, body 10 to 20pm diameter, with pseudopods to 60 pm diameter;
locomotive, 16 to 25p m long, by 16 to 45p m wide. Pseudopods: Of radiate stage, tapered, round-tipped, 10 to 20pm
long; of locomotive stage, from clear, anterior margin, conical, 2 to 5pm long, with round tips. Uroid: Temporary, of
filaments. Ectoplasm: Clear, mainly at anterior margin. Endoplasm: Clear, finely granular. Nucleus: Spherical, 4m m
diameter, with central endosome, 2pm diameter; division intranuclear, mitotic. Vesicles: Few; food vesicles, 3 to 5 p m
diameter; no others. Crystals: None. Cyst: Unknown. Feeding: Bactivorous. Habitat: Coastal brackish water, with
algae. Distribution: Atlantic coastal waters; Europe. References: Morphology; ecology; growth; description; Schmoller
(1964).

D

Figure 45. — Flabellula hoguae: A, B — radiate, afloat; C, D — locomotive; after Sawyer

(1975a).

50 jum

Flabellula hoguae

Size: Rounded, 10 to 12pm; radiate, body 9 to 11pm, with pseudopods to 75p m; locomotive, fan-shaped 18 to 27p m long
(mean, 26pm), width 18 to 45p m (mean, 34pm). Pseudopods: Of radiate stage, clear, conical, 10 to 50pm long, basal
diameter 3 to 4pmm, tips 1.5 to 2.0pm; locomotive, as short cones from body or advancing margin, 2 to 5pm long; advanc-
ing margin clear, with serrate edge and scurs. Uroid: A few filaments, up to 25 p m long. Ectoplasm: Clear. Endoplasm:
Finely granular. Nucleus: Indistinct, about 4.5p m diameter, with central endosome 3 to 3.5p m or of 2 or 3 separate
smaller granules; division, mesomitotic. Vesicles: Water-expulsive vesicle absent in seawater; 3 to 5pm in brackish;
some food vesicles, 2 or 3 p m diameter. Crystals: None. Cyst: Unknown. Feeding: Bactivorous. Habitat: Marine; shal-
low bays and estuaries; shallow coastal waters on rocks. Distribution: Known from Atlantic coast, United States,
Florida to Massachusetts. References: Morphology; ecology; description; Sawyer (1975a).

35 (33) Pseudopods numerous, short; produced from anterior margin and body surface. Width of body

much greater than length. No uroidal filaments or cysts Flamella magnifiea

A JuJLu. <"JUVi

Figure 46.— Flamella magnifiea: A-C— locomotive forms; after
Schaeffer (1926).

20 jam

31

Flamella magnifica

Size: Locomotive. 30 to 60/u m long, 30 to 60 um wide, outline rapidly changeable. Pseudopods: From margin and body
surface, clear, conical, 1 to 10/j m long, fuse with clear, advancing margin, like veins. Uroid: None. Ectoplasm: Pale,
clear. Endoplasm: Faintly granular. Nucleus: Indistinct; not described. Vesicles: Food vesicles, 3 to 5/um diameter; no
others. Crystals: Few, small, bipyramidal to 2.0 n m. Cyst: Unknown. Feeding: Herbivorous; on algae. Habitat:
Marine; coastal waters. Distribution: Gulf of Mexico, Florida, U.S.A. References: Morphology; description; Schaeffer
(1926).

36 (18) Body in locomotion discoid or broadly ovoid with central or postcentral granular hump sur-
rounded completely, or almost completely, by a clear, flattened, hyaline zone; with or without
longitudinal ridges extending beyond body margins. Uninucleate with large central endosome,
rarely binucleate; nucleus spherical or slightly ellipsoid Hyalodiscidae . . . 37

36 (18) Body in locomotion variable ovoid, oblong, or trapezoidal with more or less thickened flexible

plasmalemma or "pellicle." Dorsal surface smooth, rippled, or with longitudinal ridges or folds.
Pseudopods indistinct in locomotion or as lobate bulges. Nucleus round with endosome entire or
fragmented. Cysts absent Thecamoebidae ... 39

37 (36) Granular endoplasm as postcentral mound, dragged by movement of anterolateral protoplasmic

flow. Body sometimes with dorsal ridges which extend beyond body margins Hyalodiscus

Figure 47.— Hyalodiscus angelovici: A, B— radiate, floating forms; C— locomotive form;

after Sawyer (1975b).

20 jum

Hyalodiscus angelovici

Size: Rounded, 25 /urn diameter; radiate, body mass about 20 /u m diameter, with pseudopods to 70 nm diameter;
locomotive, broadly ovate 24 to 38 /urn long by 22 to 34 /um wide (mean dimensions, 32 by 29 /urn). Pseudopods: Of radiate
stage, cylindroid, 20 to 25/u m long, 3.5 to 6.0/um diameter; none formed in locomotion. Uroid: None. Ectoplasm: Clear,
distinct as broad, anterolateral margin. Endoplasm: Granular, as postcentral raised hump. Nucleus: Indistinct,
spherical, 4.0 to 4.5|i m diameter, with endosome 3.0 to 3.5/u m; division, mesomitotic. Vesicles: Several, when in
brackish water; none to few in seawater. Crystals: None. Cyst: Unknown. Feeding: Bactivorous. Habitat: Marine;
shallow bays, estuaries. Distribution: Atlantic coastal waters, United States, Virginia to Massachusetts. References:
Morphology; division; description; Sawyer (1975b).

37 (36) Similar to Hyalodiscus, body in locomotion more or less triangulate. Short, slender pseudopods

along anterior margin, cylindrical in shape and used for feeding; may flow posteriorly to form

temporary weak uroids 38

38 (37) Anterior pseudopods pincerlike as food cups for feeding. Uroidal filaments localized at midpoint

of posterior margin Gibbodiscus ... A

A(38) Length 35-40/um; nucleus 5/um. Crystals few G. gemma

A(38) Length 18-24,um; nucleus 4. 5/um. Crystals absent G.newmani

32

Figure iS.— Gibbodiscus gemma: A— medusa-like floating form; B— locomotive form;
after Schaeffer (192G).

50 pm
Gibbodiscus gemma

Size: Rounded, 15 to 20p m; radiate, body 15pm diameter, short pseudopods at one side; locomotive, 35 to 40pm long, 25
to 30pm wide, with clear peripheral margin, widest anteriorly. Pseudopods: Clear, conical 5 to 30p m long, 2.0 to 4.5p m
basal diameter, 1.0 to 1.5 p m diameter at tips, formed anteriorly, diverted to sides. Uroid: Filamentous; temporary. Ec-
toplasm: Pale, clear, as peripheral margin. Endoplasm: Flocculent, appears "milky," as postcentral region, about 40
pm diameter in locomotion. Nucleus: Spherical, 5pm, with central endosome, 3pm. Vesicles: None. Crystals: Few;
square, 1.0 to 5.0pm, about 0.5 to 1.0pm thick. Cyst: Unknown. Feeding: Bactivorous. Habitat: Marine; in tide pools.
Distribution: Known from Gulf of Mexico, Florida, U.S.A. References: Morphology; ecology; description; Schaeffer
(1926).

Figure 49. — Gibbodiscus newmani: A — radiate, afloat; B — feeding form with cup-
like phagopods; C — locomotive form; after Sawyer (1975b).

20 jam

Gibbodiscus newmani

Size: Contracted, 8 to lOp m diameter; radiate, body 6 to 8pm diameter, with pseudopods, to 35pm; locomotive, fan-
shaped, 18 to 24p m long by 16 to 29pm wide (means, 21 by 23pm). Pseudopods: Of radiate stage, cylindroid, 18 to 25
pm long, 6 to 8p m diameter, clear, bluntly rounded tips. Ectoplasm: Clear, glossy, forms anterolateral margin. En-
doplasm: Granular. Nucleus: Spherical, 4.5 pm, with central endosome, 3.5 to 4.0 pm diameter; division by
mesomitosis. Vesicles: Several, 3 to 8pm diameter; food vesicles, 2 to 5p m diameter; forms water-expulsive vesicle in
brackish water, about 6 to 7p m diameter. Crystals: None. Cyst: Unknown. Feeding: Bactivorous. Habitat: Marine;
shallow bays, estuaries. Distribution: Known from Atlantic coastal waters, United States, Florida to Massachusetts.
References: Morphology; division; description; Sawyer (1975b).

38 (37) Anterior margin smooth, forms shallow, endocytic, food vesicles for feeding; short, tubular or

cylindrical tubes may form along lateral margins for feeding. Posterior margin irregular Unda ... A

A(38) Length 50pm or greater; nuclear diameter 4pm U. maris

A(38) Length less than 50pm: nuclear diameter 4-4. 5pm B

:v.\

Figure 50. — Unda maris: A — radiate, afloat; B — feeding form with cuplike phago-
pod; C — locomotive form; after Schaeffer (1926).

50 jim

Unda maris

Size: Rounded, 20 to 25pm; radiate, body mass 18 to 20pm diameter, with pseudopods, to 25pm; locomotive, 20 to 40
pm long by 25 to 45p m wide. Pseudopods: Of radiate stage, short, cylindroid, 2 to 3pm long, 1.5pm diameter, clear,
round-tipped; of locomotive stage, flat, tonguelike extensions of clear anterior margin, 10 to 15 pm long by 10 to 15pm
broad, or as food cups of similar dimensions. Uroid: None. Ectoplasm: Clear, as series of waves at advancing margin,
one over another. Endoplasm: Granular, clear. Nucleus: Spherical, lOp m; with endosome, 5pm diameter. Vesicles:
Several, small, 1 to 3p m; no water-expulsive vesicle. Crystals: None; but numerous greenish granules LOpm or less.
Cyst: Unknown. Feeding: Bactivorous. Habitat: Marine; in tide pools, shallow coastal waters. Distribution: Atlantic
coastal waters, United States, Florida to Massachusetts. References: Morphology; ecology; description; Schaeffer
(1926).

