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'Czrcular No. 828 | 

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Scraping and Banding Apple Trees as a 
Supplementary Codling Moth Control 
Measure in the Pacific Northwest 


By M. A. YorHerRS and F. W. Cartson, entomologists, Bureau of Entomology 
and Plant Quarantine, Agricultural Research Administration * 


CONTENTS 

Page Page 

introductions] 2440p 2 sa 1| Sticky bands as compared with 
Location of overwintering larvae_ 2| beta-naphthol bands-------_-- 11 

Percentage of larvae removed by Large-scale orchard tests of 
SORA Y OMI OVS NG a gan ae ae t scraping and banding_----- 1 
Proportion of larvae caught in Experimental methods- --_-—-~ - Tat 
bands after leaving the fruit__ 4 Description of plots___------- at 
Larvae caught in trunk bands esults Ol veSts.2 == 45" see 13 

audelimibpoands= sels LS 6| Methods of scraping and band- 
Effect of density of infestation on DE ey Nee ete wee ee ee 16 
number of larvae caught in SChApIn ge Sa) a ae eee 16 
limb bands and trunk bands-_- tf Ban Gineeckos oe ea See Ei 
Influence of apple variety on Band Temoval en 22 222 bk ile 
number of larvae caught__-___ 7 | Cost of scraping and banding_ - - - 20 
Time required for beta-naphthol Sula Taye a ee AY a es 21 
lostacl SeGOp lanl See seo PP oiteracureicited-s: 7) Se) eS! 22 

INTRODUCTION 


Scraping and banding apple trees to trap the larvae of the codling 
moth (Carpocapsa pomonella (1.)) have long been common supple- 
mentary control practices. During the last century these practices 
were followed very extensively, but with the advent of spraying they 
fell more or less into disuse. However, in about 1927 difficulties 
encountered with spray residues and the development of chemically 
treated bands by Siegler e¢ al. (10, 11, 12)? and by others gave re- 
newed impetus to scraping and banding. 

The band developed by Siegler and other workers consists of cor- 
rugated paper strips coated with beta-naphthol dissolved in a heavy 


* Acknowledgment is made to E. J. Newcomer, in charge of the Yakima, Wash., 
laboratory of the Bureau of Entomology and Plant Quarantine, where these 
studies were made, for suggestions throughout the work, and to F. P. Dean, also 
of this laboratory, for assistance with the statistical analyses. 

* Italic numbers in parentheses refer to literature cited, p. 22. 


842504—50——1 ] 


2 CIRCULAR 828, U. S. DEPARTMENT OF AGRICULTURE 


lubricating oil. The chemical kills the larvae that enter. The older 
types of band, consisting of burlap, building paper, or other material, 
had to be removed at intervals of 10 to 14 days, so that the larvae 
might be destroyed by mechanical means. The new chemical bands. 
work automatically and are allowed to remain undisturbed until well 
after fruit harvest or until the following spring. 

The bands are appled to the trees in June, just before the first 
jarvae leave the fruit. 

All but a few of the larvae caught before the end of July would have 
produced a second brood of moths during the current season. Only a 
few of the larvae caught after the third week in August, however, 
would have changed into moths. Banding, therefore, is immediately 
effective during the fore part of the season in reducing the second- 
brood population the same season, but late in the summer the effect 
is greatest in reducing the overwintering larvae. 

It is necessary to scrape the rough bark thoroughly from the trees 
to obtain the maximum benefit from banding. Scraping serves a two- 
fold purpose: (1) To remove and destroy the hibernating larvae and 
thereby reduce the potential moth population for the following sea- 
son, and (2) to eliminate the cocooning quarters for the later full- 
grown larvae after they leave the fruit, thus inducing a greater pro- 
portion of them to enter the bands and be destroyed. In this way 
scraping and banding constitute one supplementary control measure, 
although either will afford some benefit if used alone. 

Experimental scraping and banding and related studies have been 
carried on in different parts of the country under a great variety of 
conditions. Some of this work is discussed in the following refer- 
ences: Baker (7, 2), Gould and Geissler (4), Marshall (5), New- 
comer (7), Newcomer et al. (8), Steiner (73, 14), Steiner and Acker- 
man (75), Steiner and Marshall (16), Woodside (17, 78), Worthley 
(19), Yothers (20, 21, 22), and Yothers and Carlson (24, 25, 26). 

This circular brings together work done by the present authors in ~ 
the Northwest during the period 1935-43, after which this phase of 
the work was discontinued. Comparatively little emphasis is now 
being placed on scraping and banding for codling moth control, be- 
cause of the use of the highly effective insecticide DDT, the greatly 
increased cost of labor and the development by the authors ( Yothers 
and Carlson 27) of trunk sprays, which are about as effective as 
scraping and banding and are less expensive and require less labor. 


LOCATION OF OVERWINTERING LARVAE 


Over a period of 6 years near Yakima, Wash., the location of the 
larvae on or near 80 trees in 8 orchards that had never been scraped, 
and on 104 trees in 11 orchards that had been scraped and banded the 
preceding season, was recorded after minute examination. Larvae on 
trunks, in the lower crotches, and in the soil at the base of the trees 
were classed as on the trunks; those on the scaffold limbs above their 
union with the trunk and as far up-as the rough bark extended, or to 
secondary limbs, were classed as on scaffold limbs; while those on 
secondary and smaller branches beyond scaffold limbs were classed 
as on the branches. 

The trash and soil were sampled as follows: The surface trash from 
one-fourth of the area (a 90° sector) under a tree, for a distance of 


3 


SCRAPING AND BANDING FOR CODLING MOTH CONTROL 


6 feet from the tree base, was run through a sifting machine (Carlson 
and Yothers 3), and the residue was carefully examined for cocooned 
larvae. The soil below the place where the trash had been removed 
was also sifted and the residue examined. The number of individuals 
recovered from the trash or soil was then multiphed by four to obtain 
the total numbers presumably present under the tree. The results of 
these studies are summarized in table 1. 


