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INTERNATIONAL | SOYBEAN | VARIETY — | EXPERIMENT

FOURTH REPORT OF RESULTS 49760

W.H. Judy and D.K. Whigham

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fi... Soybean Program

‘International Agricultural Publications INTSOY Series Number 16

COLLEGE OF AGRICULTURE UNIVERSITY OF ILLINOIS AT URBANA-CHAMPAIGN |

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INTERNATIONAL SOYBEAN VARIETY EXPERIMENT Fourth Report of Results

W. H. JUDY and D. K. WHIGHAM

College of Agriculture University of Illinois at Urbana-Champaign

International Agricultural Publications INTSOY Series Number 16

October 1978

Single copies of this publication may be obtained by writing to INTSOY at the following address:

International Soybean Program (INTSOY) College of Agriculture

University of Illinois

113 Mumford Hall

Urbana, Illinois 61801

Uso?

Cable address: INTSOY

Library of Congress Catalog Card Number 78-61841

Support for the research reported and the preparation of this publication was provided by the United States Agency for International Development under Contract Number AID/CM/ta/c-73-19, Contract Number AID/TA/C-1294, and 211(d) Grant AID/CM/ta-g-73-49, and by the Illinois Agricultural Experiment Station, College of Agriculture, University of Illinois at

Urbana-Champaign.

CONTENTS FOREWORD INTRODUCTION MATERIALS AND METHODS - ISVEX SITES MAP OF WORLD-WIDE DISTRIBUTION OF TRIALS MATERIALS AND METHODS - JOINT INTSOY/IITA SITES MATERIALS AND METHODS - JOINT INTSOY/SEARCA SITES RESULTS AND DISUCSSION - ISVEX SITES RESULTS AND DISCUSSION - JOINT INTSOY/IITA SITES RESULTS AND DISCUSSION - JOINT INTSOY/SEARCA SITES SUMMARY PEDIGREE OF SOYBEAN CULTIVARS DISTRIBUTION OF CULTIVARS DESCRIPTION OF ENVIRONMENTAL ZONES GEOGRAPHICAL DESCRIPTION OF TRIAL SITES LIST OF COOPERATORS AGRONOMIC DATA FOR ENVIRONMENTAL ZONES Yield for Zones I and IV Rank by Yield for Zones I and IV Days to Flower for Zones I and IV Days to Harvest for Zones I and IV Plant Height for Zones I and IV Lodging Score for Zones I and IV Shattering Score for Zones I and IV Seed Weight for Zones I and IV Seed Quality Score for Zones I and IV Joint INTSOY/IITA Sites, Zone I Fscidtorezones fit. Vi, and VII Rank by Yield for Zones III, VI, and VII Days to Flower for Zones III, VI and VII Days to Harvest for Zones III, VI, and VII Plant Height for Zones III, VI, and VII Lodging Score for Zones III, VI, and VII

Shattering Score for Zones III, VI, and VII Seed Weight for Zones III, VI, and VII

iii

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AGRONOMIC DATA FOR ENVIRONMENTAL ZONES (Continued)

Seed Quality Score for Zones III, VI, and VII All Sites and Data, Zone X

PROTEIN AND OIL ANALYSES FOR ENVIRONMENTAL ZONES

Protein and Oil Content Protein and Oil Content Protein and Oil Content Protein and Oil Content Protein and Oil Content Protein and Oil Content

TWO AND THREE YEAR AGRONOMIC

Two Year Agronomic Data

for for for for for for

Zones I, II, and IV

Joint INTSOY/IITA Sites for Zone I Zones III, V, and VI

Zones VII, VIII, and IX

Zones X, XI, and XII

gone xT

DATA

for

Zone I

Three Year Agronomic Data for Zone I Two Year Agronomic Data for Zone III Two Year Agronomic Data for Zone IV Three Year Agronomic Data for Zone IV Two Year Agronomic Data for Zone VII Three Year Agronomic Data for Zone VII Two Year Agronomic Data for Zone X

COMBINED ANALYSIS OF AGRONOMIC DATA FOR ENVIRONMENTAL ZONES AND SELECTED GEOGRAPHICAL AREAS

Zone I - All Sites

Zone I -- Joint INTSOY/TITA:Sites

Zone III - All Sites Zone IV - All Sites Zone VI - All Sites Zone VII - All Sites Zone X - All Sites Zone I - Asian Sites

Zone IV - Asian and Oceanic Sites Zone VII - Asian and Oceanic Sites

Zone I - Sri Lanka Sites

Zone VII - Pakistan Sites Zone [11 = “Ethiopian-sites

Zone IV - Mesoamerican Sites

AGRONOMIC DATA FOR INDIVIDUAL SITES, BY REGION

Afrtca

Algeria, Khemis-Miliana

Benin, Parakou Benin, Save Botswana, Gaborone Botswana, Mahalapye

iv

100 102 104 106 108

AGRONOMIC DATA FOR INDIVIDUAL SITES, BY REGION

Africa (Conttnued)

Burundi, Buhoro 110 Burundi, Sems-Imbo ey, Cameroon, Dschang 114 Cameroon, Santchou 116 Central African Empire, Bossangoa 118 Congo, Lekana 120 Egypt, Bahteem 12 Egypt, Giza 124 Egypt, Seds 126 Ethiopia, Awassa 128 Ethiopia, Bako 130 Ethiopia, Jimna 132 Ethiopia, Leku 134 Gabon, Ntoum 136 Gabon, Ntoum 138 Ghana, Kumasi 140 Ghana, Legon Farm 142 Ivory Coast, Abidjan 144 Ivory Coast, Dekokaha 146 Ivory Coast, Odienne 148 Ivory Coast, Sirasso 150 Lesotho, Maseru t52 Mali, Koulikoro 154 Niger, Maradi 156 Nigeria, Ibadan 158 Rhodesia, Salisbury 160 Somalia, Afgoi 162 Sudan, Wau 164 Swaziland, Bigbend 166 Swaziland, Malkerns 168 Swaziland, Mangcongo 170 Tanzania, Ilonga Ae Tanzania, Zanzibar 174 Togo, Amoutchou 176 Togo, Barkoissi 178 Togo, Davie 180 Togo, Kitangbao 182 Uganda, Kampala 184 Upper Volta, Bobo-Dioulasso 186 Zaire, Kisanga 188 Zambia, Kabwe 190 Zambia, Magoye 192 Zambia, Magoye 194 Zambia, Magoye 196 Zambia, Mutulira 198 Asta Bangladesh, Joydevpur 200 Bangladesh, Kashimpur 202

AGRONOMIC DATA FOR INDIVIDUAL SITES, BY REGION

Asta (Conttnued)

Bangladesh, Mymensingh 204 Bangladesh, Pabna 206 India, Jabalpur 208 India, Pantnagar 210 Indonesia, Malang, Java 212 Indonesia, Medan 214 Nepal, Khairanitar Farm 216 Nepal, Khumaltar 218 Pakistan, Islamabad 220 Pakistan, Kotdiji bie Pakistan, Kotdiji 224 Pakistan, Lahore 226 Pakistan, Lahore 228 Pakistan, Mirwah 230 Pakistan, Swat Loe Pakistan, Swat 234 Pakistan, Tandojam 236 Pakistan, Tandojam 238 Pakistan, Umerkot 240 Philippines, Los Banos 242 Sri Lanka, Alutharama 244 Sri Lanka, Alutharama 246 Sri Lanka, Angunukolapalessa 248 Sri Lanka, Bandarawela 250 Sri Lanka, Bandarawela he Sri Lanka, Bandarawela 254 Sri Lanka, Gannoruwa 256 Sri Lanka, Gannoruwa 258 Sri Lanka, Gannoruwa 260 Sri Lanka, Kilinochchi 262 Sri Lanka, Kilinochchi 264 Sri Lanka, Maha Illuppallama 266 Sri Lanka, Maha I1luppallama 268 Sri Lanka, Okkampitiya 270 Sri Lanka, Puttalam Zhe Sri Lanka, Thirunelvely 274 Thailand, Khon Kaen 276 Thailand, Saraburi 278 Thailand, Sukothai 280 Thailand, Sukothai 282 Thailand, Surat Thani 284 Thailand, Suwan Farm 286 Europe Hungary, Godollo 288 Hungary, Szarvas 290 Italy, Sassari, Sardinia 292 Italy, Ussana, Sardinia 294

Vi

AGRONOMIC DATA FOR INDIVIDUAL SITES, BY REGION Europe (Conttnued)

Poland, Radzikow Portugal, Porto Spain, Sevilla Yugoslavia, Novi Sad

Mesoamertca

Bahamas, San Andros

Dominican Republic, San Cristobal Jamaica, Caymanas

Mexico, Apatzingan

Mexico, Apatzingan

Mexico, Tepalcatepec

Nicaragua, Managua

Nicaragua, Posoltega

Puerto Rico, Isabela

Trinidad §& Tobago, Port-of-Spain

Mtddle East

Iran, Dezful

Iran, Gorgan

Iran, Karaj

Iran, Rezaiyeh

Iran, Sari

Iraq, Abu-Ghraib Israel, Bet-Dagan Israel, Bet-Dagan Jordan, Deir-Alla Jordan, Wadi Dhuleil Saudi Arabia, Wadi Jizan