B(A) Length 20-40p m; nuclear diameter 4pm U. elegans

B(A) Length 13-27 p m; nuclear diameter 4.5 jj m U. schaefferi

Figure 51.— Unda elegans: A — radiate, afloat;

(1926).

B — locomotive form; after Schaeffer

50 >jm

Unda elegans

Size: Rounded, 20 to 30p m; radiate, body mass 20pm diameter, with pseudopods to 40pm; locomotive, 50 to 60pm long
by 60 to 70pm wide. Pseudopods: Of radiate stage, clear, cylindroid, 6 to 10pm long, about 1.5pm diameter, round-
tipped; none formed by locomotive stage. Uroid: None. Ectoplasm: Clear, as peripheral margin, and successive anterior
waves in locomotion, one over another. Endoplasm: Finely granular. Nucleus: Pale, spherical, 4pm; with central en-
dosome, 1.5pm diameter. Vesicles: None. Crystals: None; but many yellowish granules, less than 1.0pm. Cyst:
Unknown. Feeding: Bactivorous. Habitat: Marine; in tidal pools. Distribution: Atlantic coastal waters, United States,
known from Cold Spring Harbor, N.Y. References: Morphology; ecology; description; Schaeffer (1926).

34

Figure 52.

-Unda schaefferi: A — radiate, afloat; B — locomotive, with pseudopods; C-
motive form; after Sawyer (1975b).

loco-

20 jum

Unda schaefferi

Size: Rounded, 8 to 10p m; radiate, body mass 5.5 to 6pm diameter, with pseudopods to 25pm; locomotive, ovate to
broadly fan-shaped, 20 to 27p m long by 22 to 29pm wide (mean, 23 by 24p m). Pseudopods: Of radiate stage, 8 to 12pm
long, cylindroid, 1.5 to 2pm diameter, blunt-tipped; of locomotive stage, broad waves or tongues which flow over
anterior margin, appear as temporary ridges, 3 to 5pm wide. Uroid: None. Ectoplasm: Clear, light-refractile. En-
doplasm: Granular, as condensed, ovoid mass behind clear, anterior margin; posterior margin often irregular. Nucleus:
Spherical, 4.5 pm diameter; with central endosome 1.5 to 2 pm diameter (often of two smaller spheres in granular matrix);
division by mesomitosis. Vesicles: Several, 2 to 4pm diameter; no water-expulsive vesicle. Crystals: None; but many
tiny granules. Cyst: Unknown. Feeding: Bactivorous. Habitat: Marine; shallow bays. Distribution: Atlantic coastal
waters, United States, Virginia to Massachusetts. References: Morphology; division; ecology; description; Sawyer
(1975b).

39 (36) Body usually large, more than 100 u m; long, trapezoidal with distinct, parallel, longitudinal,

dorsal ridges or folds when in locomotion Thecamoeba

Figure 53. — Thecamoeba terrieola: A — radiate, at rest; B — usual locomotive
form; C — locomotive, cornucopia-shaped; after Glaser (1912).

Thecamoeba terrieola (= verrucosa)

Size: Rounded, 60 to 150pm; radiate, 100 to 300pm across, more or less cruciform; locomotive, 100 to 350pm long, 50 to
170pm wide (mean, 125 by 65pm). Pseudopods: Rarely formed except as blunt bulges. Uroid: Temporary, morulate, or
wrinkled, rarely with filaments. Ectoplasm: Thick, clear, glossy; in locomotion, much wrinkled at rear, more or less
parallel ridges over the body; bulges of ectoplasm anteriorly. Endoplasm: Granular, grayish to yellowish, with piers of
gel underneath ridges. Nucleus: Ellipsoid, 40 to 60p m by 20 to 30 ju m; granules next to membrane; center, clear; no en-
dosome. Water-expulsive vesicle: Present in fresh or brackish water, 40 to 60 pm diameter; absent in seawater. Other
vesicles: Some "glycogen spheres," 8 to 12pm diameter; many food vesicles. Crystals: Truncated bipyramids, 2 to 4pm
long. Cyst: Resembles rounded state, wrinkled. Feeding: Omnivorous; eats Protozoa, algae, small invertebrates.

35

Habitat: Fresh water, adaptable to seawater, in moist earth on mosses; brackish water on bottom or submerged vegeta-
tion. Distribution: Unknown, but reported from scattered marine collections; potentially worldwide. References:
Morphology; ecology; taxonomy; descriptions; Leidy (1879), Penard (1902, 1905); growth; disivion; Glaser (1912).

39 (36) Body usually small, less than 100pm. Ovate in locomotion, or spatulate and variable. Dorsal sur-

face with more or less distinct, longitudinal ridges or transverse, transient ripples. Pseudopods of

radiate stage long and slender, papulate to stubby or absent 40

40 (39) Dorsal ridges distinct, more or less permanent. Body a hyaline flattened disc. Floating stage

with or without stubby radiating pseudopods Striamoeba ... A

A(40) Length 50pm or less; nucleus 10pm. 3-4 dorsal ridges. Herbivorous S.munda

A(40) Length 80p m or less; nuclear diameter 10p m or less. Body ellipsoidal or round. Dorsal

ridges numerous or few. Herbivorous or bactivorous B

B

Figure 54. — Striamoeba munda: A, B — locomotive forms; after Schaeffer (1926).

50 pm

Striamoeba munda

Size: Rounded, 30 to 35 p m; radiate, body mass 25 to 30p m, with pseudopods to 40p m; locomotive, ovate, 40 to 50p m
long by 30 to 40pm wide. Pseudopods: Of radiate stage, short, stubby, about 5p m long, 3 to 4pm diameter, round-
tipped, numerous; no pseudopods formed by locomotive stage. Uroid: None. Ectoplasm: Pale, clear, forms 3 or 4 dorsal
ridges in locomotion and clear, anterolateral margin. Endoplasm: Clear, finely granular. Nucleus: Spherical, 10pm;
with endosome as a ring between 2 polar caps. Vesicles: Food vesicles, 6 to 8pm diameter; no water-expulsive vesicle.
Crystals: None. Cyst: Unknown. Feeding: Herbivorous; on blue-green algae. Habitat: Marine; shallow coastal waters.
Distribution: Known from Gulf of Mexico, and Atlantic coastal waters, U.S.A. References: Morphology; ecology;
description; Schaeffer (1926).

B(A) Length 50-80 p m; nucleus ellipsoidal, 10 p m long by 5-6 u m wide. 10-12 dorsal ridges. Herbivor-
ous S. hilla

B( A) Length 80 p m or less; nuclear diameter 10 p m or less, spherical. Dorsal ridges 3-4 to numerous.

Bactivorous C

B

Figure 55.

-Striamoeba hilla: A— lobate floating form; B, C— locomotive forms; A,
B— after Schaeffer (1926); C— after Page (1971b).

50 jim

36

Striamoeba hilla

Size: Contracted, irregular, 35 to 45 p m across; locomotive, ovoid, 50 to 80 p m long by 30 to 50 p m wide; afloat, morulate,
30 to 40pm across. Pseudopods: None in locomotion, irregular bulges in radiate stage. Uroid: None. Ectoplasm: Clear,
glossy, thick, as anterolateral margin in locomotion, with 10 to 12 linear, dorsal and lateral ridges. Endoplasm: Clear,
granular. Nucleus: Ellipsoid to kidney-shaped, lOp m long by 5 to 6pm wide, with endosome 10 by 4pm. Vesicles:
Water-expulsive vesicle in brackish water, 10pm diameter; several food vesicles 3 to 8pm. Crystals: None. Cyst:
Unknown. Feeding: Herbivorous; diatoms, other algae. Habitat: Shallow coastal waters. Distribution: Known from At-
lantic coastal waters, United States, Gulf of Mexico to Maine. References: Morphology; ecology; description; Schaeffer
(1926); ecology; division; Page (1971b).

C(B) Length 60-80pm; nuclear diameter 9pm. Numerous dorsal ridges. Bactivorous S. rugosa

C(B) Length 50p m or less; nuclear diameter variable. 2-4 dorsal ridges. Bactivorous D

Figure 56.

-Striamoeba rugosa: A — lobate floating form; B, C-
form; after Schaeffer (1926).

locomotive

50 /im

Striamoeba rugosa

Size: Contracted, irregular, 40 to 50pm across; ovate, locomotive, 60 to 80pm long by 35 to 50pm wide. Pseudopods:
None. Uroid: None. Ectoplasm: Clear, glossy with many, linear, dorsal ridges. Endoplasm: Clear, granular. Nucleus:
Spherical, 9 to 10 p m diameter, with central spherical endosome, 6pm diameter. Vesicles: One or more food vesicles,
3 to 5 jj m diameter. Crystals: None. Cyst: Unknown. Feeding: Bactivorous. Habitat: Marine; coastal waters.
Distribution: Known from Gulf of Mexico and Atlantic coastal waters, United States. References: Morphology;
ecology; description; Schaeffer (1926).

D(C) Length 40-50 p m; nuclear diameter 4 p
D(C) Length 22-42 p m; nuclear diameter 10 p

m. 3-4 dorsal ridges. Bactivorous S. orbis

m. 2-3 dorsal ridges. Ectocommensal on fish gills . . . S. hoffmani

Figure 57. — Striamoeba orbis: A— radiate, afloat; B, C — locomotive forms; A, C — after
Page (1971b); B— after Schaeffer (1926).