Tasie 1.—Distribution of overwintering codling moth larvae on 
apple trees, 1938-43 


Larvae on or in— 


Treatment of trees in Total a rs aa | = pe 
revious years larvae r 
se “A Trunks Scaffold Branches Trash Soil 
limbs 
Not scra pe d and | Number | Percent Percent Percent Percent | Percent | Number 
DanGded ean ear 13, 435 42 43 3 168 
Secraped and banded _ | 2, 275 20 21 50 8 1 22 


The larval populations in the trash and soil appear to be of little 
importance in commercial orchards in the Yakima district. The 
population on the trees that had been scraped and banded the pre- 
ceding season or seasons had been markedly reduced by the treatment. 
On these trees the rough bark had been cleaned off and the trash 
against the base of the tree cleared away, so that there were few places 
for the larvae to hide. Consequently, most of them settled in the 
sheltered spots available on the branches, in pruning wounds, and in 
the trash on the ground. 

In 46 trees scraped and banded the previous year and examined 
in the spring before moth emergence, 1,219 codling moth larvae 
hibernated as follows : 32 percent in rough bark, 22 percent in pruning 
wounds and broken limbs, 16 percent in crotches, 11 percent in knots, 
11 percent in trash and soil beneath the trees, and 8 percent in miscel- 
laneous places. In 37 trees not scraped and banded and examined in 
the spring before moth emergence, 4,072 larvae hibernated as follows: 
63 percent in rough bark, 4 percent in pruning wounds and broken 
limbs, 23 percent in crotches, 3 percent in knots, 4 percent in trash 
and soil beneath the trees, and 8 percent in miscellaneous places. 

Most of the rough bark had been removed in scraping and the 
crotches were largely cleaned out; therefore the percentage of worms 
in these places was reduced. In all other locations the percentages 
were greater In scraped and banded trees. The theory that scraping 
drives a larger proportion of the larvae into the less accessible places, 
thereby prolonging moth emergence, is substantiated by these figures; 
however, although the percentage of larvae driven to these ‘locations 
was greater, no larger numbers were found there. 

The location and type of hibernating places were determined in 
March, April, and early in May, and do not represent a stationary 
condition. There is probably considerable variation between fall and 
spring percentages of larvae in the different locations. Many of the 
larvae that have spun up in the trash and fruit under the trees and in 
the soil at the base of the trees, and the more exposed individuals on 
the trunk, scaffold limbs, and branches had doubtless been destroyed 


4 CIRCULAR 828, U. S. DEPARTMENT OF AGRICULTURE 


by birds and rodents. ‘The larvae that had not been disturbed by 
spring were the ones found and recorded in these studies. 

Many larvae were also found in such places as rotten spots on trees, 
empty sacks, papers, old clothes, broken boxes, spliced tree props, dried 
fungus growths on the trees, under birds’ nests, and in canker wounds. 


PERCENTAGE OF LARVAE REMOVEDE BY SCRAPING 


Eight Jonathan and six Winesap trees in three orchards were 
scraped in the regular manner, and the scrapings were examined for 
larvae. On the Jonathan trees 82 percent of the larvae were removed 
by scraping, and on the Winesap trees 77 percent. Afterward the 
trees were carefully examined for larvae that had been missed or were 
inaccessible. Throughout moth emergence the trees were examined 
for empty pupal cases. The Jonathan variety, because of the absence of 
cracks, holes, and sprout clusters, lends itself more readily to thorough 
scraping than do the Wi inesap, the Delicious, and certain other 
varieties. 

In a single study of four Jonathan trees that had been scraped the 
previous season, only 50 percent of the larvae were removed. Appar- 
ently, after the first scraping, the larvae were forced into the more 
inaccessible situations and therefore were not so readily removed by a 
later scraping. 


PROPORTION OF LARVAE CAUGHT IN- BANDS AFTER 
LEAVING TEE ERUE 


The proportion of the larvae that leave the fruit and are captured 
in chemically treated bands depends on the variety, age, and size of 
the trees. The number of larvae caught depends on surface charac- 
teristics, such as roughness of the trunk and scaffold limbs after 
scraping, the number of cracks, knot holes, broken limbs, and crotches 
inaccessible to scraping, as well as the thoroughness of scraping and 
the fit of the bands. 

Two methods of making such determinations were employed. In 

each method the trees were first carefully scraped and banded, about 
the middle of June, with regular corrugated-paper beta- naphthol 
bands. In one method all the dropped and harvested wormy fruit 
was cut open and examined, the dropped fruit being examined every 
30 days and both dropped and wormy fruit at harvesttime, and the 
number of exit holes was recorded. At the same time, or a few days 
later, the bands on these trees were removed and examined for the 
total number of larvae caught. The final results of these tests on four 
leading commercial varieties over a period of 7 years in several 
orchards, are given in table 2. There was considerable variation in the 
percentage of larvae captured, both for years and var ‘leties. 