North America United States, Urbana, Illinois Oceanta New Caledonia, Bourail New Hebrides, Port Vila Tahiti, Papeete United States, Kapaa, Hawaii United States, Kapaa, Hawaii United States, Kapaa, Hawaii South America Argentina, Parana

Bolivia, Santa Cruz Bolivia, Santa Cruz

Vil

296 298 300 302

304 306 308 310 312 314 316 318 320 OLz

324 326 328 330 Bo2 334 336 338 340 342 344

346

348 350 >be 354 356 358

360 362 364

AGRONOMIC DATA FOR INDIVIDUAL SITES, BY REGION

South Amertea (Conttnued)

Brazil, Janauba 366 Brazil, Manaus 368 Brazil, Manaus 370 Brazil, Manaus Died, Chihes Tach iatina 374 Colombia, 376 Ecuador, Boliche 378 Ecuador, Pallatanga 380 Ecuador, Pichilingue 382 Ecuador, Portoviejo 384 Ecuador, Quito 386 Paraguay, Caacupe 388 Paraguay, Capitan-Miranda 390 Peru, Bagua 392 Peru, La Vina 394 Peruyilaimna 396 Uruguay, Tacuarembo 398 Uruguay, Treinta y Tres 400

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FOREWORD

The International Soybean Variety Experiment (ISVEX) was conducted again during the year 1976 by cooperators in many countries throughout the world. In addition, joint variety evaluation trials were organized with the International Institute for Tropical Agriculture (IITA) and with the Southeast Asian Regional Center for Graduate Study and Research in Agricul- ture (SEARCA). The results of all of these variety trials were returned to INTSOY for analysis and are included in this publication.

INTSOY was established at the University of Illinois and the University of Puerto Rico to give leadership within a network of national and inter- national organizations for soybean research and educational work. The objective of this program is to expand the use of soybeans for human food. The geographic orientation is toward tropical and subtropical areas of the world where protein-calorie nutrition problems tend to be concentrated. However, the perspective is world-wide.

ISVEX was initiated in 1973 as the first part of the genetic improve- ment program of INTSOY. The objectives are to evaluate soybean cultivars (varieties) for wide environmental adaptability and to provide countries with improved cultivars for direct introduction or for use in breeding pro- grams. The response of cultivars is analyzed for high stable yield and other desirable agronomic characteristics. Other important dividends have been obtained through accumulation of more knowledge about the response of soybeans to different management skills, ranges of temperature and day- length, and various soil conditions. With the cumulative results from more growing seasons, the objectives of this trial are being attained. For the first time, multi-year means for characteristics of cultivars can be cal- culated within and across environmental zones, for geographical areas within zones, and for selected countries. This has improved the capability for ex- panded interpretation of results and leads to more accurate prediction of the behavior of cultivars under different environmental conditions. The importance of careful cultivar selection and improved management during pro- duction and harvesting is clearly demonstrated.

A world-wide variety evaluation program such as ISVEX requires the cooperation and resources of many organizations and individuals. Foremost in importance are those cooperators who conduct the trials. They record data and send them to INTSOY for analysis. The United States Agency for International Development has provided the general program resources to make ISVEX possible. The Food and Agriculture Organization of the United Nations has provided technical supervision and assistance in sending trials to a number of countries. Other international organizations have provided support, especially the United Nations Development Program.

The facilities and services, including the Statistical Laboratory, of the Department of Agronomy, University of Illinois at Urbana-Champaign, are gratefully acknowledged.

2x

Leadership in organizing this ISVEX was provided by D. Keith Whigham with the assistance of Robert Dunker. William H. Judy has ably succeeded Dr, Whigham and is giving leadership to ISVEX, SPOT, and SIEVE soybean varietal evaluation trials with the efficient assistance of Henry J. Hill. The varietal development work in Puerto Rico and seed increase for these trials has been provided by E. H. Paschal II. The sincere appreciation of all in the INTSOY network is expressed to the many who have made the variety eval- uation program and the results reported in this publication possible.

INTSOY is pleased to add the Fourth Report of Results of ISVEX to the INTSOY Publication Series. The First, Second, and Third Reports of ISVEX are designated numbers 8, 11, and 15 in the Series, respectively.

William N. Thompson Director International Soybean Program (INTSOY)

INTERNATIONAL SOYBEAN VARIETY EXPERIMENT Fourth Report of Results

This publication is the fourth report of results from the International Soybean Variety Evaluation Experiment (ISVEX), organized in 1973 by the International Soybean Program (INTSOY) at the University of Illinois, under a contract with the Agency for International Development, U.S. Department SPeotate.

ISVEX was designed to meet the following objectives:

1. To test the adaptation of soybean cultivars (varieties) under a wide range of environmental conditions

2. To provide research workers with an opportunity to compare local and introduced cultivars

3. To provide a source of new germplasm, which a cooperator may use directly or incorporate into his breeding program

4. To identify areas of the world that have a potential for soybean production

5. To evaluate the response of the soybean to different environments. MATERIALS AND METHODS - ISVEX SITES Procedures

Instructions for management and data collection for ISVEX were sent with the seed shipment to each cooperator. Soybean seed for planting was provided to each cooperator in individual row packages. Granular inoculant was provided for distribution in the row with the seed prior to covering the seed with soil. The experiment was designed as a randomized complete block with four replications. Each variety was planted once in each block in a plot which consisted of four rows 5 m long and 60 cm apart. All observations, including the grain yield, were obtained from the two center rows.

It was suggested in the instructions that a trial site be chosen which had an identical crop history and where the soil was well drained. A soil analysis was recommended for determination of pH, organic matter, nitrogen, phosphorus, and potassium. It was recommended that a basal application of 25 kg/ha N, 25 kg/ha P, and 25 kg/ha K be broadcast and worked into the plot.

AUTHORS: W. H. Judy is Associate Professor, Department of Agronomy, INTSOY,

University of Illinois, Urbana, Illinois. D. K. Whigham is formerly Assistant Professor, Department of Agronomy, INTSOY, University of Illinois, Urbana; now Associate Professor, Department of Agronomy, Iowa State University, Ames, lowa.

Sufficient seed was provided to overplant approximately 50%. It was recommended that the plants be thinned soon after emergence to a stand of one plant” per Senn.

The method of weed control suggested was mechanical or chemical ac- cording to the facilities available to the cooperator.

Chemicals were recommended for control of insects. Cultivars

The pedigrees of soybean cultivars evaluated in the fourth ISVEX during 1976 and early 1977 are described in Table 1. These cultivars were selected for their consistent high yield performance for several years in the U.S. Department of Agriculture Regional Soybean Trials which originate in Lafayette, Indiana, and Stoneville, Mississippi. The entries were se- lected from U.S. cultivars in order to provide access to adequate quantities of high-quality seed. Certified or foundation seed was purchased from sources in the areas of the United States where each variety was grown.

At least one cultivar from each of the maturity groups 00 through IX was selected. There were 20 cultivars retained from the third ISVEX! and six new cultivars were added. The cultivars Bonus, Hampton 266A, Hardee, Semmes, and Tracy were deleted, whereas, Bragg, Cutler 71, Essex, Hill, Ransom, and Steele were added.

The cultivars were divided into groups according to their relative maturity and distributed among cooperators according to the environmental zone. Some cultivars were common to more than one zone. The entries Clark 63, Calland, Columbus, Forrest, Williams, and Woodworth were common to all zones. Later maturing cultivars were distributed in tropical zones while earlier maturing entries were included for sites closer to temperate areas (Table 2).

In the instructions for the ISVEX trials it was suggested that the cooperator might wish to substitute one or two local soybean cultivars for those which were supplied by INTSOY. Many cooperators did substitute and the data on the performance of these cultivars may be observed in the table showing the analysis of data for that particular location.

Experiment Sites

The experiment sites were divided into environmental zones which were defined according to latitude and altitude. Separating the trial sites by latitude permits evaluation of cultivars under similar conditions of day length. Separation according to altitude permits evaluation under similar conditions of day- and nighttime temperatures. There was some variation

>-scC Whigham, D. K., and W. H. Judy, "International Soybean Variety Experiment Third Report of Results,'' INTSOY Series No. 15, University of Illinois at Urbana-Champaign, 1978, 369pp.

within each zone in temperature, moisture, and solar radiation. The limits of each of the 13 zones and the number of sites are shown in Table 3. The environmental zones were defined by each 10° increment in latitude from the equator and according to three altitude ranges divided 0 - 500 m,

501 - 1000 m, and higher than 1000 m.

The environment dictated the optimum planting time for each site. Plantings were made throughout the calendar year. The first planting was made on March 9, 1976 and the last planting on March 14, 1977. At several sites, the trial was planted more than once during the year.