50 jam

37

Striamoeba orbis

Size: Rounded. 10 to 12 pm; radiate, body mass7^m across, with pseudopods to 18pm across; locomotive, ovoid, 40 to 50
pm long by 40 to 50/u m wide. Pseudopods: Of radiate stage, several, blunt, digitate, 3 to 6pm long, 2 to 3pm diameter;
none in locomotion. Uroid: None. Ectoplasm: Clear, glossy, as anterior three-fifths of locomotive body in locomotion
with 3 or 4 longitudinal ridges; forms digitate pseudopods of radiate stage. Endoplasm: Clear, granular, as posterior two-
fifths of locomotive body. Nucleus: Spherical, 4p m diameter with round, central endosome, 2pm. Vesicles: Small, 2 to
3p m, as food vesicles; no water-expulsive vesicle. Crystals: None. Cyst: Unknown. Feeding: Bactivorous. Habitat:
Marine; coastal waters. Distribution: Known from Atlantic coast, United States, Florida to Maine. References:
Morphology; description; Schaeffer (1926); ecology; division; Page (1971b).

Figure 58. — Striamoeba hoffmani: A — an amoeba in the gill filaments of a
fish; B — locomotive form; after Sawyer et al. (1975).

40 jam

Striamoeba hoffmani

Size: Ovoid, 21.6 to 40.8pm long (mean, 31.0pm) by 16.8 to 28.0pm wide (mean, 23.1pm) when fixed and stained.
Pseudopods: Noneruptive, clear, anterior bulges in slow locomotion. Uroid: None. Ectoplasm: Clear, as anterolateral
margin and several longitudinal ridges or folds. Endoplasm: Granular. Nucleus: Spherical, 10pm diameter with en-
dosome, 6pm diameter; division, mesomitotic. Vesicles: Several, containing food. Crystals: None. Cyst: Unknown.
Feeding: Bactivorous, perhaps cytivorous. Habitat: On gills of fingerling salmonid fish. Distribution: West coast of the
United States, Oregon and Washington, hatcheries in Michigan. Considered free-living as well as opportunistically
parasitic, and perhaps worldwide. References: Description; ecology; division; Sawyer et al. (1975).

40 (39) Dorsal ridges absent, or present as transient single or double ridges which originate posteriorly

and flow anteriorly to disappear upon reaching anterior margin. Body ovate or variably spatu-

late. Pseudopods of floating form numerous, longer than central body mass, straight or bent 41

41 (40) Pseudopods of floating form as long as or longer than diameter of central body mass. Body form

changeable in locomotion. Radiating pseudopods of floating form in multiples of two, bent or

kinked along axis Clydonella ... A

A(41) Length 8-12pm; nuclear diameter 2pm C.vivax

A(41) Length up to 40pm B

38

B

Figure 59. — Clydonella vivax: A, B — floating forms; C — beginning locomotion after floating;
D, E, F— locomotive forms; A, D, E— after Schaeffer (1926); B, C, F— after Sawyer (1975c).

20 jum

Ch'donella vivax

Size: Rounded, 6 to 8pm; radiate, body mass, 5 to 6pm, with pseudopods to 30pm across; locomotive, long ovoid to fan-
shaped, 8 to 12pm long by 8 to 12 ^m wide. Pseudopods: Of radiate stage, clear, straight, tapered; round-tipped, 6 to 10
pm long, 1.0pm basal diameter, less than 0.5pm at tips; no pseudopods in locomotion. Uroid: None. Ectoplasm: As
clear anterolateral part, one-half to two-thirds of body in locomotion; with lateral folds along body mass. Endoplasm:
Finely granular. Nucleus: Spherical, pale, 2.0pm diameter, with central endosome, 1.0pm. Vesicles: None. Cyst:
Unknown. Feeding: Bactivorous. Habitat: Marine; shallow coastal waters. Distribution: Known from Atlantic coastal
waters, United States, Gulf of Mexico to Massachusetts. References: Morphology; ecology; description; Schaeffer
(1926); Sawyer (1975c).

B(A) Length 21-40pm; nuclear diameter 4.5pm C. sindermanni

B(A) Length 20p m or less C

Figure 60.

-Clydontlla sindermanni: A, B— floating forms; C, D— loco-
motive forms; after Sawyer (1975b).

Clydonella sindermanni

20 jim

Size: Rounded, 10 to 13pm; radiate, irregular body mass about 5p m across, with pseudopods to 50pm across;
locomotive, ovoid, 21 to 40 p m long by 18 to 37 p m wide (mean, 28 by 27 p m). Pseudopods: Of radiate stage, irregularly

39

twisted, cylindroid, 3 to 5m m diameter, bluntly round-tipped; none in locomotive stage. Uroid: None. Ectoplasm:
Clear, anterior two-thirds of body, formed as waves, ripples, or forked waves over anterior portion. Endoplasm: Finely
granular. Nucleus: Distinct, spherical, 4.5 Mm diameter, with central endosome 3 to 4m m diameter; division by
mesomitosis. Vesicles: Few, small, 2 to 3/u m diameter. Crystals: None. Cyst: Unknown. Feeding: Bactivorous.
Habitat: Marine: shallow bays. Distribution: Atlantic coastal waters, United States, Virginia to Massachusetts.
References: Morphology; culturing; ecology; division; description; Sawyer (1975b).

C(B) Length 14-19/um; nuclear diameter 4. 5m m Clydonellarosenfieldi

C(B) Length 14-20 /j m; nuclear diameter 3-3. 5m m Clydonella wardi

Figure 61. — Clydonella rosenfieldi: A — floating form; B — locomotive form; after Sawyer (1975b).

20 jam

Clydonella rosenfieldi

Size: Rounded, 7 to 8 /u m; radiate stage, body mass 5 to 6 m m, with pseudopods to 40 m m diameter; locomotive, 14 to 19
Mm long by 14 to 19^m wide (mean, 17 by 16^/m). Pseudopods: Of radiate stage, 10 to 16//m long, cylindroid to slightly
tapered, round-tipped, 1.5 to 2^m diameter; none in locomotive stage. Uroid: None. Ectoplasm: Clear, forms anterior
area as wide as two-thirds the length of the body in locomotion, as broken or forked ripples or waves which move forward
over the clear anterior toward the front. Endoplasm: Finely granular. Nucleus: Indistinct, spherical, 4.5m m diameter,
with central endosome 2.0 to 2.5m m diameter; division by mesomitosis. Vesicles: Few, small, 1.0 to 2.0pm; no water-ex-
pulsive vesicle. Crystals: None. Cyst: Unknown. Feeding: Bactivorous. Habitat: Marine; shallow bays. Distribution:
Atlantic coastal waters, United States, Virginia to Massachusetts. References: Morphology; culturing; division;
description; Sawyer (1975b).

Figure 62. — Clydonella wardi: A— floating form; B, C— locomotive forms; after Sawyer

(1975b).

20 jam

40

Clydonella wardi

Size: Rounded, 8 to 10 p m; radiate, body mass 4 to 5 p m diameter, with pseudopods to 30 p m across; locomotive, 14 to 20
P m long by 13 to 19/j m wide (mean, 18 by 16p m). Pseudopods: Of radiate stage, clear, cylindroid, slender, 20 to 25p m
long, 1.5pm diameter; locomotive stage, no pseudopods formed. Uroid: None. Ectoplasm: Clear, as anterior two-thirds
to three-fourths of body length, formed as advancing ripples, which may fork, or shallow waves which disappear at the
anterior margin. Endoplasm: Finely granular, as posterior one-third to one-fourth of body mass. Nucleus: Clear, dis-
tinct, spherical, 3.0 to 3.5 P m diameter, with central endosome 2.5 p m diameter; division by mesomitosis. Vesicles: Few,
0.5 to 3p m diameter. Crystals: None. Cyst: Unknown. Feeding: Bactivorous. Habitat: Marine; shallow bays. Dis-
tribution: Atlantic coastal waters, Virginia to Massachusetts. References: Morphology; culturing; division; descrip-
tion; Sawyer (1975b).

41 (40) Pseudopods of floating form much longer than diameter of central, body mass, or short and

stubby with blunt, rounded tips 42

42 (41) Pseudopods of floating form long, thin, and stellate; may coil like a helix near tip. Body triangu-

late with either dimension the greater of the two Vannella ... A

A(42) Length 50-75pm; nuclear diameter 15pm V. crassa

A(42) Length less than 50p m B

D

Figure 63.-

Vannella crassa: A, B— floating forms; C, D — locomotive forms;
after Schaeffer (1926).

50jam

Vannella crassa

Size: Rounded, 20 to 30pm diameter; radiate, body 15 to 20pm, with pseudopods to 60pm; locomotive, with clear, in-
cised anterior margin, 50 to 75pm long, 50 to 75p m wide. Pseudopods: Of radiate stage, bluntly conical, 5 to 18pm long,
4 to 5 p m basal diameter, 2 to 4 p m diameter at tips; of locomotive stage, few, from body surface, short, blunt. Uroid:
None. Ectoplasm: Clear. Endoplasm: Granular. Nucleus: Spherical, 15p m diameter, with central spherical endosome,
6p m. Vesicles: Several, pale, 2 to 5p m diameter; no water-expulsive vesicle. Crystals: None. Cyst: Unknown. Feeding:
Bactivorous. Habitat: Marine; in tide pools. Distribution: Known from Gulf of Mexico, Florida, U.S.A. References:
Morphology; ecology; description; Schaeffer (1926).