The other method differed from the foregoing in that, starting 
about July 10, and ending at harvesttime, all apples on each tree and 
the dropped fruits on the ground were examined every 30 days for 
exit holes. Each exit hole for each tree was recorded, and on the same 
dates the bands were removed and the number of larvae caught was 
also recorded. New bands were then placed, since those examined 
were unfit for replacement. After the harvest examination of the 
fruit, the bands were usually allowed to remain for a few days, to allow 


SCRAPING AND BANDING FOR CODLING MOTH CONTROL 5 


Tasie 2.—Proportion of larvae that left the fruit and were captured 
in beta-naphthol bands, 1935-41 


Larvae captured— 
Variety Year Trees 
Leaving fruit In bands 
Number Number Number Percent 
1935 5 213 183 ) 
1936 9 1, 109 698 63 
1937 26 6, 098 3, 769 62 
Noma hansen 7 Phe sea a 1938 19 10, 849 7, 274 67 
1939 18 2, 545 io2) 52 
1940 6 251%, 1, 290 il 
1941 6 166 86 By 
AR Ota le ees het Fo es 89 23, 497 14, 621 62 
eine Beaut { 1939 2, 268 119 44 
Vedapracig ata 1940 10 938 465 50 
MR Gall eet sect Fae: Sar Bee y4 1, 206 584 47 
1936 De 28 14 50 
1937 de eo tZ 794 61 
. 1938 4. 1, 598 625 39 
Winesap----------------- 1939 6 412 165 40 
1940 8 AG 396 35 
1941 1 165 54 33 
BIR@ (falas Pores e tt | ee 39 4, 631 2, 048 43 
1935 5 859 691 80 
1936 6 213 LZ 1535) 
DOING IO WIS eee pe Sei 8 1938 4 1, 558 487 31 
1939 6 1, 180 ooo 30 
1940 6 5) 158 PAE 
TOGA 2 SS Sia eT ad ee tea ite meee Zk 4, 385 1, 806 45 
Grandecoraleess 28 Se 167 33, 119 19, 059 Oa 


any worms that had recently left the fruit to enter them. Dropped 
fruits at the preharvest examinations and picked wormy fruits were cut 
open to make certain that the larvae had left. In every test but one 
a larger percentage of the larvae were caught in the three preharvest 
examinations than in the after-harvest examinations. For all or- 
chards and in all preharvest examinations the percentage caught before 
picking averaged 82, but the after-harvest percentage dropped to 40. 
In other words, about twice as many of the larvae left the fruit before 
the preharvest examination as left it thereafter. The seasonal av- 
erage of larvae captured was 61 percent, which is substantially the 
same as the 57 percent shown by the first method (table 2). 

Since the growing larvae feed within more than one apple, it seems 
that by this method the number of larvae caught in the bands, as 
compared with the number of exit holes, is greatly underestimated. 
Nel (6) stated that a single well-grown larva can leave several exit 
holes against which but one capture in the bands can be recorded. 


6 CIRCULAR 828, U. S. DEPARTMENT OF AGRICULTURE 


Baker (2) concluded that the effect of banding (and scraping) on 
moth emergence and larval hibernation was much greater than was 
indicated by the percentage of larvae caught in the bands after emerg- 
ing from the fruit. | 


LARVAE CAUGHT IN - TRUNK BANDS AND EIMB BANDS 


Experiments to determine the percentage of larvae leaving the fruit 
that are caught in bands on trunks only and on both trunk and limbs 
were made on 139 trees of the Jonathan, Winesap, Delicious, and Rome 
Beauty varieties. ‘The methods followed were similar to those already 
described, and involved periodic examinations of the bands and of 
Be fruit on the tree. The results of these tests are summarized in 
table 3. 


TaBiE 3.—Larvae caught in bands on trunks only and on both trunks 
and scaffold limbs, 1937-41 


Larvae in bands 


Year Trees 
_ On trunks only \Ontrunks and scaffold limbs 
Number Number Percent Number Percent 

HOS 2 0 ee re hea al 33 2016 56 2,547 
HOSREE ee ee 24 1, 239 33 SOT i = 56 
OS Oats cesarean es 32 732 36 1, 241 52 
LOO OSes Ces ERORE eS ti are 32 2, 309 46 3, 060 65 
PQA a es Oe er ea 18 140 42 261 61 
Total and average_____ 139 6, 436 ey By | 61 


In 1936-89 three methods of banding were tried in weekly rota- 
tion on the same trees—trunk bands, limb bands, and both kinds. 
Jn these tests on 357 trees of 4 varieties in 10 orchards, 41,715 larvae 
were caught in bands on trunks, 53,773 in bands on hmbs, or 29 per- 
cent more than in trunk bands, and 62,734 in a combination of both, or 
17 percent more than in limb bands alone and 50 percent more than 
in trunk bands alone. 

In 1989 tests were made to determine the numbers of larvae caught 
in bands on trunks and on scaffold limbs. On 408 trees in 5 orchards, 
65,819 larvae were captured, of which 17,871 were in trunk bands and 
47,948 were in limb bands, or 27 and 73 percent, respectively. In other 
words, limb bands captured 2.7 times as many larvae as trunk bands. 
However, limb bands require an average of 2.1 times as much banding 
material as trunk bands. 

In two tests in which badly infested trees were banded with 3 bands 
on each limb, about 1 foot apart, an average of 21 limb bands per tree, 
73 percent of the total larvae captured were in the upper bands, 18 
percent in the middle bands, and 10 percent in the lower bands. In 
another test where two bands were placed on each trunk, the lower 
band caught 56 percent of the total. Both these tests indicate that 
not all the larvae stop in the first band they come to. : 


SCRAPING AND BANDING FOR CODLING MOTH CONTROL 7 


PREECT OF DENSITY ‘OF INFESTATION ON NUMBER OF 
LARVAE CAUGHT IN LIMB BANDS AND TRUNK BANDS 


Where the infestation was low, averaging only 10 larvae per tree, 
66 percent more larvae were caught in limb bands than in trunk bands, 
and 106 percent more were caught i in both types of bands than in bands 
on trunks only. On the other hand, where the infestation was high, 
averaging 265 larvae per tree, only 25 percent more were in limb 
bands than in trunk bands, and 47 percent more in both types of bands 
than in trunk bands alone. This difference may be explained by the 
fact that in more severe infestations a greater proportion of wormy 
apples fall to the ground, and a larger proportion of the larvae from 
these fallen fruits get into the trunk bands than into the bands on the 
scaffold limbs farther up. 