The Fourth ISVEX was dispatched to 292 sites in 84 countries. Data were returned from 125 sites of which 25 were in Africa, 43 in Asia, and 21 in South America. Useful data were obtained at 114 sites in 58 countries which are listed in Table 4. Figure 1 shows the locations of these countries. The experiment was tested under a wide range of environmental conditions which are represented by sites which range in latitude from 33° South in La Platina, Chile to 52° North in Radzikow, Poland and by a range in eleva- tion from 1820 m in Leku, Ethiopia to -68 m in Deir Alla, Jordan. However, 63 trials were located within 20° of the equator and at altitudes lower than 500 m.

Data Collected

Data were reported for each plot by cooperators as follows:

Yield: Weight in grams of clean, dry grain from 5 m of the two center rows which is a harvest area of 6 m?.

Days to flower: Days from date of emergence to date when 50% of the plants have flowered.

Days to maturity: Days from date of emergence to date when 95% of the pods are ripe.

Nodule number: The number of nodules on the root system at the time when the first flowers appear and a second count of nodules three weeks after date of first flowering.

Nodule dry weight: Dry weight in grams of the nodules associated with the root system at the time first flowers appear and again three weeks after first flowering.

Plant hetght at maturity: Height in centimeters from the ground sur- face to the top of the main stem at maturity.

Lodging score: Estimated rating of lodged or down plants on a scale of 1 (all erect) to 5 (all down) as observed at time of maturity.

Shattering score: Estimated rating of the amount of shattering of seed from the pods on a scale of 1 (no seed shattered) to 5 (over 50% shattered) at the time of maturity.

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Plants harvested: Total number of plants harvested from the two center rows of each plot.

Pods per plant: Average number of pods per plant at time of harvest.

Seed wetght: Weight in grams of 100 randomly selected seeds from the dried, cleaned grain.

Quality of seed: Estimated rating of seed quality after harvest con- sidering the amount of wrinkling, defective seed coats, off-color seed, and moldy or rotten seed according to a scale of 1 (very good quality) to 5 (very poor quality).

Disease rating: Estimated rating of the severity of the three most serious diseases attacking soybeans in the trial according to a rating scale of 1 (highly resistant) to 5 (leaves covered with disease).

Statistical Analysis of Data

Analysis of variance was completed for variables for which data were reported from more than one replication of the trial at each site during the same season. Means, standard error of a cultivar mean, coefficient of variation, and the least significant difference (LSD) of cultivar means at the 5% level are reported for analyzable variables from each experiment Site. Correlation coefficients were computed between all traits reported.

Protein and oil contents were determined on the dry weight basis by a near-infrared light reflectance instrument in the Department of Agronomy at the University of Illinois. The analyses were made from one sample of each cultivar which was composited across replications at each trial site by the cooperator who returned the sample to INTSOY for analysis.

A combined analysis was prepared for all trial locations within an environmental zone where there were five or more trials. In some cases, a combined analysis was also prepared for a restricted geographical area within an environmental zone where there was a sufficient number of trial Sites available.

MATERIALS AND METHODS - JOINT INTSOY/IITA SITES Procedures

This publication also includes the report of results from the first joint soybean variety evaluation experiments which were conducted by INTSOY and the International Institute for Tropical Agriculture (IITA) which is located near Ibadan, Nigeria. This joint trial was organized by INTSOY and IITA during 1975 in order to expand the range of germplasm available to co- operators and to reduce confusion of efforts by cooperators who might be ex- pected to conduct both the INTSOY and IITA soybean variety trials. These joint INTSOY/TITA trials were sent to cooperators identified by both organi - zations in Africa which were located between the latitudes of 20° N and 20° S. This region primarily encompasses the tropical rain forest conditions.

The trials were conducted similar to the ISVEX trials except that eight varieties were supplied by INTSOY and eight varieties by IITA. Otherwise, procedure and instructions for conducting the trial were the same.

Cultivars

The soybean cultivars tested in the first joint INTSOY/IITA trial during 1976 are listed in Table 2. Those entries with the TGx and TGm prefixes were supplied by IITA. INTSOY supplied eight cultivars normally distributed to environmental zones I, II, and IV. Those included Bossier, Clark 63, Cobb, Davis, Forrest, Improved Pelican, Jupiter, and Williams. Of the eight entries Clark 63, Forrest, and Williams were also common to all ISVEX environmental zones. No substitution was suggested for any of the..16 countries.

Experiment Sites

Seventy-nine INTSOY/IITA trials were dispatched to cooperators in African countries located in environmental zones I through VI. The experi- ment was tested under many environmental conditions as represented by the range in latitude from 16° S in Magoye, Zambia to 13° N in Maradi, Niger and by the range in elevation from 1187 m in Kisanga, Zaire to 0 m in Abidjan, Ivory Coast.

Data Collected

The data which were reported for each plot by the cooperators were the same as that for the ISVEX trials.

Statistical Analysis of Data

The analysis of variance was completed for parameters which are re- ported according to the same method as for the ISVEX trials. Protein and oil contents were also determined and are reported. A combined analysis was prepared for all of the trial locations where there were five or more trials.

MATERIALS AND METHODS - JOINT INTSOY/SEARCA SITES Procedures

The results from the joint INTSOY/SEARCA (Southeast Asia Regional Center for Graduate Study and Research in Agriculture) soybean variety trials are included in this publication. The procedures are similar to those followed by INTSOY/IITA cooperators.

Cultivars

SEARCA supplied eight cultivars and INTSOY supplied nine (Table 2). The cultivars Calland, Clark 63, Columbus, Forrest, and Williams were common to all ISVEX and INTSOY/SEARCA sites.

Experiment Sites

The INTSOY/SEARCA trials were dispatched to about five coonerators in Asia. Usable data were returned from one site. :

Data Collected

The data which were reported for each plot by the cooperator were similar to that in the ISVEX trials.

Statistical Analysis of Data

The analysis of variance for parameters is reported according to the same method as the ISVEX trials.

RESULTS AND DISCUSSION - ISVEX SITES

Summary mean values of the parameters observed for single and multiple years and for selected geographical areas are presented in Tables 6 through 53. Individual site values which were obtained during the conduct of the Fourth ISVEX during 1976 are reported in Tables 54 through 204.

Tables with data for individual sites include agronomic, seed, and other descriptive information which identifies the location, environment, and management. Information is also included for the local cultivars which were tested. These tables are arranged by region, country, and site.

Summary tables have been prepared for environmental zones which contain five or more sites. Combined analyses were also prepared for selected geographical regions and countries. Summary tables were prepared for cul- tivars which were common to trials in 1974, 1975, and 1976 and for cultivars common in 1975 and 1976.

Discussion of results will concentrate on parameters of cultivars and on correlations between parameters which are significantly different. "Environmental zones'' as described in Table 3 will be hereinafter referred to simply as "zones."

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A summary of the yield in tropical zones I and IV is presented in Table 6. There were not sufficient sites in zone II to prepare a combined analysis. Comparable yields were obtained in both zones but the ranking of cultivars is considerably different. Davis was the highest yielding cul- tivar in both zones with 2525 kg/ha in the 15 sites below 500 meters altitude and 2466 kg/ha at the 16 sites located at the same altitude but between 11-20° latitude. The top five yielding cultivars in zone I in- cluded Davis followed by Improved Pelican, Forrest, Bragg, and Jupiter. In zone IV, Davis was followed in yield by Calland, Forrest, Cobb, and Williams. There was no significant difference in yield among the top six cultivars in zone IV.

In Tables 32 and 33, two-year and three-year means are presented for zone I. The same six cultivars appeared both years but in a different ranking. Davis and Jupiter were the two highest yielding cultivars in both the two-year and the three-year summaries. For 1975 and 1976, these two varieties were followed by Forrest, Improved Pelican, Williams, and Bossier, whereas, in the three-year mean Improved Pelican moved to third place and was followed by Bossier, Forrest, and Williams. There was less than 10% difference among the top five cultivars.

The combined analysis for Asian sites in zone I is reported in Table 47. Among these twelve sites, Davis was the highest yielding at 2337 kg/ha followed by Forrest, Improved Pelican, Williams, and Bragg. Ten of the zone I sites in Asia were located in Sri Lanka. Again, Davis was the highest yielding cultivar (2726 kg/ha) and Forrest was second, followed by Williams, Bragg, and Bossier, while Improved Pelican dropped to sixth place (Table 50).

The two-year and three-year means for zone IV are reported in Tables 35 and 36, respectively. The cultivar ranks and yields were the same for both summaries except for the absence of Cobb from the three year summary. Davis, Forrest, Bossier, Williams, and Clark 63 made up the top five group.

The combined analyses of yield for zones III, VI, and VII are presented in Table 16. The cultivar Hill moved to first place with 1990 kg/ha for the six sites. Davis and Forrest were second and third ranked in yield while Cobb moved into fourth place, followed by Improved Pelican and Bossier. The rank of yields in zone VI and VII was considerably different from zone III. For the five sites above 1000 m in zone VI, Davis was again first with 3207 kg/ha, but was followed by Essex, Calland, Columbus, and Ransom. For the 16 sites in zone VII, Davis was first with 2371 kg/ha and was followed by Ransom, Bossier, Forrest, and Bragg. The mean grain yield for all cultivars in zone III, VI, and VII was 1535, 2809, and 2101 kg/ha, respectively.