B(A) Length 15-25pm; nuclear diameter 4-6pm V. mira

B(A) Length 13-20pm; nuclear diameter 3pm V. sensilis

Figure 64. — Vannella mira: A— radiate, afloat; B— beginning locomotion after
floating; C, D— locomotive forms; A, B, D— after Bovee (1950); C— after Schaeffer
(1926).

20 jam

41

Vannella mira

Size: Rounded, 8 to 10 p m; radiate, body irregularly round, 5 to 6 p m, with pseudopods to 30 p m diameter; locomotive,
fan-shaped, 15 to 25 p m long by 15 to 25 p m wide. Pseudopods: Of radiate stage, 12 to 20 u m long, clear, conical, bases
partly granular; of locomotive stage, conical, from body, rarely formed, broad clear anterior margin forms none. Uroid:
None. Ectoplasm: Clear. Endoplasm: Finely granular. Nucleus: Spherical, 4 to 6^m diameter, with central endosome,
2 to 3 p m diameter; division, mitotic. Water-expulsive vesicle: None in seawater; 3 to 6 p m in brackish or fresh water; no
other vesicles. Crystals: None. Cyst: Unknown. Feeding: Bactivorous. Habitat: Marine; coastal waters, tide pools, on
algae. Distribution: Known from Atlantic coast, United States, Florida to Maine; Pacific Coast, southern California;
coral reefs, Madagascar. References: Morphology; ecology; distribution; description; Schaeffer (1926), Page (1971a).

Figure 65. — Vannella sensilis: A, B, C — floating
forms; D — beginning locomotion after floating;
E — semiradiate, disturbed stage; F, G, H — locomo-
tive forms; after Bovee (1950, 1953).

20 jum

Vannella sensilis

Size: Rounded, 8 to lOp m; afloat, wrinkled, 10 to 15pm across, or radiate, body mass 8 to 9pm, with pseudopods to 18
p m across; locomotive, fan-shaped, 13 to 20 p m long by 15 to 24 p m wide. Pseudopods: Of radiate stage, 3 to 5 p m long,
basal diameters 2 to 2.5p m, tapered to round tips about 0.8pm diameter; no pseudopods formed in locomotion, but edge
of advancing clear margin often finely dentate. Uroid: None. Ectoplasm: Clear, smooth, as anterolateral, clear margin
and as radiate pseudopods; wrinkled in irregular floating stages. Endoplasm: Clear, finely granular; a few greenish ir-
regular granules 0.8 to 1.5pm. Nucleus: Spherical, 3,um, with round or slightly irregular endosome, 1.5pm diameter;
division, mesomitotic. Vesicles: Food vesicles, 2 to 5pm diameter; no water-expulsive vesicle. Crystals: None. Cyst:
Unknown. Feeding: Herbivorous; on small algae and bacteria. Habitat: Marine; shallow coastal waters, bays, tide
pools. Distribution: Known from Atlantic and Pacific coastal waters, United States, probably worldwide. References:
Morphology; ecology; description; Bovee (1950, 1953), Sawyer (1975c).

42 (41) Pseudopods of floating form short and stubby, or absent; few in number. Body a flattened ovoid,

teardrop shaped, or lingulate 43

43 (42) Body ovoid or disc-shaped with broad, smooth, anterior margin and granular posterior endo-

plasm. Transient, lateral ridges or folds present or absent. Pseudopods of floating form short and

stubby Platyamoeba ... A

A(43) Length 19-35pm; nuclear diameter 3. 5-5pm. Transient lateral folds P. mainensis

A(43) Length less than 20pm; nuclear diameter 2-4.5 pm B

42

_

Figure 66.-

-Platyamoeba mainensis: A — radiate, afloat; B — lobed radiate form; C, D-
locomotive forms; after Page (1971b).

20 jum

Platyamoeba mainensis

Size: Rounded, 10 to 12pm; radiate, body mass 8pm across, with pseudopods to 22pm across; locomotive, broadly ovate
a little longer than broad, 19 to 35pm long (mean, 25pm). Pseudopods: Of radiate stage, bluntly digitate, 5 to 7pm long,
about 1.5pm diameter with rounded tips; no pseudopods in locomotion. Uroid: None. Ectoplasm: Clear, as anterior
portion in locomotion, and pseudopods. Endoplasm: Faintly granular. Nucleus: Spherical, 3.5 to 5pm diameter; with
central endosome, 2.75 to 3pm; division, mitotic without polar caps. Vesicles: Few, with food, 3pm. Crystals: None.
Cyst: Unknown. Feeding: Bactivorous. Habitat: Marine; shallow bays and estuaries. Distribution: Known from At-
lantic coastal waters, United States, Virginia to Maine. References: Morphology; ecology; description; division; Page
(1971b).

B(A) Length 12-15pm; nuclear diameter 4.5pm. Transient transverse ripples or waves P. douvresi

B(A) Length less than 15pm; ridges lateral or absent C

Figure 67.-

-Platyamoeba douvresi: A — rounded, at rest; B — radiate, afloat; C, D-
locomotive forms; after Sawyer (1975b).

20 jim

Platvamoeba douvresi

Size: Contracted, 7 to 8ium\ radiate, body mass 8 to 9pm diameter, with pseudopods, 25 to 27p m across; locomotive, 12
to 15/um long by 10 to 16pm wide (mean, 13 by 12^ m). Pseudopods: Of radiate stage, cylindroid, 7 to 8/um long, 1.5pm
diameter, round-tipped; none formed in locomotion. Uroid: None. Ectoplasm: Pale, glossy, as anterior part of
locomotive body, with moving transverse waves. Endoplasm: Faintly granular. Nucleus: Indistinct, spherical, 4.5pm
diameter, with central endosome 2.0 to 2.5 fin diameter; division by mesomitosis. Vesicles: Few, small, about 1.0pm
diameter. Crystals: None. Cyst: Unknown. Feeding: Bactivorous. Habitat: Marine; shallow bays. Distribution:
Known from Atlantic coastal waters, United States, Virginia to Massachusetts. References: Morphology; ecology; divi-
sion; description; Sawyer (1975b).

C(B) Length ll-12pm; nuclear diameter 3-3. 5pm P. weinsteini

C(B) Length 7-13 pm; nuclear diameter 2pm; ridges absent D

13

Figure 68. — Platyamoeba weinsteini: A, re-

floating forms; C, D-
(1975b).

-locomotive forms; after Sawyer

20 jim

Platyamoeba weinsteini

Size: Contracted, 7 to 8 p m; radiate, body mass 4 to 5 p m across, with pseudopods to 22 p m across; locomotive, ovoid, 11
to 12pm long by 12 to 16pm wide (mean, 12 by 13pm). Pseudopods: Of radiate stage, 7 to 8pm long, cylindroid, 1.75/um
diameter with rounded tips; no pseudopods in locomotion; blunt tongues in descent to substrate. Uroid: None. Ec-
toplasm: Clear, refractile in pseudopods and as anterior half of body with temporary, distinct, transient, lateral folds.
Endoplasm: Faintly granular. Nucleus: Distinct, spherical, 3.0 to 3.5pm, with spherical or elliptical endosome slightly
smaller; division by mesomitosis. Vesicles: Rare, small. Crystals: None. Cyst: Unknown. Feeding: Bactivorous.
Habitat: Marine; shallow bays. Distribution: Known from Atlantic coastal waters, United States, Virginia to Massa-
chusetts. References: Morphology; ecology; division; description; Sawyer (1975b).

D(C) Length 8-13 pm; nuclear diameter 2 p m; nucleus indistinct P. murchelanoi

D(C) Length 7-12/^m; nuclear diameter 2pm; nucleus distinct P. langae

Figure 69.

-Platyamoeba murchelanoi: A, B — floating forms; C, D-
yer (1975b).

-locomotive forms; after Saw-

20 jum

Platyamoeba murchelanoi

Size: Contracted, 5 to 6pm diameter; afloat, irregular, crumpled, 5 to 6p m across; locomotive, ovoid, 8 to 13p m long by
6 to 11pm wide (mean, 11 by 9pm). Pseudopods: Seldom formed, as irregular short, blunt lobes. Uroid: None. Ec-
toplasm: Pale, clear as anterior one-half of the locomotive body, with faint transient, lateral ridges. Endoplasm: Faintly
granular. Nucleus: Indistinct, spherical, 2.0pm diameter, with central endosome 1.0 to 1.5pm diameter; division by
mesomitosis. Vesicles: Few, tiny when present. Crystals: None. Cyst: Unknown. Feeding: Bactivorous. Habitat:
Marine; shallow coastal waters. Distribution: Known from Atlantic coastal waters, Virginia to Massachusetts.
References: Morphology; ecology; division; description; Sawyer (1975b).

44

Figure 70. — Platyamoeba langae: A — "tent-peg" floating form; B — beginning locomotion after
floating; C, D — locomotive forms; after Sawyer (1975b).

20 yaa

Platyamoeba langae

Size: Rounded, 3.5 to 4.5pm; afloat, awl-shaped or twisted, 18 to 23pm long, 2.5pm at blunt end, tapered to 1.5pm at
narrow end; locomotive, ovoid, 7 to 12pm long by 5 to 10pm wide (mean, 9 by 8pm). Pseudopods: Formed in descent
from floating as blunt bulges; none formed in locomotion. Uroid: None. Ectoplasm: Clear, pale, as anterior part of body
in locomotion, rarely with delicate transient lateral folds. Endoplasm: Clear, faintly granular. Nucleus: Spherical, 2pm
diameter, with central endosome, 1.0 to 1.5pm diameter, indistinct; division by mesomitosis. Vesicles: Few, small,
about 1.0pm. Crystals: None. Cyst: Unknown. Feeding: Bactivorous. Habitat: Marine; shallow coastal waters. Dis-
tribution: Known from Atlantic coastal waters, United States, Virginia to Massachusetts. References: Morphology;
ecology; division; description; Sawyer (1975b).