INBEWENGE: OF APPLE VARIETY ON NUMBER OF 
LARVAE CAUGHT 


Varieties of apple differ in their adaptability to scraping and band- 
ing. Jonathan and Rome Beauty are particularly well suited for 
maximum scraping and banding efficiency, whereas Delicious and 
Winesap are much less so, because ‘of their knotty limb surfaces, cracks, 
crotches, and numerous scallops on the trunks (figs. 1, 2, and 3). 

These differences are reflected in the varying paannibere of larvae 

caught on trees of the four varieties tested (table 2). The total 
captures are also influenced by the susceptibility of the different varie- 
ties to codling moth attack, a factor not directly involved in the work 
reported on in this circular. 

The more difficult a tree is to scrape and band the less efficient the 
bands are in capturing the larvae. The more severely infested varie- 
ties, such as Jonathan, should be given special attention in the treat- 
ment, not only to protect their own crop but also that of less suscept- 
ible neighbori Ing varieties. 


TIME REQUIRED FOR BETA-NAPHTHOL BANDS 
LO: KILL 


In tests of freshly applied bands on tree trunks in the orchard, all 
the larvae that had been in the bands from 24 hours to 8 days were 
killed by the chemical, whether the bands were removed from the 
trees and kept in the orchard at temperatures of 60° to 98° F. or were 
taken to a semidark, cool basement at 66° to 68°. Tests in which 
orchard conditions were simulated showed that all the larvae in bands 
on the sunny side of a section of apple limb 4 inches in diameter were 
killed within 8 hours. An exposure of several hours in the sunshine 
and overnight killed all the larvae in 18 hours. On the shady side 
of the same sticks all larvae were killed in 24 hours. With lower tem- 
peratures, as in the basement at 66°, only 90 percent were killed in 
24 hours. In properly prepared bands the chemical kills the larvae 
so quickly that few are able to transform to pupae. 


AGRICULTURE 


DEPARTMENT OF 


8, Uses: 


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CIRCULAR 


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characteristic rough barl 


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showihg 


of Jonathan apple tree 


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FIGUI 


SCRAPING AND BANDING FOR CODLING MOTH CONTROL 


I'r@urE 2.—Jonathan apple tree that ha scraped and banded on trunk and 
limbs, after the bands had been removed at the end of the season. The dis- 
coloration from the oil is in the outer bark only. 


842504—50 2 


10 CIRCULAR 828, U. S. DEPARTMENT OF AGRICULTURE 


FIGURE 3.—Delicious apple tree showing split crotch and many-scalloped -trunk. 
Least benefit is gained from scraping and banding this type of tree. 


SCRAPING AND BANDING FOR CODLING MOTH CONTROL 11 


STICKY BANDS AS COMPARED WITH BETA-NAPHTHOL 
BANDS 


Two proprietary sticky-banding or barrier materials are used in 
the Yakima and Wenatchee districts, primarily as barriers for mites 
and climbing cutworms but also from time to time for capturing 
codling moth larvae. In orchard tests to compare the efficiency of 
the two types of bands, the beta-naphthol bands caught 13 times as 
many worms per inch of band as did the sticky bands. The latter 
cannot. be depended on as an effective barrier or trap for the codling 
moth larvae. 


LARGE-SCALE ORCHARD TESTS OF SCRAPING AND 
BANDING 


A large-scale experiment was begun at Yakima in July 1935 to 
determine what control could be obtained from scraping and band- 
ing blocks of several acres of apple trees as a supplement to the spray- 
ing program. ‘This experiment was continued and enlarged upon for 
8 years, during which time tests were made in six orchards, on five 
common commercial varieties of apples grown in the Pacific North- 
west—Jonathan, Winesap, Rome Beauty, and a few Delicious and 
Arkansas Black. 


EXPERIMENTAL METHODS 


The tests were set up with plots of several acres of scraped and 
banded trees, with adjoining plots of the same varieties that were not 
scraped and banded. All the plots received the same spray treat- 
ments. On the banded trees the rough bark was scraped from the 
branches, scaffold limbs, and trunks, including 2 to 3 inches below 
the ground line. Scrapings were caught on a tarpaulin spread under 
the tree and were burned. Except as otherwise noted, the scraping 
was done in the spring before moth emergence began. Only proprie- 
tary bands were used in these tests. The bands contained approxi- 
mately 2 pounds of beta-naphthol to each 100 linear feet of 2-inch 
band, in the proportion of 1 pound of beta-naphthol to 114 pints of 
heavy oil. They were applied about the middle of-June, in time to 
capture the first larvae to leave the fruit. 

The bands were removed either in November after fruit harvest 
or the following spring. The number of larvae captured in the bands 
was recorded for each tree. The control value of scraping and band- 
ing was determined by examining representative samples of harvested 
and dropped fruit from the treated and the check plots. 

Samples of 250 apples per count tree were taken at random, an 
~ equal number from each box of picked and dropped fruit, as discussed 
by Newcomer, Dean, and Cassil, (9). Samples were taken from each 
variety that was sufficiently represented in both treated and check 
plots. Records were made of the number of apples that were clean, 
wormy, and stung, and of the number of worms and stings per 
injured apple. 


DEscrRIPTION OF PLoTs 


The first tests were made in the Gilbert orchard in July 1935. Large 
bearing trees on approximately 10 acres were scraped and banded. 


i CIRCULAR 828, U. S. DEPARTMENT OF AGRICULTURE 


Trees on an adjoining 10 acres were left unscraped and unbanded as 
acheck. Both plots received the same regular spray treatment. Each 
plot contained two varieties, alternating 2 rows of Jonathan and 6 
rows of Winesap. Each plot consisted of 33 rows of 16 trees, or ap- 
proximately 528 trees. The trees were thoroughly scraped and the 
bands apphed on July 13-16. Since the scraping was not done until 
July 1-13, long after all spring-brood moths had emerged and after 
some of the first-brood larvae had already left the fruit, httle imme- 
diate value was anticipated for this test. 