In the two-year mean for zone III shown in Table 34, Davis was the highest yielding followed by Forrest, Bossier, Williams, and Improved Peli- can. The 1976 and the two-year mean yields were almost exactly the same. There were not sufficient sites in zone III in 1974 to obtain a combined analysis for that year, so a three-year summary could not be prepared. There were not sufficient sites in zone VI in 1974 or 1975 to prepare a combined analysis.

The two-and three-year means for zone VII are presented in Tables 37 and 38, respectively. The relationship of Davis, followed by Bossier, Forrest, Williams, and Clark 63 was the same for both summaries, but the mean yield over three years was 15 percent lower than the two-year mean.

There were six sites in zone VII in 1976 in Asia and Oceania which could be combined. Williams was the highest yielding cultivar at 1964 kg/ha, followed closely by Davis, Columbus, Forrest, and Clark 63 (Table 49). Williams flowered and matured earlier and did not grow as tall as the other four top varieties, but it was still able to produce a comparable yield.

The four sites in Pakistan were combined separately in Table 51.

Ransom produced the highest yield at 2526 kg/ha. There was no significant difference among the top five which included Bragg, Bossier, Davis and Pecketto7t:

There were four sites in zone III in Ethiopia which were combined (Table 52). Hill produced the highest yield of 2125 kg/ha, followed closely by Davis. Essex, Forrest and Columbus rounded out the top five yielding varieties in these high altitude (>1000 meter) sites.

There were not sufficient sites in zones VIII and IX to obtain a reliable estimate of yields in a combined analysis.

In zone X there were eight sites which could be combined and these data are reported in Table 25. There was no significant difference among the 12 cultivars represented, but the yield of seven entries exceeded 3000 kg/ha and the yield of the top cultivar, Williams, was 3324 kg/ha.

Among zones where a combined analysis | could be prepared, the highest mean yields were obtained in zone X (31- 40° latitude, <500 m altitude). However, in zone VI (11-20° latitude, 1000 m altitude), the mean yield of 2809 kg/ha was only 6% less than in zone X. Yields in zones I, IV, and VII exceeded 2000 kg/ha. The highest mean cultivar yield (3324 kg/ha) for combined sites was produced by Williams. Sites near the equator and above 1000 m altitude produced the lowest mean yields.

The highest yield produced by an individual cultivar at any one site was Pickett 71 where 6535 kg/ha were obtained. There was one site which re- ported a yield higher than 6000 kg/ha; it was Deir Alla, Jordan. Five Sites reported yields greater than 5000 kg/ha. There was a total of 15 sites with yields greater than 4000 kg/ha. These included four sites in South America, three sites in Africa, and two sites in Asia.

Days to Flower

These data represent the number of days from emergence to that time when 50% of the plants have flowered. As a particular cultivar is moved into an environment where the day length becomes shorter, the time between emergence and first flowering decreases which means that the plants are smaller both when they flower and when they mature.

There was little difference between mean days to flowering of cultivars with similar maturity when grown at sites in zone I (0 - 10° latitude, 0-500 m) and zone IV (11-20° latitude, 0-500 m) as reported in Table 8. However, there was an increase in days to flowering between zones I and III and between zones IV and VI (Tables 8 and 18). This suggests that tem- perature change (altitude) affects days to os Wit more than does day length (latitude) at latitudes less than 20°

Williams, Calland, Clark 63, and Woodworth were all among the earliest flowering cultivars in zones I, III, IV, VI, and VII. Jupiter and Improved Pelican were the latest to flower. A group which was moderately late in- cluded Davis, Bossier, Cobb, Bragg, Forrest and Hill.

Mean days to flower of cultivars grown in zone X (31-40° latitude, 0-500 m altitude) are reported in Table 25. The mean for all cultivars (37 days) was only 4-8 days later than zones I, IV, and VI, but 5-15 days earlier than zones III and VII. The earlier group included Hark, Steele, Corsoy, Wells, Beeson, and Amsoy 71; whereas, the later group included Woodworth, Clark 63, Williams, Calland, and Cutler 71.

Two-year and three-year means for cultivars in zone I (Tables 32 and 33), zone IV (Tables 35 and 36), zone VII (Tables 37 and 38), and X (Table 39) were almost exactly the same as 1976 data. Two-year means for zone III (Table 34) indicate that cultivars matured slightly earlier in 1976.

Days to Harvest

Days to harvest is defined as the time from emergence to the growth stage when 95% of the pods are mature. It is useful to consider not only days to flowering and days to harvest but also the time interval between flowering and maturity. The range in mean days for all cultivars from flowering to maturity among all zones (Tables 9, 19, and 25) was 63-77 days whereas the range from emergence to flowering was 29-52 days and from emer- gence to maturity was 92-124 days.

The late maturing cultivars in zones I and IV (Table 9) and zones III, VI, and VII (Table 19) included Jupiter and Improved Pelican. Davis, Bragg, Bossier, Cobb, Ransom, Forrest, and Pickett 71 fell into the moderately late group. Williams, Calland, Clark 63, Woodworth, and Hill matured earliest.

In zone X (Table 25), the earlier maturing group included Steele, Hark, Hodgson, Corsoy, Wells, and Woodworth. The later maturing cultivars were Cutler 71, Clark 63, and Calland.

These data for zones I, IV, VII, and X were consistent with two-year means reported in Tables 32, 35, 37, and 39, respectively, and three-year means for zones I, IV, and VII reported in Tables 33, 36, and 38, respectively. However, over the two years, cultivars in zone III were reported to mature slightly later (Table 34) than in 1976.

Nodule Number and Nodule Wetght

The number of nodules which form on the roots of soybean plants is an indication of the presence and relative activity of the strains of rhizobia which are present in the soil and those added through the inoculum. Nodule weight is an indication of nodule size as well as quantity. Usually, larger nodules are more active in fixing nitrogen. By taking nodule data at two stages of growth, an estimate of the persistence and effectiveness of the rhizobia strains can be estimated. Observations on nodulation during early growth gives an indication of the efficiency of inoculum added to the soil. Nodule activity during late flowering and early pod fill usually affects yield of beans.

Data on nodule number and weight for ten plants at two stages of plant growth are reported in Tables 40 and 42-46. Correlations between yield and

10

these parameters have also been included. Nodule number almost doubled from the first to second time of sampling for all zones except III (Table 42), where the number remained almost constant. In zone III, nodule weight de- creased by 50%. In other zones, nodule weights increased 3-5 times.

At the early growth stage, nodule number ranged from a low of 55 for Calland in zone VII (Table 45) to a high of 186 for Ransom in zone III. The weight of nodules ranged from 0.27 g for Bragg in zone I (Table 40) to the high of 3.54 g for Bossier in zone III. Correlations with yield are

inconsistent except in zones VI (Table 44) and VII where they are positive and significant.

At time of second sampling, the fewest nodules were observed on Woodworth (78) in zone VII and the most on Bragg (307) in zone VI. Nodule weights ranged from a low of 0.98 g on Hill in zone VII to a high of 4.00 g on Davis in zone VI.

Correlations between nodule number and nodule weight were positive in all zones at the second sampling. The highest correlations between nodule number and yield were observed in zones IV (Table 43), VI, and X (Table 46). The highest correlations between nodule weight and yield were found in zones III, VI, and VII.

Plant Hetght

The tallest cultivars in zones I and IV (Table 10) were Improved Pelican at 74 and 86 cm, respectively, and Jupiter at 68 cm. The mean for all cultivars in those zones was 45 and 48 cm. Davis, Forrest, Bossier and fill were the shortest in zone I, ranging from 33'to 36 cm. In‘zone IV, Pickett 71 and Bossier were shortest at 31 and 36 cm. The correlation between yield and plant height (0.48) was positive and significant.

Plants tended to grow taller with an increase in latitude at altitudes below 500 m. Plant height was 45 cm in zone I, 48 cm in zone IV, and 51 cm in zone VII (Table 20). The difference in height between various altitudes within zones is inconsistent. Plants were shorter in zone III (Table 20) than in zone I, but slightly taller in zone VI (Table 20) than in zone IV. The shortest cultivar in zone III was Pickett 71 at 30 cm which grew 36 cm tall in zone VI. Davis grew 40 cm tall in zone III but 66 cm tall in zone VI, where it was the next to the tallest cultivar after Improved Pelican (96 cm). Improved Pelican at 71 cm was also the tallest cultivar in zone III. The range in plant height in zone VI was from 36 cm for Pickett 71 to 96 cm for Improved Pelican.

There was almost a doubling in height of the cultivars between zone VII and zone X (Table 25). The mean for zone X was 85 cm compared to 51 cm for zone VII. The range in height in zone X was from 70 cm for Hodgson to 100 cm for Cutler 71.

The trend in plant height among zones for multi-year means in Tables

32-39 was comparable to 1976 data. In zone I, the three-year mean was 48 cm compared to 1976 data of 45 cm; in zone IV, 42 cm compared to 48 cm; in

11

zone VII, 54 cm compared to 51 cm; and, in zone X, 81 cm compared to SSincm.