43 (42) Body dimensions about equal, or length 2 or 3 times longer than width in locomotion; ridges or

folds absent. Floating form irregular without radiating pseudopods 44

44 (43) Length and width equal; radiate floating stage absent. Ridges, folds, or ripples absent. No

marine species known Discamoeba

44 (43) Body 2 or 3 times longer than wide in locomotion; ridges, folds, or ripples absent. Floating form

without radiating pseudopods Lingulamoeba leei

Lingulamoeba leei

Figure 71. — Lingulamoeba leei: A — beginning locomotion; B — radiate, afloat; C, D — loco-
motive forms; after Sawyer (1975b).

20 ym

Size: Contracted, 7 to 8p m; afloat, irregular, wrinkled 8 to 9pm across; locomotive, lingulate, 16 to 23pm long by 12.5
(jm wide (mean, 20 by 14.5pm). Pseudopods: Few, when disturbed, cylindroid, often bent, 6 to 8pm long, 1.5pm
diameter, round-tipped, clear; none formed in locomotion. Uroid: Temporary, tubelike for expelling bacteria. Ec-
toplasm: Clear, pale, oblong, as anterior half of body. Endoplasm: Granular, as trailing, triangular half of locomotive
body. Nucleus: Indistinct, spherical, 3.5 pm, with central endosome, 2.5 pm diameter; division by mesomitosis.
Vesicles: Few; small, food vesicles contain bacteria. Crystals: None. Cyst: Unknown. Feeding: Bactivorous. Habitat:
Marine; shallow bays. Distribution: Known from Atlantic coastal waters, United States, Virginia to Massachusetts.
References: Morphology; ecology; division; description; Sawyer (1975b).

45

45 (1) Body discoid to broadly ovoid with more or less rigid plasmalemma; more or less constant body
form in locomotion. Anterior margin clear, smooth or with short, fine pseudopods; posterior
margin smooth or with short trailing uroidal filaments. Hyaline plasmalemma covered with

small granules or scales produced from Golgi complex Cochliopodium ... A

A(45) Body diameter 40/um; nuclear diameter 6. 5-7/t/m C. clarum

A(45) Body diameter 80,um; nuclear diameter 5 /urn C. gulosum

Figure 72. — Cochliopodium clarum: A — radiate, afloat; B — radiate, on
substrate; C, D — locomotive forms; after Schaeffer (1926).

50 jum

Cochliopodium clarum

Size: Contracted, 35 to 4(V m across; afloat, about 30jum; locomotive, circular to slightly ovoid, 401um across, with cen-
tral mass, 25/jm. Pseudopods: Few, short, clear, digitate, 2 to 3/im long at edge of clear, peripheral skirt in locomotion.
Uroid: None. Ectoplasm: Clear, glossy, as peripheral skirt 10 to 12jum wide, with numerous, regularly distributed
granules about 1.5 to 2p m. Endoplasm: Clear; few granules. Nucleus: Spherical, 6.5 to 7. Op m, with central endosome, 5
fjm diameter. Vesicles: Several, nonexpulsive; no food masses. Crystals: None. Cyst: Unknown. Feeding: Bac-
tivorous. Habitat: Marine; bays, harbors. Distribution: Known from Atlantic coastal waters, United States (New
York). References: Morphology; ecology; description; Schaeffer (1926).

A

Figure 73. — Cochliopodium gulosum: A— medusa-like floating
form; B, C— locomotive forms; after Schaeffer (1926).

50 jum

46

Cochliopodium gulosum

Size: Contracted, 60 to 70m m; locomotive, circular to slightly ovoid, 80m m across; central mass, 50Mm. Pseudopods: At
periphery, 3 to 5//m long in locomotion. Uroid: None. Ectoplasm: Clear, glossy, as peripheral skirt about 15m m wide,
with numerous, regularly distributed granules, 1.5 to 2.0m m. Endoplasm: Clear, granular. Nucleus: Spherical, 15pm,
with central endosome, 10m m diameter. Vesicles: None. Crystals: None. Cyst: Unknown. Feeding: Herbivorous; on
diatoms. Habitat: Marine; bays, coastal waters, on eel grass. Distribution: Known from Atlantic coastal waters, United
States (New York). References: Morphology; ecology; description; Schaeffer (1926).

45 (1) Similar to Cochliopodium. Anterior margin smooth and rounded. Posterior margin with several

blunt rounded pseudopods. No marine species known Amphizonella

46 (1) Large, multilobed; uninucleate. Contracted when attached to substrate, branched and radiate

when feeding or in locomotion; numerous branched or forked pseudopods with round tips . Stereomyxa ... A

A(46) Pseudopods lobose with round tips; mononucleate S. angulosa

A(46) Pseudopods tapered and branched; sometimes binucleate, otherwise mononucleate S. ramosa

Figure 74. — Stereomyxa angulosa: A, B — extended, active, contracted; C, D — at rest; after

Grell (1966).

Stereomyxa angulosa

Size: Rounded, 100 to 120m m diameter; locomotive, ramose, 150 to 300Mm long or wide. Pseudopods: Of contracted
state, lobose. 25 to 45m m long, 6 to 8m m diameter, with clear, rounded tip, 10 to 15/im long; of locomotive stage, similar,
but usually lack clear tip. Uroid: None. Ectoplasm: Clear, thin except at tips of pseudopods. Endoplasm: Clear, with
vesicles and granules. Nucleus: Mononucleate; not otherwise described. Vesicles: Many, small, 2 to 6Mm diameter; no
water-expulsive vesicle. Crystals: None; but many granules about 1.0m m. Cyst: Unknown. Feeding: Not described.
Habitat: Marine; on reef corals. Distribution: Reported from coral reefs, Madagascar. References: Description; Grell
(1966).

Figure 75.— Stereomyxa ramosa: A— contracted; B— extended; after Grell (1966).

47

Stereomyxa ramosa

Size: Contracted 250 to 300,um wide; locomotive, ramose, body mass 50 to lOO^m across, with pseudopods up to 1,000
Mm long. Pseudopods: Clear, tapered, branched, sometimes fused, up to 150^10 long, 10 to 12^m at bases, end branches
10 to 50^m long, 1 to 4^m at bases, tips rounded to pointed. Uroid: None. Ectoplasm: Thin, clear, with attached
debris. Endoplasm: Clear, vesicular and granular. Nucleus: Spherical, 12/im diameter, with central endosome, 4 m
diameter, sometimes binucleate. Vesicles: Many, small, 2 to 8fim diameter; no water-expulsive vesicle. Crystals:
None; but many granules. Cyst: Unknown. Feeding: Not described. Habitat: Marine; on coral reefs. Distribution:
Reported from reefs on Madagascar. References: Morphology; description; Grell (1966).

46 (1) Large, multinucleate with compact network-like plasmodial form; or minute, mononucleate,

and forked or leaflike body form 47

47(46) Very large, multinucleate; not leaflike or forked Corallomyxa

Figure 76.— Corallomyxa mutabilis: A— extended, feeding; B— contracted; after Grell (1966).

Corallomyxa mutabilis

Size: Contracted, irregular, 200 to 300^ m across; locomotive, ramose, 2,000 to 3,000p m across, body mass more or less
cruciform. Pseudopods: Ramose, digitate, sometimes fused, 10 to 300jum long, 5 to 20/t/m wide at bases, rounded tips of
terminal branches, 2 to 4,um. Uroid: None. Ectoplasm: Clear, gelatinous, thin, with attached diatoms and debris. En-
doplasm: Clear, with vesicles and granules. Nucleus: Multinucleate (20 or more); each spherical, 10 to 12pm diameter,
with central endosome, 3 to 4/Lim diameter. Vesicles: Many, small, 2 to 8/um diameter; large food vesicles; no water-ex-
pulsive vesicle. Crystals: None; but many granules. Cyst: Unknown. Feeding: Not described. Habitat: Marine; coral
reefs. Distribution: Reported from coral reefs, Madagascar. References: Morphology; description; Grell (1966).

47 (46) Minute, leaflike or forked, or stick-like; locomotion slow. Mononucleate, nucleus indistinct Stygamoeba

Figure 77.— Stygamoeba polymorpha: A, B— contracted forms; C— afloat, radiate; D-
tive forms; after Sawyer (1975a).

20 ^um

48

Stygamoeba polymorpha

Size: Contracted 10 to 15/um across; radiate, body mass 8^m, with pseudopods, to -tO^m across; locomotive, multi-
form, ramose 13 to 17^m across, or elongate to 30^m by 3 to 5yu wide. Pseudopods: Of contracted state, short, blunt,
clear, 2 to 10/um long, 1 to 3/um wide, tips rounded; of radiate stage, 5 to 15/um long, 2 to 4/um diameter, somewhat
twisted or bent; of locomotive stage, continuous with elongate body, which flows into them. Uroid: Absent. Ectoplasm:
Clear, pale, glossy. Endoplasm: Clear, scarcely distinguishable from ectoplasm. Nucleus: Indistinct, round to ovoid, 1.5
to 2.0/um diameter; no endosome visible. Vesicles: None. Crystals: None. Cyst: Unknown. Feeding: Bactivorous.
Habitat: Marine; shallow bays. Distribution: Known from Atlantic coast, United States, from Virginia to Massachu-
setts. References: Morphology; description; Sawyer (1975a).