Examination of the harvested fruit showed substantial results in 
favor of the scraped and banded plot, as compared with the adjoming 
unsprayed, unbanded plot. Obviously, this apparent difference could 
have been in the original coding moth population. 

In 1936 the same test was again used in the Gilbert orchard. The 
scraping was done before moth emergence and the bands were applied 
by the middle of June, before larvae began leaving the fruit. The 
crop in both plots was much cleaner than in 1935, probably owing to 
a much more intensive and better spray program. 

In 1957 the test in the Gilbert orchard was the same as in 1935 and 
1936, except that one of each double row of Jonathan in the treated 
plot and two rows only in the check plot had been removed by the 
grower. In 1938 the test was the same as in 1937. In 1939 two more 
rews of Jonathan had been removed in the check plot, leaving one row 
of this variety to each six rows of Winesap, the same as in the treated 
plot. This year the third cover spray was omitted in the treated plot 
but not in the check plot. In 1940 the treated plot received two sprays 
less (the third and fifth cover sprays) than the check plot and the re- 
mainder of the orchard. 

Work in the Zier orchard was started in 1936. The scraped and 
banded plot and the check plot each consisted of approximately 400 
trees or about 10 acres. ‘There were six varieties in each plot—W ine- 
sap, Jonathan, Delicious, Arkansas Black, Rome Beauty, and 
Spitzenberg. In the treated plot all the trees were scraped and 
banded, but only the first four varieties were examined at harvest- 
time. The test in 1937 was the same as in 1936, except that some 
Spitzenberg trees had been removed. In 1988 both plots were reduced 
in size by removing a number of trees. The treated plot in 1938 in- 
cluded 278 trees, and the check plot 330. 

In 1938 an experiment was begun in the Bounds orchard, adjoining 
the Zier tract. The scraped and banded plot consisted of 453 trees 
and the check plot of 501 trees. Counts were made on Winesap, 
Jonathan, Delicious, and Arkansas Black. Similar tests were made 
in 1939. 

In 1939 a test was begun in the Buchanan orchard, in a different part 
ot the district, using 368 scraped and banded trees and 332 check trees. 
An unsprayed orchard was across the road from the scraped and 
banded plot. In 1940 the treated plot was enlarged by 4 rows and the 
check was reduced 4 rows. The adjoining neglected orchard of the 
previous season was well cared for and was cleaner than the experi- 
mental tracts. 


SCRAPING AND BANDING FOR CODLING MOTH CONTROL 13 


In 1940 a test was set up in the Bannister orchard, consisting of 
approximately 30 acres of 30-year-old trees, which was more isolated 
than any/used before. On three sides there were no orchards for a 
inile or more, and on the fourth side this orchard was separated from 
the nearest neighboring one by a distance of more than 500 feet. ‘The 
scraping was not completed until May 9, when moths had been emerg- 
ing for 2 or 8 weeks. One-half of the orchard was scraped at this 
time and after July 1 the scraped area was increased to about two- 
thirds (1,150 scraped trees and 420 unscraped trees). That part 
scraped in May was banded early in June and the remainder in July. 
No count trees were taken from the latter section, but it served as a 
buffer block. 

The followin varieties were scraped and banded: Winesap, De- 
licious, Rome Beauty, and Arkansas Black, also some Jonathan trees 
that were partly grafted to Delicious. Arkansas Black and Jonathan 
were not used in harvest counts. 

In 1941 only the Bannister orchard was used. ‘The trees were 
scraped by April 20, before moths emerged, and the bands were ap- 
vlied on two-thirds of the scraped tract by June 26 and on the other 
third by July 2, a few days late for catching the earliest worms. 

In 1942 a test, which was a part of another experiment, was begun 
in the Briskey orchard with 200 Winesap trees in the treated plot and 
70 trees in the check plot. 


RESULTS OF. LESTS 


The results of these 14 experiments, involving 47 tests of varieties 
for the 8-year period 1935-42, are summarized in table 4. They show 
that in general the scraped and banded plots had more clean fruit, 
fewer wormy apples, and fewer stings than the unscraped, unbanded 
plots. These gains from scraping and banding were made notwith- 
standing a number of adverse conditions. It was necessary to have 
an unscraped and unbanded check plot in each orchard, and from 
this untreated plot infestation doubtless spread into the treated area, 
somewhat reducing the potential control. In one orchard the treated 
plot was joined on the north by a heavily infested, unsprayed orchard, 
the effects of which were very noticeable, especially in the nearest sev- 
eral rows. Large-scale community or orchard-district scraping and 
banding would obviously give the best results. 

For all varieties (table 5), analysis of variance shows all differences 
except in the Rome Beauty variety, to be highly significant at odds of 
99 to 1 in favor of the scraping and banding treatment. Although 
the Rome Beauty plots showed from 1.6 to 4.2 times as many worms 
per 100 apples in the untreated as in the treated plots, the 4 tests 
showed too great a variance to be statistically significant. In the check 
plots each variety averaged 2 to 2.3 times as many worms per 100 
apples as were found in the treated plots. 