Lodgtng

The amount of plant lodging is generally closely associated with plant height and with population. In 1976, there was a positive and significant correlation between plant height and lodging. There was very little differ- ence in mean lodging scores for all cultivars among zones I, III, IV, VI, and VII in Tables 11 and 21. However, there were some differences among cultivars within zones. In zone I, Improved Pelican and Jupiter, the tall- est cultivars, exhibited the greatest amount of lodging. The same trend carried through zones III, IV, and VI for Improved Pelican. Several culti- vars had very low lodging scores. Among these were Davis, Forrest, Bragg, Williams, Bossier, Hill, Ransom, and Pickett 71. In zone X (Table 25), moderate lodging was reported for Amsoy 71, Beeson, Calland, Cutler 71, and Clark 63. Where heavy lodging occurs, lower yields are expected. However, correlations between lodging and yield in the Fourth ISVEX were not highly positive which indicates that lodging was not a serious problem.

Shattering

Where shattering is excessive, yields are expected to be lower. Mean shattering scores for individual and all cultivars within zones were low in zones I, III, IV, VI, and VII (Tables 12 and 22). There was no significant difference between varieties within any of these zones. This same situation occurred also in zone X (Table 25). Therefore, shattering did not ampeanrce be a serious problem among the cultivars tested in any of the zones during 1976.

Pods Per Plant and Seed Wetght

The number of pods produced per plant and the weight of a given number of seeds are both parameters which are usually correlated with grain yield. Mean numbers of pods per plant along with the correlation of this parameter with other observations are presented in Tables 40 and 42-46 for zones I, II, IV, VI, VII, and X. There was a positive and significant correlation between yield and pods per plant. However, the mean number of pods per plant was not always directly associated with changes in yield of beans among zones. The lowest number of pods per plant was in zone III with 19.8 where the lowest yield (1535 kg/ha) was obtained. However, the highest mean yield for all cultivars (2809 kg/ha) was obtained in zone VI where the nun- ber of pods per plant was 21.7. In zone I there were 23.5 pods per plant with a yield of 2271 kg/ha; in zone VII, 25.0 pods per plant with a yield of 2101 kg/ha; and in zone IV, 26.4 pods per plant with a yield of 2113 kg/ha.

The association of pods per plant and plant height is more highly cor- related than is the relationship between pods and yield except in zone X

slid

(Table 46). Yield and pods per plant were less highly correlated in zone X than in other zones also.

Yield and 100 seed weight were highly and positively correlated ex- cept in zone III (Table 42). The weight of 100 seeds ranged from 15.5 g in Biewyiie to 21.38 gyin zone- lll (Tables13, 23, and.25)...In:zone,1, the range in seed weight was from 14.4 g for Improved Pelican to 18.7 g for Davis which had the highest yield. In zone IV, the range in weight was from 12.8 g for Improved Pelican to 18.7 g for Williams but Improved Peli- can had a slightly higher yield than Williams. Cultivars had higher mean seed weight in zone III than in other zones; the range was from 16.1 g for the cultivar Forrest to 30.9 g for Ransom. However, the yields were lower in zone III than in any other zone. The lowest seed weight was obtained in zone VI with Improved Pelican (16.0 g) and the highest with Calland (22.2g). The highest yield in this zone was obtained with Davis which had a seed weight of 21.3 g. In zone VII, the range was from 13.5 g for the cultivar Forrest to 17.2 g for Calland. The highest yielding variety Davis had a seed weight of 16.1 g.

The cultivars planted in zone X had seed weights comparable to those of cultivars planted in zones I through IX. Wells had the lowest seed weight of 16.2 g and the top yielding variety Williams had a seed weight of 19.3 g. When compared among different environmental zones, Williams had a seed weight of 18.4 g in zone I, 18.9 g in zone III, 18.7 g in zone IV, @u27-e-in*zone VI, and 16.4 9 in,zone, VII.

Seed Quality

The estimate of seed quality was obtained from a visual rating where a score of 1 indicated the best quality and 5 the poorest quality. Mean seed quality scores for environmental zones I, III, IV, VI, VII, and X are pre- sented in Tables 14, 24, and 25. The best seed quality score was reported for cultivars from environmental zone I which is below 500 m in altitude and near the equator. Average quality scores are reported for environmental zones VI, VII, and X. The lowest quality seed was observed in, the 13 sites in zone IV which is below 500 m altitude and between 11 and 20° latitude.

In zone I the best quality seed was reported for Improved Pelican and Davis. Bragg, Williams, Clark 63, and Hill also received good ratings. In zone IV the best rating was accorded the cultivar Williams which was fol- lowed closely in quality by Davis, Improved Pelican, Clark 63, Hill, and Pickett 71. Comparable quality ratings were given to Woodworth, Williams, Bossier, and Hill in zone III. In zone VI, Improved Pelican was given the highest quality rating and Hill, Davis, and Bragg received good quality ratings.

Disease Rating Cooperators were requested to make observations about incidence and intensity of diseases on plants. However, at many sites, observations were

either omitted or incomplete. Therefore, a meaningful summary of disease observations could not be made.

13

Protetn and Otl Content

The relationship of protein and oil content of soybean seeds usually fluctuates inversely. As protein content increases, oil decreases.

Zones I, II, and IV are reported in Table 26. In zone I, the mean for all cultivars was 39.5% with the range from 37.7 to 41.4%. Although Bossier was highest at 41.4% there was little difference among the top five cultivars. The mean 0il content for all cultivars was 22.8%; Ransom had the highest content (24.83).

In zone II, only one site returned seed for analysis. Calland and Essex had the highest protein content at 44.5 and 44.4%, respectively. Ransom and Williams were higher than the other entries in oil content.

In zone IV, Bossier and Columbus contained the highest protein content of 44.7 and 43.1%, respectively. Ransom and Woodworth had the highest oil content.

The two zones with the highest mean protein content for all cultivars were III and VIII. The mean protein in zone III (Table 28) was 43.2% with a range of 41.3-45.5%. The highest three cultivars include Improved Pelican, Bossier and Williams. The mean oil content was lowest in zones III (20.1%) and IX (18.6%). Improved Pelican and Hill contained the lowest oil content (19.1%) and Cobb had the highest (20.8%) in zone III.

In zone V (Table 28) with only one site reporting, Jupiter contained the highest protein content (43.9%) and Cobb the highest oil (24.9%).

In zone VI (Table 28), the top four cultivars in protein content in- Cluded Improved Pelican (42.5%), Essex and Bossier (42.1%), and Columbus (42.0%). The highest 011 content was produced by Ransom (23.3%).

The protein content of cultivars in zones VII and VIII were comparable (Table 29). Bossier, Cutler 71, Bragg, and Calland were the highest four in zone VII whereas Calland, Bragg, Cutler 71, and Williams were the top group in zone VIII. The mean for all cultivars was higher in zone VIII (43.2%) than in VII (41.5%). The reverse relationship was observed in oil content with 20.5% in zone VIII compared to 22.2% for zone VII.

Data were available for only two sites in zone IX (Table 29). Clark 63 produced the highest protein (41.9%) and Woodworth, Wells, and Beeson tied for highest oil (19.6%).

Only 2.9% in protein content separated the highest cultivar Columbus (41.7%) from the lowest Amsoy 71 (38.8%) in zone X. Oil content was similar in uniformity as the range was from 21.9% for Williams to 20.4% for Columbus.

Only one site each returned seeds for analysis in zones XI and XII (Table 30). In zone XI, Columbus had the highest protein content (43.4%) and Wells the highest oil content (21.2%). In zone XII, Steele produced the highest protein (43.7%) and Hodgson the highest oil (23.4%).

14

There were data available for six common cultivars among the three sites which returned seed for analysis in zone XIII (Table 31). The grand mean for protein was 40.2% with Wells highest at 42.8%. There was very little variation in oil content except for Wells (19.3%) which had the low- est oil content. The grand mean was 20.0% and Clark 63 had the highest content (20.7%).

Yteld of Local Culttvars

As discussed earlier, cooperators were encouraged to substitute one or two local cultivars for INTSOY supplied entries. Cooperators substituted one cultivar at 27 sites and two at 26 sites. Of these 53 sites, the yield of a local entry exceeded that of the other ISVEX cultivars at only nine sites:

The highest yield obtained with any substituted cultivar (3196 kg/ha), was reported at Apatzingan, Mexico with the entry R.A.O. The grand mean of all entries at Apatzingan, Mexico was 2102 kg/ha. There was no significant difference at 5% among the next nine cultivars which included Jupiter, Davis, Hampton 266A, Cobb, Improved Pelican, Columbus, Tracy, Bossier, and Calland. The entry PB-1 yielded 2955 kg/ha at Puttalam, Sri Lanka, but there was no significant difference in the top four entries which also in- cluded, in order, Forrest, Hill, and SJ-2 (another substituted cultivar). The third highest was Visoja which yielded 2836 kg/ha at Caacupe, Paraguay. Fourth, fifth, and sixth highest were Loppa (2605 kg/ha) at Tandojam, Pak- istan; PB-1 (2563 kg/ha) at Alutharama, Sri Lanka; and Manaus-1 (2217 kg/ha) at Manaus, Brazil, respectively.