ANNOTATED SYSTEMATIC LIST

This list is arranged with reference to families, genera,
and species of amoebae. Higher categories are a matter of
dispute concerning the names and arrangements of
classes and orders in the Phylum Protozoa, Subphylum
Sarcodina (cf. Honigberg et al. 1964; Jahn and Bovee
1965; Bovee and Jahn 1965, 1966). All the amoebae here
included would be assigned to the lobose amoebae
whatever the names of the ordinal and class ranks may
be in one or another of the recent taxonomic schemes
(e.g.. Subclass Lobosia, Order Amoebida in Honigberg et
al. 1964; but Subclass Cyclia, Superorder Lobida in
Bovee and Jahn 1965, 1966); and Class Lobosia, Sub-
order Gymnamoebia (Page 1976). Notes on habitat, dis-
tribution, and general occurrence are given. References
to important works are cited.

FAMILY AMOEBIDAE (Diesing 1838)

Amoeba lescherae Taylor and Hayes 1944. Found in
brackish tide pools, British Isles; probably widely dis-
tributed (Taylor and Hayes 1944).

FAMILY PELOMYXIDAE (Poche 1931)

Pelomyxa ostendensis Kufferath 1952. Reported from At-
lantic coastal waters, northern Europe; not otherwise
known (Kufferath 1952).

Trichamoeba schaefferi Radir 1927. Reported from Mon-
terey Bay, Calif.; probably more widely distributed
(Radir 1927).

FAMILY SACCAMOEBIDAE Bovee 1972

Saccamoeba gumia (Schaeffer 1926). Herbivorous on

algae, in tide pools, Atlantic coast, United States

(Schaeffer 1926).
Saccamoeba fuluum (Schaeffer 1926). Herbivorous on

diatoms, Atlantic coastal waters, United States

(Schaeffer 1926).
Rhizamoeba polyura Page 1972. Bactivorous, in shallow

estuaries. Known from Virginia to Massachusetts,

Atlantic coastal waters, United States (Page 1972a).
Rhizamoeba pallida (Schaeffer 1926). Bactivorous, in

shallow coastal waters. Gulf of Mexico and Atlantic

coast, United States (Schaeffer 1926).

Rhizamoeba sphaerarum (Schaeffer 1926). Herbivorous
on small algae, bacteria. Known from shallow coastal
waters, Gulf of Mexico and Atlantic coast, United
States (Schaeffer 1926).

FAMILY HARTMANNELLIDAE Volkonsky 1931

Hartmannella tahitiensis Cheng 1970. Bactivorous, cyti-
vorous, possibly a commensal in oysters, Crassostrea
commercialis. Reported from commercially developed
oyster beds in Tahiti; perhaps widely distributed
(Cheng 1970).

Janickina pigmentifera (Grassi 1879). Parasitic, in testis
of marine arrow worms (Chaetognatha). Reported
from Mediterranean Sea and Atlantic Ocean (Janicki
1912).

Janickina chaetognathi (Janicki 1912). Parasitic in testis
of marine arrow worms (Chaetognatha). Reported
from Mediterranean Sea and Atlantic Ocean (Janicki
1912).

FAMILY VAHLKAMPFIIDAE Jollos 1919

Vahlkampfia baltica Schmoller 1961. Bactivorous, re-
ported from shallow coastal waters, Europe (Schmoller
1961).

Vahlkampfia salina (Hamburger 1905). Bactivorous, in
shallow coastal waters, tidal pools. Known from Medi-
terranean and Atlantic waters, Europe and United
States (Virginia), probably widely distributed (Ham-
burger 1905).

Vahlkampfia longicauda Schmoller 1964. Bactivorous,
known from shallow Atlantic coastal waters, bays,
Europe and United States (Virginia, possibly Massa-
chusetts). Reference, Schmoller (1964).

Heteramoeba clara Droop 1962. Herbivorous, on algae
and bacteria, in shallow coastal waters. Reported from
northern Atlantic waters, Europe; possibly widely dis-
tributed (Droop 1962).

FAMILY PARAMOEBIDAE Poche 1913

Paramoeba eilhardi Schaudinn 1895. Herbivorous on
diatoms, in marine waters, crawling on substrate or
floating. Known from Atlantic coastal waters, Europe,
and United States; probably worldwide. References,
Schaudinn (1896), Grell (1961), Sprague et al. (1969).

49

Paramoeba pemaquidensis Page 1970. Bactivorous, in
shallow waters over sandy beaches. Known from At-
lantic coastal waters, United States, Maine to Virginia
(Page 1970b).

Paramoeba aesturina Page 1970. Bactivorous, in marine
coastal waters. Known from Atlantic waters, United
States. Maine to Virginia (Page 1970b).

Paramoeba perniciosa Sprague et al. 1969. Parasitic,
perhaps cytivorous, inhemolymph of the blue crab,
Callineetes sapidus, causing the "grey crab disease."
Known from Atlantic coastal waters, United States,
Virginia and Maryland; perhaps widely distributed.
References, Sprague and Beckett (1966), Sawyer
(1969), Sprague et al. (1969).

FAMILY MASTIGAMOEBIDAE Goldschmidt 1907

Mastigamoeba aspera Schulze 1875 (emended by
Page 1970). Herbivorous, on algae, in estuarine tidal
pools, fresh water or marine, Atlantic coast, United
States, Maine; probably cosmopolitan (Schulze 1875;
Page 1970a).

FAMILY MAYORELLIDAE Schaeffer 1926

coast, United States, Virginia to Massachusetts
(Sawyer 1975a).

Vexillifera minutissima n. sp. Bactivorous, in shallow
bays, estuaries, backwaters. Known from Atlantic
coast. United States, Virginia to Massachusetts.

Triaenamoeba jachowskii Sawyer 1975. Bactivorous, in
shallow bays. Known from Atlantic coast, United
States, Virginia to Massachusetts (Sawyer 1975a).

Striolatus tardus Schaeffer 1926. Herbivorous on dia-
toms, in shallow coastal waters. Known from Atlantic
coast. United States, Florida to New Jersev (Schaeffer
1926).

Pontifex maximus Schaeffer 1926. Herbivorous, on
brown algae, in shallow coastal waters, northeastern
United States; also reported from coral reefs, Mada-
gascar (Schaeffer 1926).

Dinamoeba acuum (Schaeffer 1926). Herbivorous on
small algae, in shallow, muddy coastal waters. Known
from Gulf of Mexico and Atlantic coast, United States
(Schaeffer 1926).

Boueella obscura Sawyer 1975. Herbivorous, on diatoms,
in shallow bays under bottom detritus. Known from
Atlantic coast, United States, Virginia to Massachu-
setts (Sawyer 1975a).

Mayorella crystallus Schaeffer 1926. Carnivorous on
small flagellates. In coastal waters. Known from Gulf
of Mexico; probably widely distributed (Schaeffer
1926).

Mayorella gemmifera Schaeffer 1926. Herbivorous on
marine algae. Known from Gulf of Mexico; probably
widely distributed (Schaeffer 1926).

Mayorella eonipes Schaeffer 1926. Herbivorous on algae,
in coastal waters. Known from Atlantic coast, United
States, Florida to New York (Schaeffer 1926).

Mayorella corlissi Sawyer 1975. Herbivorous on algae, in
shallow bays and estuaries. Known from Atlantic
coastal waters, United States, Virginia to Massachu-
setts (Sawyer 1975a).

Mayorella smalli Sawyer 1975. Bactivorous, in shallow
bays and estuaries. Known from Atlantic coastal
waters, United States, Virginia (Sawyer 1975a).

Vexillifera aurea Schaeffer 1926. Herbivorous on dia-
toms, in coastal waters. Known from Gulf of Mexico
(Schaeffer 1926).

Vexillifera telmathalassa Bovee 1956. Bactivorous, in
shallow coastal waters, tidal pools, sandy beaches.
Known from Atlantic coast, United States, Florida to
Massachusetts; also the Pacific coast, California (Bo-
vee 1956; Mitchell and Yankofsky 1969).

Vexillifera ottoi Sawyer 1975. Bactivorous, in shallow
bays and estuaries. Known from Atlantic coast, United
States, from Virginia to Massachusetts (Sawyer
1975a).

Vexillifera pagei Sawyer 1975. Bactivorous, in shallow
bays and estuaries, Atlantic coast, United States, Vir-
ginia to Massachusetts (Sawyer 1975a).

Vexillifera browni Sawyer 1975. Bactivorous, in shallow
bays and estuaries, backwaters. Known from Atlantic

FAMILY ACANTHAMOEBIDAE

Sawyer and Griffin 1975

Acanthamoeba gigantea Schmoller 1964. Bactivorous,
scavenging in marine coastal waters; tolerates fresh
water. Known from Atlantic coasts of Europe and
United States; probably worldwide (Schmoller 1964).

Acanthamoeba griffini Sawyer 1971. Bactivorous, in
shallow coastal waters; tolerates brackish or fresh
water (Sawyer and Griffin 1975). Known from Atlantic
coast, United States, Virginia to Connecticut; probably
cosmopolitan (Sawyer 1971).

FAMILY FLABELLULIDAE (Bovee 1970)

Flabellula citata Schaeffer 1926. Bactivorous, in shallow
coastal waters, bays, estuaries; tolerates brackish
water. Known from Atlantic coast. United States.
Florida to Maine (Schaeffer 1926; Bovee 1965; Page
1971a).

Flabellula calkinsi (Hogue 1914). Bactivorous, in shallow
bays, estuaries. Known from Atlantic coast. United
States, Maryland to Maine (Hogue 1914; Page 1971a).