DEPARTMENT: OF AGRICULTURE 


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16 CIRCULAR 828, U. S. DEPARTMENT OF AGRICULTURE 


Taste 5.—fesults of scraping and banding apple trees for codling 
moth control, in comparison with results on plots not scraped and 
banded, 1935-42 


Mean number ot WiOUTES per 100 
Variety ees of See 
Treated Untreated 

PAT KAM SASH Be Cle oe te eye el pn eee eRe ee le 5 6. 0 12. 0 
POW CIOUS Es iyae— Rice ce eaae we 2 Orn DON oe eee 9 1256 XG ff 
Jona thaw ae Ds Ba ee Ree ae a iat: 16. 9 BID 7 
Rome Beauty it is ae ces tps Se aes 4 14. 2 32. 6 
WHITES 8p i cor, oer A eee les San Pew 14 3. 7 8. 1 


1 All differences highly significant at odds of 99 to 1, except with Rome Beauty, 
which was not significant because of the variance in the 4 tests. 


As shown in the final results (table 4), the percentage of worm- and 
sting-free fruit was increased by the treatment for all plots, varieties, 
orchards, and years. At the same time the stings per 100 apples were 
reduced from 90 to 47, a reduction of 48 percent. 


METHODS OF SCRAPING AND BANDING 


SCRAPING 


Thorough scraping requires the removal of all rough bark and, 
as far as possible, the cleaning out of all other places where the larvae 
may hide on branches, scaffold limbs, and trunk, including a depth of 
2 to 3 inches in the soil at the base of the tree. Unnecessary cutting 
of the live bark should be avoided. “Peeling” the trees, as is some- 
times done, is injurious to them, a waste of time, and entirely unneces- 
sary elther in removing the larvae or in preparing the trees for 
banding. 

Scrapings should be caught in tarpaulins spread under the trees and 
should be burned whenever five or six trees have been finished. A 
cuptul of stove oil or used crankcase oil poured over each pile of scrap- 
ings will facilitate starting the fire. Old beta-naphthol bands, dis- 
cussed elsewhere, may also be used advantageously to aid in burning 
the scrapings. 

Scraping can be done at any time between fruit harvest and moth 
emergence the following spring, usually before mid-April in the 
Pacific Northwest. After moths start to emerge much of the effec- 
tiveness of the operation will be lost; however, it is better to have the 
scraping completed after a few moths have emerged than not to get 
it done, especially if the trees are to be banded. 

Broken or split limbs should be removed, and holes, cracks, and 
narrow crotches, where larvae are likely to hide, should be filled with 
concrete or other suitable material. Concrete has proved satisfactory 
for this purpose. 

The upper part of the tree should be scraped first, leaving the crotch 
to be thoroughly cleaned out after all scraping above has been finished. 

The most satisfactory scraping tools are a box or tree scraper (fig. 4, 
A) for use in removing the rough bark, and a long-handled, narrow 


SCRAPING AND BANDING FOR CODLING MOTH CONTROL [Eve 


blade, which is used to gouge into cracks too narrow for the scraper 
(fig. 4, B). 
BANDING 


By the middle of June, or just before the first worms leave the fruit, 
scraping should be followed by banding, using corrugated-paper bands 
treated with beta-naphthol. These should contain a minimum of 2 
pounds of chemical to each 100 linear feet of 2-inch band. They 
should be prepared by using 1 pound of beta-naphthol to 114 pints of 
heavy oil. In sections of the country where there is much more sum- 
mer rain than in Yakima County, a larger dosage of 2 pounds per 
100 linear feet should be used (Baker 7). Chemically treated beta- 
naphthol bands may be obtained commercially in most sections of the 
country. When properly prepared and used they have consistently 
given practically 100 percent kill of all larvae entering them in the 
Yakima and Wenatchee districts. The bands should be placed around 


IIguRE 4.—Tools used in scraping apple trees: A, Tree scraper; B, gouge for 
cleaning out narrow cracks and crotches. 


the trunks, well up near the forking of the scaffold limbs (fig. 5), or 
on the limbs a foot or so above the crotches, or on both trunk and scaf- 
fold limbs. 

As an aid in the banding operation a reel for carrying the rolls of 
banding material (Yothers and Carlson 23) will be found advan- 
tageous and can be made as shown in figure 6. Where two persons 
work together a rod inserted through the handle will enable several 
rolls to be carried on the spindle at one time. 

In a single season’s test, treated bands on sprayed apple trees from 
June 10 to September 4 showed by chemical analysis a loss of ap- 
proximately 50 percent of the beta-naphthol. The quantity remain- 
ing, however, was sufficient to kill the larvae that would have trans- 
formed to moths the same season. 


BAND REMOVAL 


The bands should be removed and burned before moth emergence 
begins the next spring to destroy any live larvae present and to 
prevent a new crop of worms from entering. Old bands that remain 
on the trees from the year before contain so little chemical that they 
would kill very few of the larvae the second season, and will do more 


18 CIRCULAR 828, U. S. DEPARTMENT OF AGRICULTURE 


FIGURE 5.—Beta-naphthol corrugated-paper band on apple-tree trunk, 


SCRAPING 


AND BANDING 


FOR CODLING MOTH CONTROL 


19 


HG 


itio 


IS] 


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reel with roll in p 


B55 


9 


Ss 


eel for carrying beta-naphthol banding roll 


Fatale at 


6 


4 


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20 CIRCULAR 828, U. S. DEPARTMENT OF AGRICULTURE 


(Get than good by furnishing the best possible cocooning quarters 
g. 7). 

The most practical time to remove and destroy the bands is at 
scraping time, when they are a convenient aid in burning the scrapings. 

Examination of the beta- naphthol bands after they have been on 
the trees a few months in badly infested orchards will show consid- 
erable numbers of dead and live larvae attached to the bands (fig. 8), 
to the bark between the band and the tree, and inside the corrugations. 
The live worms are recent entrants but. most t of them will be killed 


I'IcureE 7.—An al beta- near band that has lost all its value but is allowed 
to remain on the tree affords highly suitable quarters for the larvae. Empty 
pupal cases are shown at the edges of this old band. 