Other substitute cultivars which yielded higher than ISVEX entries in- cluded Ogden, 43s, and Orba.

RESULTS AND DISCUSSION - JOINT INTSOY/IITA SITES

The joint INTSOY/IITA trial was difficult to coordinate because the requests for and dispatch of cultivars were received and forwarded from two widely separated institutions--INTSOY and IITA. Nonetheless, through close and careful communication, many cooperators received trials and re- turned useful data.

There were 25 sites which conducted the trial and 19 sites which returned usable data. The highest mean yield of 3494 kg/ha was obtained at Maradi, Niger. The highest yield for any cultivar was 4438 kg/ha with Davis, also at the Maradi site.

Selected agronomic characteristics of sited which could be combined are reported in Table 15; protein and oil content are reported in Table 27; and individual sites in Tables 55, 56, 73, 74, 75, 76, 81, 83, 86, 90, 91, 93, 95, 98, and 102.

Agronomie Charactertsttes

The combined analysis reported in Table 15 contains data from six sites inezones| (0-10°. latitude, 0-500 m altitude). Davis and the IITA cultivar TGx 13-3-2644 were clearly first and second in yield and in rank by yield

15

across locations. Although there was no significant difference among

the 15 entries, there was a 30% difference between the yields of the top five and the lowest three cultivars. The rank of INTSOY entries Davis, Jupiter, Williams, Cobb, Clark 63, and Bossier can be compared to the rank- ing reported for ISVEX sites in zone I in Table 6 where the ranking was Davis, Williams, Jupiter, Bossier, Clark 63, and Cobb. The mean of the top nine in the INTSOY/IITA trial was 2002 kg/ha compared to the mean for ISVEX sites in zone I of 2271 kg/ha. Five of the eight IITA cultivars were ranked among the top seven entries.

Mean days from emergence to flowering and from emergence to maturity are comparable between the INTSOY/IITA group and the ISVEX entries reported in Tables 8 and 9, respectively. The highest yielding IITA cultivars were among the latest to flower and to mature. The other IITA entries were mod- Eracely Late:

The mean height of INTSOY/IITA cultivars was greater than the ISVEX cultivars which can be attributed to the height of IITA entries which aver- aged 56 cm compared to Improved Pelican at 67 cm and the other INTSOY en- triesseé 390cm:

There was a strong positive correlation between yield and root nodule weight and also nodule number. The highest correlation (0.72) within any zone was reported for this trial between yield and nodule weight at the second sampling.

Cooperators reported more lodging for all entries in the INTSOY/IITA trial. The worst lodged was TGm 249-4-b followed by Jupiter, TGm 220-1-2205, and TGx 13-3-2644. The least lodging was reported for Cobb, Bossier, and Davis.

Only one cultivar exhibited moderate shattering (TGm 210-1-2363). There was no real difference or shattering problem among the other 14 entries.

The seed weight per 100 seeds was 16.4 g compared to 17.0 g for ISVEX entries (Table 13). Williams had the largest seed at 20.0 g. A group of four cultivars had seed weighing from 18.0 to 18.9 g. These included Davis, Jupiter, Clark 63, and Bossier. IITA cultivars produced seed weighing from 12.7 to 16.6 g and except for Improved Pelican (13.8 g), most were smaller- seeded than ISVEX cultivars. There was a strong positive correlation be- tween seed size and yield (Table 41).

The best quality seed was produced by TGm 294-4-2371 and TGx 66-5100. These were followed by a group of five cultivars of good quality--Davis, TGx. 13-3-2644, TGm 256-1-b, Improved Pelican, and TGm 249-4-b. The group with the next best quality were TGm 210-1-2363, Williams, Cobb, and TGm 255-2-4341. Jupiter had the poorest rating of 2.5; Clark 63 and TGm 220-1- 2205 were slightly better in quality.

Protetn and Otl

The protein content of two IITA cultivars, TGm 294-4-2371 and TGm 256- 1-b was 47.5 and 47.1%, respectively. This was higher than other entries at the six INTSOY/IITA sites and also greater than any other zone or culti- var mean from the ISVEX sites. The mean for all cultivars was also higher than the “highest ISVEX zone. 16

Oil content ranged from a high of 24.4% for Cobb to a low of 19.2% for TGm 294-4-2371.

RESULTS AND DISCUSSION - JOINT INTSOY/SEARCA SITES

Data were available from only one site from the joint INTSOY/SEARCA soybean variety experiment. This trial was conducted at Sukothai in Thailand. The coefficient of variation was high for these data but Calland, Columbus, Forrest, and Multivar 80 had the highest yields which were 2861, 2692, 2632, and 2543 kg/ha, respectively (Table 145).

Those cultivars with medium days to flowering and to maturity had the highest yield. The latest flowering and maturing entries, SJ-4 and Tainung 4 ranked 10th and llth. Altona and Multivar 80 tied for earliest flowering (27 days) and were also the earliest maturing.

The tallest cultivar Kaohsiung E-32 (118 cm) was lowest in yield and along with Orba (65 cm) was severely lodged. The only other badly lodged cultivar was TK-5. Altona and Forrest were the shortest entries. The mean for all entries was 64 cm.

Calland and Columbus had the largest seed and Orba and Koaohsiung E-32, the smallest. There was little difference in seed quality except for Amsoy 71 and TK-5 which were given very good ratings.

SUMMARY

A large group of soybean cultivars of diverse genetic composition was evaluated under a wide range of environmental conditions in the Fourth In- ternational Soybean Variety Experiment (ISVEX) during 1976. Yields of 2000-4000 kg/ha of good quality seeds were consistently obtained under trop- ical and sub-tropical conditions.

Change in altitude (day- and nighttime temperature) had more effect on plant height and on days to flowering and maturity than did change in lati- tude (day length). Cultivars in groups 00 - VIII flowered earlier and did not grow as tall when grown at sites closer to the equator. Later maturing cultivars frequently, but not always, outyielded early maturing types. This presents problems in developing high-yielding cultivars which also mature early, since these types are frequently required for intensive cropping systems.

Lodging and shattering were not serious problems with the cultivars evaluated. Grain quality decreased under conditions of high humidity and temperature, especially near harvest time.

The effectiveness of rhizobia, particularly when related to yield, was

difficult to evaluate which suggests problems of adaptability and persis- tence.of strains.

17

Cultivars introduced through ISVEX consistently outyielded local entries. Multi-year summaries indicated the superiority of Davis, Forrest, Bossier, Williams, Clark 63, Cobb, Improved Pelican, and Jupiter under tropical conditions. The potential of Calland, Columbus, Essex, Hill, Ransom, and Pickett 71 may be reflected in future multi-year summaries.

The protein content of the same cultivars was as high or higher in tropical environments as in temperate conditions.

Taple ls

Pedigree of soybean cultivars grown in the fourth Internattonal

Soybean Variety Evaluation Experiment (ISVEX) during 1976

Cultivar

Altona Amsoy 71 Beeson Bossier Bragg Calland Ces-16-17 Clark 63 Cobb Columbus Corsoy Cutler 71 Davis

Essex Forrest Hark

Hill Hodgson Imp. Pelican Jupiter Kaohsiung E-32 Lincoln Multivar 80 Orba Pickett 71 Ransom

SJ-1

Steele Swift

Tainung 4

TG@m 220-1-2205 TGm 210-1-2363 TGm 255-2-4341 TG@m 249-4-b TGm 294-4-2371 TG@m 256-1-b TGx 66-5100 TGx 13-3-2644 TK-5

Wells

Williams Woodworth

Maturity Group

00 Hei rt VII VII gp!

II LPL III

Pedigree

P.I. 194654 x Flambeau

Amsoy® x (Blackhawk x Harosoy) C1253 x Kent

Selection from Lee

Jackson x D49-2491

C1253 x Kent

(Clark’ x CNS) x (Clark® x Blackhawk) F57-735 x D58-3358

C1069 x Clark

doeaey x Capital

Cutler’ x Kent

[Roanoke x (Ogden x CNS)] x (Ralsoy x Ogden) Lee™x 55-7075

Dyer x Bragg

Hawkeye x Harosoy

(Dunfield x Haberlandt) x Sib of Lee Corsoy x M372

Tanloxi x P.I. 60406

D49-2491 x P.I. 240664

Mandarin x Manchu

Pickett x P.R. Resistant Lee (N55-5931 x N55-3818) x D56-1185

Blackhawk x Harosoy [(Lincoln? x Richland) x Korean] x (Renville x Capital)

Selection from Lee 68 x (Hill x PI 274,454) Selection from Lee 68 x (Hill x PI 274,454) Selection from D66-8666 x (Hill x PI 274,454) Selection from D66-8666 x (Hill x PI 274,454) Selection from 203-6-1-m(7)