Flabellula patuxent (Hogue 1921). Bactivorous, scaveng-
ing, commensal in gut of oysters, also free living, in
shallow bays, estuaries, Atlantic coast. United States
(Hogue 1921).

Flabellula pellucida Schaeffer 1926. Bactivorous, in
coastal waters. Known from Gulf of Mexico, Florida
(Schaeffer 1926).

Flabellula reniformis (Schmoller 1964). Bactivorous, in
brackish coastal waters, with algae. Known from At-
lantic coastal waters (Schmoller 1964).

50

Flabellula hoguae Sawyer 1975. Bactivorous, in shallow
bays, estuaries, coastal waters on rocks. Known from
Atlantic coast. United States, Florida to Massachu-
setts (Sawyer 1975a).

Flamella magnifica Schaeffer 1926. Herbivorous on al-
gae, in coastal waters. Known from Gulf of Mexico,
Florida (Schaeffer 1926).

FAMILY HYALODISCIDAE Poche 1913

Hyalodiscus angelouici Sawyer 1975. Bactivorous, in
shallow bays, estuaries. Known from Atlantic coast,
United States, Virginia to Massachusetts (Sawyer
1975b).

Gibbodiscus gemma Schaeffer 1926. Bactivorous, in tidal
pools, Gulf of Mexico, Florida (Schaeffer 1926).

Gibbodiscus newmani Sawyer 1975. Bactivorous, in shal-
low bays, estuaries, Atlantic coast, United States, Vir-
ginia to Massachusetts (Sawyer 1975b).

[fnda maris Schaeffer 1926. Bactivorous, in tidal pools,
shallow coastal waters, Atlantic coast, United States,
Florida to Massachusetts (Schaeffer 1926).

Unda elegans Schaeffer 1926. Bactivorous, in tidal pools,
Atlantic coastal waters, United States, New York
(Schaeffer 1926).

Unda schaefferi Sawyer 1975. Bactivorous, in shallow
bays, Atlantic coast, United States, Virginia to Massa-
chusetts (Sawver 1975b).

FAMILY THECAMOEBIDAE Schaeffer 192(i

Thecamoeba terricola (Greeff 1866). Omnivorous on
Protozoa, algae, small invertebrates. Fresh water,
tolerates seawater, brackish water, in moist soil, detri-
tus, on submerged vegetation. Reported from scattered
marine collections; potentially cosmopolitan (Leidy
1879; Penard 1902, 1905; Glaser 1912).

Striamoeba munda (Schaeffer 1926). Herbivorous on
blue-green algae, in shallow coastal waters, Gulf of
Mexico, Atlantic coast, United States (Schaeffer 1926).

Striamoeba hilla (Schaeffer 1926). Herbivorous on algae,
in coastal waters, Atlantic coast, United States, Flor-
ida to Maine (Schaeffer 1926; Page 1971b).

Striamoeba rugosa (Schaeffer 1926). Bactivorous, in
coastal waters, Gulf of Mexico, Atlantic coast, United
States (Schaeffer 1926).

Striamoeba orbis (Schaeffer 1926). Bactivorous, in
coastal waters, Atlantic coast, United States, Florida
to Maine (Schaeffer 1926; Page 1971b).

Striamoeba hoffmani (Sawyer et al. 1975). Bactivorous,
perhaps cytivorous, free living and opportunistic para-
site on gills of fingerling salmonid fish. Known from
Pacific coast, Oregon and Washington, hatcheries in
Michigan, potentially cosmopolitan (Sawyer et al.
1975).

Clydonella uivax (Schaeffer 1926). Bactivorous, in shal-
low bays, estuaries, Atlantic coast, United States,
Florida to Massachusetts (Schaeffer 1926; Sawyer
1975b, 1975c).

Clydonella sindermanni Sawyer 1975. Bactivorous, in
shallow bays, Atlantic coast, United States, Virginia
to Massachusetts (Sawyer 1975b).

Clydonella rosenfieldi Sawyer 1975. Bactivorous, in shal-
low bays, Atlantic coast, United States, Virginia to
Massachusetts (Sawyer 1975b).

Clydonella wardi Sawyer 1975. Bactivorous, in shallow
bays, Atlantic coast, United States, Virginia to Massa-
chusetts (Sawyer 1975b).

Vannella crassa (Schaeffer 1926). Bactivorous, in tidal
pools. Known from Gulf of Mexico, Florida (Schaeffer
1926).

Vannella mira (Schaeffer 1926). Bactivorous, in coastal
waters, tidal pools, on algae. Known from Atlantic
coast, United States, Florida to Maine; Pacific coast
of Southern California; coral reefs of Madagascar
(Schaeffer 1926; Bovee 1950; Page 1971a).

Vannella sensilis (Bovee 1953). Herbivorous on small al-
gae, bacteria in shallow coastal waters, bays, tidal
pools. Known from Atlantic and Pacific coasts, United
States (Bovee 1950, 1953; Sawyer 1975c).

Platyamoeba mainensis Page 1971. Bactivorous, in shal-
low bays and estuaries, Atlantic coast, United States,
Virginia to Maine (Page 1971b).

Platyamoeba douvresi Sawyer 1975. Bactivorous, in shal-
low bays, Atlantic coast, United States, Virginia to
Massachusetts (Sawyer 1975b).

Platyamoeba weinsteini Sawyer 1975. Bactivorous, in
shallow bays, Atlantic coast, United States, Virginia
to Massachusetts (Sawyer 1975b).

Platyamoeba murchelanoi Sawyer 1975. Bactivorous, in
shallow coastal waters, Atlantic coast, United States,
Virginia to Massachusetts (Sawyer 1975b).

Platyamoeba langae Sawyer 1975. Bactivorous, in shal-
low coastal waters, Atlantic coast, United States (Saw-
yer 1975b).

Lingulamoeba leei Sawyer 1975. Bactivorous, in shallow
bays, Atlantic coast, United States, Virginia to Massa-
chusetts (Sawyer 1975b).

FAMILY COCHLIOPODIIDAE Taranek 1882

Cochliopodium clarum Schaeffer 1926. Bactivorous, in
bays, harbors, Atlantic coast, United States, New
York (Schaeffer 1926).

Cochliopodium gulosum Schaeffer 1926. Herbivorous on
diatoms, in bays, coastal waters, on eel grass, Atlantic
coast, United States, New York (Schaeffer 1926).

FAMILY STEREOMYXIDAE Grell 19fi«

Stereomyxa angulosa Grell 1966. Known only from coral
reefs, Madagascar (Grell 1966).

51

Stereomyxa ramosa Grell 1966. Known only from coral
reefs, Madagascar (Grell 1966).

Corallomyxa mutabilis Grell 1966. Known only from
coral reefs, Madagascar (Grell 1966).

Stygamoeba polymorpha Sawyer 1975. Reported from
shallow bays, Atlantic coast, United States, from Vir-
ginia to Massachusetts (Sawyer 1975a).