Figure 8.—Section of beta-naphthol band showing dead larvae. 


within a few days. The larvae entering late in the fall after cool 
weather has set in will be killed during the winter, but it will take 
longer to kill them at that time. 


COST OF SCRAPING AND BANDING 


The cost of scraping and banding depends on so many variable 
factors that it is impossible to set a definite figure. Some of the fac- 
tors are the size, age, variety, and general physical condition of the 
trees, and the prevailing wage and cost of materials (bands, tacks, 
scraping tools, and tarpaulins) : 

The most important factors are the size of the trees and the per hour 
cost of labor. The approximate cost of the two operations for small, 


21 


SCRAPING AND BANDING FOR CODLING MOTH CONTROL 


medium, and large trees at a wage of 60 cents per hour is shown in 
table 6. Bands on both trunks and limbs on older, larger trees would 
triple the cost for the banding (but not for the scraping) and would 
increase the total costs by 30 to 40 percent. The worm captures would, 
however, be increased by approximately 50 percent. Estimates on 
the net gain from scraping and banding under certain conditions are 
given by Yothers and Carlson (26). 


TABLE 6.—Approximate cost of scraping and banding apple trees im 
the Yakima district of Washington 


| Cost per tree 
| Maximum | Time re- ie 
Size of tree fruit yield quired for Labor 
per tree scraping veraee a Material motat 
per hour) 
Bozres Minutes Cents Cents Cents 
Small (rough bark) _____- es 10-15 10-15 10-15 3— 5 13-20 
Nile Gatun sek tae sears 20-35 20—35 20-35 5- 8 25-43 
WWareg emesis Sioa ae PEE et 40—50 40—50 40—50 8-10 48—60 
SUMMARY 


Investigations on the value of scraping and banding apple trees to 
destroy the larvae of the codling moth (Carpocapsa pomonella (1.) ) 
and related studies were carried on near Yakima, Wash., from 1935 
to 1943. 

On trees not previously scraped and banded 85 percent of the over- 
wintering larvae were located on the trunks and scaffold lmbs, 13 
percent on other branches, and the remainder in trash and soil. On 
such trees 86 percent of the larvae were in rough bark and crotches. 
On trees that had been scraped and banded the previous season, only 
41 percent were on the trunks and scaffold limbs, 50 percent on the 
secondary branches, and 9 percent in trash and soil. Only 46 percent 
of the larvae were in rough bark and crotches. The average popula- 
tion per tree, however, was reduced from 168 to 22. 

Thorough scraping at any time between apple harvest and moth 
emergence the following spring destroyed about 80 percent of the 
overwintering population the first season. On trees that had been 
scraped the previous year only about 50 percent of the larvae were 
removed by the second scraping. 

On well-scraped trees 50 to 60 percent or more of the larvae were 
trapped in the bands. 

Chemically treated bands on the scaffold limbs caught 29 percent 
more larvae than did bands on the trunks, and a combination of both 
trunk and limb bands caught 50 percent more than did trunk bands 
alone. 

The heavier the infestation the greater was the proportion of larvae 
caught in bands as they were leaving the fruit. 

Scraping and banding were most effective on varieties such as 
Jonathan and Rome Beauty, which were readily scraped. 

Larvae entering beta-naphthol bands were killed within a few hours 
toa day or so. The higher the temperature the quicker was the kill. 

Sticky banding materials were comparatively ineffective. 


22 CIRCULAR 828, U. 8. DEPARTMENT OF AGRICULTURE 


In three orchard experiments reductions in w ormy fruit amounted 
to 49,37, and 58 percent, The average for all tests showed an increase 
in clean fruit of 37.5 percent in favor of scraping and banding as a 
supplement to customary spray programs. 

Scraping involves the removal of the rough bark, the clearing out 
of cracks, crotches, and holes, and the removal of rotten and “split 
limb stubs and, as far as possible, other places in which the larvae 
usually cocoon. Scraping should be done in the fall, winter, or 
spring, before moth emergence starts. The scrapings should be 

caught on a tarpaulin and burned. 

In recent years banding has consisted in the application of corru- 
gated paper bands, previously treated with beta-naphthol and heavy 
petroleum oil, about the trunks or scaffold limbs to capture and kill 
the full-grown larvae that have left the fruit and are seeking cocoon- 
ing or pupating quarters. Bands should be applied in June, just 
before larvae begin leaving the fruit, and may be allowed to remain 
in position until “the following spring. They should be removed and 
destroyed before moth emergence starts. 

When labor is available at 60 cents per hour, scraping costs 10 to 
50 cents per tree, depending on size, age, variety, and physical con- 
dition. At 1 cent per foot, banding material costs 3 to 10 cents per 
tree, bringing the total cost of banding and scraping to 13 to 60 
cents per tree. 


LITERATURE Clik D 


(1) BAKER, HowArRpD 
1943. ORCHARD TESTS OF CHEMICALLY TREATED BANDS FOR CODLING MOTH 
CONTROL IN THE MISSOURI RIVER VALLEY. Jour. Econ. Ent. 36: 
760-764. 


1944. EFFECT OF SCRAPING AND BANDING TREES UPON THE NUMBER OF TRANS- 
FORMING AND HIBERNATING CODLING MOTH LARVAE. Jour. Econ. 
Ent. 37: 624-628. 

(3) CaRtson, FEF. W., Ba YOTHERS, M. A. 

1941. A POWER-DRIVEN SGIL-SIFTING MACHINE. U.S. Bur. Ent. and Plant 

Quar. ET-181, 4 pp., illus. eee 
(4) GouLp, E., and GEISSLER, G. H. 

1941. HIBERNATING CODLING MOTH LARVAE. Jour. Econ. Ent. 34: 445-450, 

illus. 
(5) ‘MARSHALL, G. E. 