Selection from 066-8666 x(Hill x PI 274,454) Selection - parentage unknown

Selection - parentage unknown

C1266R-x GE253

Wayne x L57-0034 Wayne x L57-0934

19

x X X X X X X X X x X x X X X X X X X X X X X X X x x x X X X X X A x x X X X X x X X X X X X X X X X X X X X X X i x X X X X X x X X X x X X X x i X X X if X X X X X X X x X X X X X X X X X x IX 8 *X IIA 8 STeTLL, WOUVdS STeTIL VIII eyeteduay =IIX ‘XI ‘IIIA ‘IA ‘A AI

/KOSINI TOL /KOSINI FUTOL 9uoz [e}USWUOITAUS AG UOT NGTISTY

PS PS PS PS PS OS PS PS PS PS PS PS OS OS OPS OS

Pho pai ae

TFIMS

Bud TY 8T9901S uosspoy 44H AOSIO) AOSUY STTOM uoseeg

TZ 49T3N) Y2LOMpooM SWETTT IM wosuery

TZ 449%9Td Loytdne uedTTeg * dwy TTtH 3S91L04 XOSSq STAR snqun{to9 qqo)

£9 ALeTO pueTTe) sseig IOTSSOg

IeATITND

9261 SuLinp XHAST yzanof ey7. ul savaizyzno fo uo1znqiizsiqd 78 2790]

20

Table 2 (Cont'd): Dtstrtbutton of cultivars tn the fourth ISVEX during

1976

Cultivar

TGm 220-1-2205 TGm 210-1-2365 TGm 255-2-4341 TGm 249-4-B TGm 294-4-2371 TGm 256-1-B TGx 66-5100 TGx 13-3-2644 CES- 16-17 Kaohsiung E-32 Lincoln Multivar 80 Orba

SJ-1

Tainung 4

TK-5

24

Joint INTSOY/ LEAL Trials

PS PS PS PS PS PS PS PS

Joint INTSOY/ SEARCA Trials

OS PM PM PS PS PS PS OOS

Table 8: Desertption of envtronmental zones in the fourth Internattonal

Soybean Vartety Evaluatton Experiment

Zone Latitude Elevation Number of sites (m)

I < 10°591l/ < 500 39 II 210 5 501 - 1,000 6 III < 10°59" > 1,0002/ 13 IV 120 5st < 500 24 V 1 e260 59! 501 - 1,000 1 VI P19 20 50" > 1,000 7 VII 21 ie) So? < 509 20 VIII 21° 30°50" 501 - 1,000 6 IX ae a amiss), > 1,000 X 31° - 40°59" < 500 15 XI 31° = A0°593 Ghle =. one 5 Mr 317 apesat > 1,000 2 XIII » 41° > 0 5 l/ < = less than or equal to

/ > = greater than

(ad

Tab le

4;

Geographteal desertption of sttes where the fourth Internattonal Soybean Vartety Evaluation Expertment was conducted and from which

useful data were returned to INTSOY

Region Country Site Latitude Elevation (m) Africa Algeria Khemis-Miliana 36° 15'N 289 Benin Parakou 9° 58'N 358 Central African Empire Bossangoa 6° 26'N Doe Egypt Bahteem 30° N 24 Seds nN 41 Ethiopia Awassa spa N 1700 Dedessa 9° 08'N 1220 Jimma 7° 46'N 1756 Leku 6° 45'N 1820 Gabon Ntoum 0° 20'N 18 (2etrtals) és Ghana Kumasi 6. 41'N 270 Legon Farm 5° 39'N 60 Ivory Coast Dekokaha 9° 05'N 350 Odienne 9° 06'N 400 Sirasso a4 O4'N 350 Lesotho Maseru 20 aoe 1550 Niger Maradi 13° 28'N 351 Rhodesia Salisbury 17° 48'S 1506 Somalia Afgoi 2° 08'N 13 Sudan Wau 7° 36'N 450 Swaziland Big Bend 26, 52'S 150 Tanzania Ilonga 65 46'S 503 Togo Davie 65 Z26'N gS Kitangbao 95 16'N 340 Uganda Kampala 05 28'N 1160 Upper Volta Bobo-Dioulasso 110 Z5'N 250 Zaire Kisanga 11, AA'S 1187 Zambia Kabwe 14, Le"S 1207 Magoye 165 01'S 1067 (3 trials) . Mulfulira lgaro7 'S 1265 Asia Bangladesh Joydevpur 24° N 8 Kashimpur 24 N 8 Mymensingh BA aan 18 Pabna 245 03'N 22 India Jabalpur 235 10'N 393 Pantnagar 295 OS'N 243 Indonesia Malang 85 25'S 555 Medan 3, 35!N Za Nepal Khairanitar Farm 285 N 1000 Khumaltar 27° 40'N 1360

6)

Table 4 (cont'd): Geographtcal deseriptton of sttes where the fourth International Soybean Variety Evaluation Expertment was conducted

and from whtch use ful data were returned to INTSOY

Region Country Site Latitude Elevation (m) Asia Pakistan Islamabad 34° N 526 (cont'd) Kotdiji ai N 18 (2 trials) . Lahore 31, 30'N 230 Mingora 36 46'N 904 Mirwah 25 ae 20 Swat 36. 46'N 904 Tandojam 25. a 63 Tandojam 256 N 2 Umerkot 2565 N PBS, Philippines Los Banos 14 10'N “ls Sri Lanka Alutharama 7 SO 266 (ZirS) " Angunukolapalessa GP N 30 Bandarawela Or 51'N 1220 Gannoruwa 7 250s 457 (3 trials) - Kilinochchi 9° SOZ 5 a (25triais) - Maha Illuppallama 8 O5'N 138 C2*trrais) m5 Okkampitiya 6, AS'N 184 Puttalam 85 LS'N 24 Thirunelvely 10 N rf Thailand Khon Kaen 16° 36'N 180 Saraburi 14° 47!N 100 Suwan Farm 14” 30'N 567 Europe Hungary Godollo 47° N Szarvas 46° 51'N 84 Italy Sassari, Sardinia 40> 43'N 80 Ussana, Sardinia 39° 25'N 89 Poland Radzikow 52° 13'N 90 Portugal Porto 41° 20'N 29 Spain Seviite S10 20 Yugoslavia Novi Sad 45° 20'N 80 Mesoamerica Bahamas San Andros 24° 57'N 2 Dominican Republic San Cristobal 18° 30'N 43 Jamaica Caymanas 18, N Z Mexico Apatzingan 19 N Jot (2 trials) Nicaragua Managua 12° 33'N 60 Posoltega 12° 33! 60 Puerto Rico Isabela 18° 28'N 140

24

Tab le

4 (cont'd):

Geographical description of sites where the fourth

International Soybean Variety Evaluation Experiment was conducted

and from which useful data were returned to INTSOY

Region Country Site Latitude Elevation (m) Middle East ‘Iran Karaj 37° 47'N 1300 Safiabad 32° 16'N 81 Israel Bet-Dagan 52 uk aN 80 (Zetrials } Fi Jordan Deir Alla Sos 25N -68 Saudi Arabia Wadi Jizan 17° 55'N 83 North America United States Urbana, Illinois 40° 07'N 226 Oceania New Caledonia Bourail As S 0 New Hebrides Port Vila 170 45'S 15 Tahiti Papeete 17, Sens 2 United States Kapaa, Hawaii 21 N 168 (2 trials) South America Argentina Parana Sis 50.V5 walla Bolivia Santa Cruz 18) RES 389 Santa Cruz 17, 14'S 320 Brazil Janauba 156 S 510 Chile La Platina 336 Cio 625 Colombia Palmira Seon 1008 Ecuador Boliche 2221'S iy Pallatanga ie 59'S 1 Portoviejo 1, 04'S 30 Pichilingue ie 05'S 1 Paraguay Caacupe 256 24'S 228 Peru La Vina 12, 05'S Zon Lima 12, 05'S 238 Uruguay Tacuarembo 315 AZ 120 Treinta y Tres ose ALSe 31

25

Table 5: Ltst of cooperators partictpating tn the fourth Internattonal Soybean Vartety Evaluation Expertment

Region Country Name Address AFRICA Algeria Officer-in-Charge Station Regionale TDG:

Khemis-Miliana El-Asnam, ALGERIA

Benin Director Institut de Recherches Agronomiques Tropicales ope ape Ses Parakou, BENIN

Mr. E. Limburg Action Rurale Mr. E. Fado Bs Pee 0z Save, BENIN

Botswana Mr. P. G. Lee Agricultural Research Station - Content Farm P/bag 0033 Gaborone, BOTSWANA

Ms. Lynn A. Miller Mahalapye Rural Training Center Box 300 Mahalapye, BOTSWANA

Burundi Mr. J. De Brabandere Buhoro Station BLP. #95 Bujumbura, BURUNDI

Mr. De Marcim ISABU SEMS/ IMBO BLP. 32397 Bujumbura, BURUNDI

Cameroon Mr. Jean Praquin Pi Vee Santchou, CAMEROON

Central Mr. Miguel L. Carmen FAO Expert African Centre de Multiplication Empire de Soumbe

Bab soo

Bossangoa, CENTRAL AFRICAN EMPIRE

Congo Ing .. Ivetic. Obrad Expert de la FAO Agricultural Vulgarisation Lekana, B.P. 3 Brazzaville, CONGO