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53

SYSTEMATIC INDEX

Acanthamoeba gigantea 27,50

Acanthamoeba griffini 27, 28, 50

Acanthamoebidae 27, 28, 50

Amoeba lescherae 6, 7, 49

Amoebidae 6, 49

Amphizonella 47

Boveella obscura 26, 27, 50

Chaos 7

Clydonella 38

Clydonella rosenfieldi 40, 51

Clydonella sindermanni 39, 51

Clydonella vivax 38, 39, 51

Clydonella wardi 40, 41, 51

Cochliopodiidae 3, 6, 51

Cochliopodium 46, 47

Cochliopodium clarum 46, 51

Cochliopodium gulosum 46, 47, 51

Corallomyxa 48

Corallomyxa mutabilis 48, 52

Dinamoeba 26

Dinamoeba acuum 26, 50

Discamoeba 45

Eehinamoeba 28

Echinamoebidae 28

Filamoeba 28

Flabellula 28

Flabellula calkinsi 29, 50

Flabellula citata 28, 29, 50

Flabellula hoguae 30, 31, 51

Flabellula patuxent 29, 30, 50

Flabellula pellucida 30, 50

Flabellula reniformis 30, 31, 50

Flabellulidae 28, 50

Flagellipodium 27

Flamella magnifica 31, 32, 51

Gibbodiscus 32

Gibbodiscus gemma 32, 33, 51

Gibbodiscus newmani 32, 33, 51

Glaeseria 11

Hartmannella 11

Hartmennella tahitiensis 11, 49

Hartmannellidae 11, 49

Hartmannina 11

Heteramoeba clara 14, 49

Hyalodiscidae 32, 51

Hyalodiscus 32

Hyalodiscus angelovici 32, 51

Hydramoeba 7

Janickina 11

Janickina chaetognathi 11, 12, 49

Janickina pigmentifera 11, 12, 49

Lingulamoeba leei 45, 51

Mastigamoebidae 17, 50

Mastigamoeba aspera 17, 18, 50

Mayorella 16, 18, 21, 26, 27

Mayorella conipes 19, 50

Mayorella corlissi 19, 20, 50

Mayorella crystallus 18, 50

Mayorella gemmifera 18,

Mayorella smalli 19,

Mayorellidae 3,

Metachaos

Naegleria

Oscillosignum

Paramoeba

Paramoeba aesturina

Paramoeba eilhardi

Paramoeba pemaquidensis

Paramoeba perniciosa 2,

Paramoebidae 3,

Pelomyxa ostendensis 7

Pelomyxidae

Platyamoeba

Platyamoeba douvresi

Platyamoeba langae 44,

Platyamoeba mainensis 42,

Platyamoeba murchelanoi

Platyamoeba weinsteini 43,

Polychaos

Pontifex maximus 25,

Rhizamoeba

Rhizamoeba pallida

Rhizamoeba polyura 9,

Rhizamoeba sphaerarum

Saccamoeba

Saccamoeba fulvum 8

Saccamoeba gumia 8

Saccamoebidae

Stereomyxa

Stereomyxa angulosa

Stereomyxa ramosa 47,

Stereomyxidae

Striamoeba

Striamoeba hilla 36,

Striamoeba hoffmani 37,

Striamoeba munda

Striamoeba orbis 37,

Striamoeba rugosa

Striolatus tardus 24,

Stygamoeba

Stygamoeba polymorpha 48,

Subulamoeba

Thecamoeba

Thecamoeba terricola

Thecamoebidae

Triaenamoeba

TYiaenamoeba jachowskii

Trichamoeba schaefferi

Unda

Unda elegans

Unda maris 33,

Unda schaefferi 34,

Vahlkampfiidae

Vahlkampfia 12,

Vahlkampfia baltica 12,

Vahlkampfia longicauda 13,

54

Vahlkampfia salina 13, 49

Vannella 41

Vannella crassa 41, 51

Vannella mira 2, 41, 42, 51

Vannella sensilis 41, 42, 51

Vexillifera 21, 24, 26

Vexillifera aurea 21, 50

Vexillifera browni 23, 50

Vexillifera minutissima 1, 23, 50

Vexillifera ottoi 22, 50

Vexillifera pagei 22, 23, 50

Vexillifera telmathalassa 21, 22, 50

ACKNOWLEDGMENTS

Preparation of the "Marine Flora and Fauna of the Northeast-
ern United States" is being coordinated by the following board:
Coordinating Editor: Melbourne R. Carriker, College of Mar-
ine Studies, University of Delaware,
Lewes, DE 19958.
Editorial Advisers: Marie B. Abbott, Marine Biological
Laboratory, Woods Hole, Mass.

Arthur G. Humes, Boston University
Marine Program, Marine Biological
Laboratory, Woods Hole, Mass.

Wesley N. Tiffney, Department of Bio-
logy, Boston University, Boston, Mass.

Ruth D. Turner, Museum of Compara-
tive Zoology, Harvard University,
Cambridge, Mass.

Roland L. Wigley, National Marine
Fisheries Service, Northeast Fisheries
Center, Woods Hole, Mass.

Robert T. Wilce, Department of Botany,
University of Massachusetts, Am-
herst, Mass.

The Board, which established the format for the "Marine
Flora and Fauna of the Northeastern United States," invites
systematists to collaborate in the preparation of manuals,
reviews manuscripts, and advises the Scientific Editor of the
National Marine Fisheries Service.

Frederick C. Page and Joe L. Griffin contributed helpful com-
ments and criticisms for the key. Illustrations were drawn by
Eugene C. Bovee. The manuscript was typed by Elizabeth A.
Bovee and Dorothy L. Sawyer. Preparation of the manual was
aided by a one semester sabbatical leave to Eugene C. Bovee by
the University of Kansas, and partial support by research grants
from the Water Resources Research Institute to Eugene C.
Bovee. Facilities of the National Marine Fisheries Service at
Oxford, Md., Franklin City, Va., Sandy Hook, N.J., and Woods
Hole, Mass., were made available to one or both authors during
preparation of the manuscript.

We gratefully acknowledge Carl Sindermann and Aaron
Rosenfield, National Marine Fisheries Service, for their con-
tinuous support of studies on amoebae in Chincoteague Bay,
Va., and Melbourne R. Carriker for his invitation to prepare the
manuscript.

55

COORDINATING EDITOR'S COMMENTS

Publication of the "Marine Flora and Fauna of the North-
eastern United States" is most timely in view of the growing uni-
versal emphasis on environmental work and the urgent need for
more precise and complete identification of coastal organisms
than has been available. It is mandatory, wherever possible,

that organisms be identified accurately to species. Accurate
scientific names unlock the great quantities of biological infor-
mation stored in libraries, obviate duplication of research al-
ready done, and often make possible prediction of attributes of
organisms that have been inadequately studied.

Eugene C. Bovee began his studies on amoebae as a graduate
student at the State University of Iowa in 1947 and continued
them during a doctoral degree program at the University of
California at Los Angeles, 1948-50. He has continued his
research on systematics of amoebae and amoeboid movements

on both east and west coasts of the United States and at inland
stations while holding appointments successively at the Univer-
sity of Northern Iowa, the California State Polytechnic Univer-
sity at San Luis Obispo, the North Dakota State University, the
University of Houston, Texas, the University of Florida, the
University of California at Los Angeles, and, currently, the
University of Kansas, where he is Professor of Physiology and
Cell Biology.

Thomas K. Sawyer studied biology at the American Univer-
sity, George Washington University, and the University of
Maryland. He began government service as a parasitologist in
1953 and has held posts successively at the National Institutes
of Health, the U.S.D.A., the U.S.P.H.S.. the Walter Reed Army
Institute of Research, the Hazelton Laboratories, and, since
1964, with the National Marine Fisheries Service, as Senior
Fisheries Biologist, at Oxford, Md. In that post he began studies
of marine amoebae and their roles as parasites of shellfish and in
environmental biodegradation. He has studied them in-
tensively since 1966, receiving his doctoral degree in Zoology in
1973 from the University of Maryland for his studies on the
amoebae of Chincoteague Bay. Those studies identified 3 new
genera and 24 new species of marine amoebae.

Preparation of this manual was supported in part by a grant
from the Environmental Protection Agency to the Editorial
Board of the "Marine Flora and Fauna of the Northeastern
United States." Work on the "Marine Flora and Fauna of the
Northeastern United States" by the Coordinating Editor is sup-
ported by the College of Marine Studies, University of Delaware.

Manuals are available for purchase from the Superintendent
of Documents, U.S. Government Printing Office, Washington,
D.C. 20402. The manuals so far published in the series are listed
below.

Marine Flora and Fauna of the Northeastern United States:

COOK, DAVID G., and RALPH 0. BRINKHURST. Annelida: Oligochaeta.

BORROR, ARTHUR C. Protozoa: Ciliophora.

MOUL, EDWIN T. Higher Plants of the Marine Fringe.

McCLOSKEY, LAWRENCE R. Pycnogonida.

MANNING, RAYMOND B. Crustacea: Stomatopoda.

WILLIAMS, AUSTIN B. Crustacea: Decapoda.

POLLOCK, LELAND W. Tardigrade.

LARSON, RONALD J. Cnidaria: Scyphozoa.

CAVALIERE, A. R. Higher Fungi: Ascomycetes, Deuteromycetes, and Basidiomycetes.

COULL, BRUCE C. Copepoda: Harpacticoida.

CUTLER, EDWARD B. Sipuncula.

PAWSON, DAVID L. Echinodermata: Holothuroidea.

HO, JU-SHEY. Copepoda: Lernaeopodidae and Sphyriidae.

HO, JU-SHEY. Copepoda: Cyclopoids Parasitic on Fishes.

CRESSEY, ROGER F. Crustacea: Branchiura.

BOVEE, EUGENE C, and THOMAS K. SAWYER. Protozoa: Sarcodina: Amoebae.

Circular
No.

374
378
384
386
387
389
394
397
398
399
403
405
406
409
413
419

NTIS No.

COM 73 50670
COM 73 50888
COM 74 50019
COM 74 50014
COM 74 50487
COM 74 51194
PB 257 987
PB 261 839
PB 268 036
PB 268 714
PB 273 062
PB 274 999
PB 280 040
PB 281 969
PB 222 923
PB 285 538

56

388. Proceedings of the first U.S. -Japan meeting on aquaeulture at
Tokyo. .Japan, October 18-19, 1971. William N. Shaw (editor). (18
papers, 14 authors.) February 1974, iii + 133 p. For sale by the
Superintendent of Documents, U.S. Government Printing Office,
Washington, D.C. 20402.

389. Marine flora and fauna of the northeastern United States.
Crustacea: Decapoda. By Austin B. Williams. April 1974, iii + 50 p.. Ill
figs. For sale by the Superintendent of Documents, U.S. Government
Printing Office," Washington, D.C. 20402.

390. Fishery publications, calendar year 1973: Lists and indexes. By
Mary Ellen Engett and Lee C. Thorson. September 1974, iv + 14 p., 1 fig.
For sale by the Superintendent of Documents, U.S. Government Printing
Office, Washington, D.C. 20402.

391. Calanoid copepods of the genera Spinocalanus and Mimocalanu.s
from the central Arctic Ocean, with a review of the Spinocalanidae. By
David M. Damkaer. -June 1975, x + 88 p., 225 figs., 4 tables. For sale

bv the Superintendent of Documents, U.S. Government Printing Office,
Washington, D.C. 20402.

392. Fishery publications, calendar year 1974: Lists and indexes. By
Lee C. Thorson and Mary Ellen Engett. June 1975, iv + 27 p., 1 fig.

393. Cooperative Gulf of Mexico estuarine inventory and study — Texas:
Area description. By Richard A. Diener. September 1975, vi + 129 p.,
55 figs., 26 tables.

394. Marine Flora and Fauna of the Northeastern United States. Tar-
digrada By Leland VY. Pollock. .Vlav 197fi. iii + 25 p., figs. For sale
In the Superintendent of Documents, U.S. Government Printing Office,
Washington, D.C. 204112.

395. Report of a colloquium on larval fish mortality studies and their
relation to fishery research, January 1975. By John R. Hunter. May
197H, iii + 5 p. For sale by the Superintendent of Documents, U.S.
Government Printing Office, Washington, D.C. 20402.

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