1931. PREPARATION AND USE OF CHEMICALLY TREATED BANDS FOR CODLING 
MOTH CONTROL. Ind. [Purdue] Agr. Expt. Sta. Cir. 180, 4 pp., 
illus. 

(6) Ne, Re i: 

1941. VARIETAL INTERPLANTING IN RELATION TO CONTROL OF THE CODLING 

MOTH. Jour. Ent. Soc. Southern Africa 4: 111-134. 
(7) NEWwcoMER, E. J. 

1934. PRACTICAL METHODS OF ORCHARD SANITATION FOR THE CONTROL OF 

THE CODLING MOTH. Wash. State Hort. Assoc. Proc. 30: 66-67. 
(8) Newcomer, E. J., Rotrs, A. R., and DEAN, F. P. 

1933. A PRACTICAL TEST OF CHEMICALLY TREATED BANDS FOR THE CONTROL 

OF THE CODLING MOTH. Jour. Econ. Ent. 26: 1056-1058. 
(9) ——— DEAv, F. P., and Casstm1, C. C. 

1943. EXPERIMENTAL METHODS IN MAKING ORCHARD TESTS FOR CODLING 
MOTH CONTROL IN THE WEST. U. S. Bur. Ent. and Plant Quar. 
ET-215, 20 pp., illus. [Processed. ] 


(10) 


(11) 


(12) 


(13) 


(14) 


(15) 


(16) 


(17) 


(18) 


(19) 


SCRAPING AND BANDING FOR CODLING MOTH CONTROL 93 


SIEGLER, E. H., Brown, LUTHER, ACKERMAN, A. J., and Newcomer, E. J. 


1927. 


1929. 


1932. 


CHEMICAL TREATMENT OF BANDS AS A SUPPLEMENTAL CONTROL MEAS- 
URE FOR THE CODLING MOTH. Jour. Econ. Ent. 20: 699-701. 
Brown, LutTHer, YOTHERS, M. A., and YETTER, W. P., Jr. 
A SECOND REPORT ON CHEMICALLY TREATED BANDS FOR THE DESTRUC- 
TION OF CODLING MOTH LARVAE. ° Jour. Econ. Ent. 22: 966-972. 
and MunGER, F. 
CHEMICALLY TREATED BANDS FOR CODLING MOTH CONTROL. U.S. Bur. 
Ent. and Plant Quar. E-316, 7 pp., illus. (Supersedes EH-278 
and E-294.) [Processed. ] 


STEINER, L. F. 


1929. 


1940. 


MISCELLANEOUS CODLING MOTH STUDIES. Jour. Econ. Ent. 22: 


648-654. 


CODLING MOTH FLIGHT HABITS AND THEIR INFLUENCE ON RESULTS OF 
EXPERIMENTS. Jour. Econ. Ent. 33: 486-440. 


STEINER, L. FE‘, and. ACKERMAN, A. J. 


1936. 


1931. 


LARGE-SCALE TEST OF ORCHARD SANITATION TO CONTROL CODLING MOTH. 
Jour. Eeon. Ent. 29: 648-653. 
and MARSHALL, G. E. 
FOUR YEARS EXPERIMENTS WITH CHEMICALLY TREATED CODLING MOTH 
BANDS. Jour. Econ. Ent. 24: 1146-1151. 


WoopsIDE, A. M. 


1939. 


1942: 


DISTRIBUTION OF CODLING MOTH WORMS ON APPLE TREES AS _IN- 
FLUENCED BY BANDING. Va. Fruit 27 (3) : 22-24. 


SUPPLEMENTARY CONTROL MEASURES FOR THE CODLING MOTH. Va. 
State Agr. Expt. Sta. Bul. 342, 19 pp., illus. 


WoRTHLEY, H. N. 


1932. 


CHEMICALLY TREATED CODLING MOTH BANDS IN PENNSYLVANIA. Jour. 
Eeon. Ent. 25: 11383-1148. 


YOTHERS, M. A. 


1938. 


1939. 


1941. 


1943. 


1945. 


SUGGESTIONS FOR SCRAPING APPLE TREES AS A SUPPLEMENTARY COD- 
LING MOTH CONTROL MEASURE. Better Fruit 32 (8): 8. 


RESULTS FROM EXPERIMENTS WITH SCRAPING AND BANDING AS A 
SUPPLEMENTARY CONTROL MEASURE FOR THE CODLING MOTH. Wash. 
State Hort. Assoc. Proc. 35: 7-11, illus. 


ARE SCRAPING AND BANDING FOR CODLING MOTH CONTROL WORTH 

WHILE? Northwest Fruit Grower 11 (38): 4. 
and CARLSON, F. W. 

A REEL FOR CARRYING ROLLS OF TREE-BANDING MATERIAL. U.S. Bur. 

Ent. and Plant Quar. ET-133, 1 p., illus. [Processed.] 
and CARLSON, F. W. 

FURTHER RESULTS WITH SCRAPING AND BANDING AS A SUPPLEMENTARY 
CODLING MOTH CONTROL MEASURE. Wash. State Hort. Assoc. 
Proce. 37: 93-95, illus. 

and CARLSON, F. W. 

MISCELLANEOUS FINDINGS RELATING TO SCRAPING AND BANDING IN 

CODLING MOTH CONTROL STUDIES. Wash. State Hort. Assoc. Proc. 
37: 96-97. 

and CARLSON, FEF. W. 

SCRAPING, BANDING TREES CHECKS MOTHS. Better Fruit 37 (10): 

14, 22. 
and CARLSON, F. W. 

THREE YEARS OF ORCHARD TESTS WITH 4,6-DINITRO-O-CRESOL EMUL- 
SION AGAINST OVERWINTERING CODLING MOTH LARVAE. (Sci. Note.) 
Jour. Eeon. Ent. 38: 723-724. 


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