26

Table 5 (Cont'd): LItst of cooperators participating in the fourth Internattonal Soybean Vartety Evaluatton Expertment

Region Country Name Address AFRICA Egypt Dr. Ali Abdel Aziz Bahteem Research Station (cont'd) Bahteem, EGYPT Dr. Samia Ali Mahmoud 60 A Mohamed Farid St. Abdin, Cairo, EGYPT Ethiopia Mr. Teklemariam Haile Institute of Agricultural Mr. Tadesse Research Bako Research Station sted EAS ny alti Bako, ETHIOPIA Mr. Demissie Mitiku Leku c/o Awassa Mr. Titos Legatos Bou. Box al) Sidamo Adm. Region ETHIOPIA Mr. G. M.’ Shekour Jimma Agricultural Institute Mr. G. E. Ande Box 192 Jimma, ETHIOPIA Gabon Mr. J. van Amerongen Project CIAM Mr. G. Van de Plas ae Ntoum, GABON Ghana Mr. R. B. Dadson Legon Farm University of Ghana Legon, GHANA Mae Hector Mercer- Crops Research Institute Quarshie Box 3785 Kumasi, GHANA Ivory Coast DrmweA. D. Assa Faculte des Sciences

Universite National de Cote d'Ivoire

Btw ne

Abidjan, IVORY COAST

Lesotho Mr. Chen-Kien Chu P.O. Box 789 Maseru, LESOTHO Mali Mr. M. Crambade Institut de Recherches Pour Les Huiles et Oleagineux B.P. 16

Koulikoro, MALI

27

Table & (Cont'd): Itst of cooperators parttetpating tn the fourth International Soybean Vartety Evaluatton Experiment

Region Country Name Address

AFRICA Niger Director Institut de Recherches

(cont'd) Agronomiques Tropicales Station de Tarna BPs. 240 Maradi, NIGER

Nigeria Dr. D. Nangju International Institute of Meads PP. Singh Tropical Agriculture

Oyo Road, P.M.B. 5320 Ibadan, NIGERIA

Rhodesia DreditRe tatters: roi Salisbury Research Station Mr. J. S. Tichagwa Box 8100 Causeway

Salisbury, RHODESIA

Somalia Mr. M. A. Arkow Agricultural Research Institute Mr. S. J. Osoble Afgoi, SOMALIA Mr. A. H. Maio Sudan Mr. D. Hopkinson Halima Experimental Station Mr. H.L.M. van Wissen Ministry of Agriculture Wau, SUDAN Swaziland Mrs. Janet Cumberland Crop Agronomist Malkerns Research Station P.O. Box 4

Malkerns, SWAZILAND

Tanzania Mr. M.E.T. Mmbaga AvRi lage Tlonga Private Bag Kilosa, TANZANIA

Mr. A. J. Carpenter Kizimbani, Box 159, Zanzibar Zanzibar, TANZANIA

Togo Mr. J. Marquette La Chef de la Mission Institut de Recherches Agronomiuges Tropicales au Togo Bee. ALGS Lome, TOGO

Uganda Mr os. K. Bulungu Makerere University Farm P.O. Box 7062 Kampala, UGANDA

Upper Volta Mr. C. I. Korteweg CERCI Be ielo0 BOBO-DIOULASSO, UPPER VOLTA 28

Table 5 (Cont'd): List of cooperators partictpating in the fourth International Soybean Variety Evaluatton Experiment

Region

Country.

AFRICA Zaire (cont'd)

Zambia

Bangladesh

India

Indonesia

Name

Mr.

Mr.

Mr.

Mr.

{hae Mr.

ise

Mr. Mr.

Ir.

Thomas G. Hart

F. Javaheri

A.A.V. Sarmezey

N. S. Lipovac

. Peter R. Hobbs . Abdus Sobhan . M. A. Hoque

wel. Miah

N ae. Miah Rati oLKder, . A. Mansur

eaMsA.H. Sarker wh eeNatzioer.

S. M. Sharma S. K. Mehta

B. B. Singh

Riwanodja Sumarno

B.O.P. Tampubolon

£9

Address

Programme National Mais Bop a0.) Lubumbashi, ZAIRE

Soybean Coordinator

Magoye Regional Research Station ea Me era

Magoye, ZAMBIA

Copperbelt Regional Research Station

P.O. Box 668

Mufulira, ZAMBIA

Kabwe Regional Research Station Po) ehOoxe9US Kabwe, ZAMBIA

Bangladesh Rice Research Institute

P.OnebOx 79 LL

Joydevpur , BANGLADESH

Institute of Nuclear Agriculture P.O. Box 4 Mymensingh, BANGLADESH

Agricultural Research Substation Pabna, BANGLADESH

Dept. of Plant Breeding and Genetics

J. N. Krishi Vishwa Vidyalay

Jabalpur -4 (M.P.)

INDIA

G. B. Pant University of Agriculture Pantnagar, INDIA

Jambegede Agriculture Station Kepanjen (Malang) East Java, INDONESIA

Fakultas Pertanian, U.S.U. Medan, Sumatra Utara, INDONESIA

Fable. Si (Gonti'd):

Region

ASIA (cont'd)

Vartety Evaluation Experiment

Country Nepal

Pakistan

Philippines

ort Lanka

Name

Mrs. Meena Panday

Mr. Mr.

Mr. Mr.

Mr.

Mr. Mr.

Mr. Mr.

Mr. Mr.

Mr. Mr.

. B. Thapa sehen. Bharat?

. A. H. Chaudhry . M. A. Jaleel

. N. Ahamed

ty Ady He SOOmre

. R. Troedson

P. F. Knowles M. A. Rana

K. Sheikh

M. I. Soomro

Syed Badshah

Benjamin M. Legaspi

R. R. Matias S. M. Santhirasivam S. Kandasamy

A. Senthinathan R. Radhakrishnan

BeG. Herat G. R. Aloysius

30

List of cooperators participating tn the fourth Internattonal

Address

Khumaltar Agriculture Farm Khumaltar, G.P.O. Box 404 Kathmandu, NEPAL

Gandaki Agriculture Development Project Khairanitar, NEPAL

Oilseeds Section Agricultural Research Institute Tandojam, PAKISTAN

Agricultural Project Technical Services Assoc. 23-2 Race Course Road Lahore 3, PAKISTAN

Pakistan Agricultural

Research Station P.O. National Health Laboratories Islamabad, PAKISTAN

Agricultural Research Sub-station Kotdiji, PAKISTAN

Tarnab Research Institute Peshawar, PAKISTAN

Legume Research Project

Dept. of Agriculture § Natural Resources

Bureau of Plant Industry

Economic Garden

Los Banos, Laguna 3732,

PHILIPPINES

Agricultural Research Station Alutharama Mahiyangana, SRI LANKA

Agricultural Research Centre Angunukolapalessa, SRI LANKA

Regional Agricultural Research Station Bandarawela, SRI LANKA

Table 5 (Cont'd): Ltst of cooperators partictpating tn the fourth Internattonal Soybean Variety Evaluatton Experiment

Region Country Name Address ASIA Sri Lanka Mr. C. D. Dharmasena Central Agriculture Research (cont 'd) (cont'd) Institute, Gannoruwa

Peradeniya, SRI LANKA

Mr. N. Kanaganayagam Agricultural Research Station Kilinochchi, SRI LANKA

Miss P.W.S.M. Weerasinghe Agricultural Research Station Maha Illuppalama, SRI LANKA

Mr. S. Thirianathan Agricultural Research Station Mr. I. S. Padmasiri Tlavankulum Puttalam, SRI LANKA Mrs. J. S. Selvaratnam Agricultural Research Centre Mr. S. Balasunderam Thirunelvely Mr. R. Manokaran Jaffna, SRI LANKA Thailand Dr. Prasan Yingchol Division of Agronomy Mr. Ed Sarobol Dept. of Plant Science Mr. J. Verawudh College of Agriculture

Kasetsart University Bangkok, THAILAND

Dr. Paisan Laosuwan Khon Kaen University Khon Kaen, THAILAND

Mr. Waiwat Burantham Khun Talae Rubber Mr. Pattawuth Jewtrakool Research Center Mr. Prawit Wongsukon Surat Thani, THAILAND Dr. Arwooth Na Lampang Sisumrong Agricultural

Experiment Station Sukothai, THAILAND

EUROPE Hungary Dr. Andor Balint Dept. for Plant Breeding University of Agricultural Sciences Godollo 2103, HUNGARY

Dr. Elemer Posgay Research Institue of Irrigation Szarvas, HUNGARY

Italy Prof. Guiseppe Rivoira Instituto di Agronomia Generale e Coltvazioni Erbacee Universita di Sassari Via E. de Nicola Cod. Post. 07100 passare, oardinia, ITALY

oat

Table 5 (Cont'd): Ltst of cooperators parttetpating in the fourth Internattonal Soybean Variety Evaluation Experiment

Region Country Name Address

EUROPE Poland DY... JemoZyriner Soybean Laboratory of Plant

(cont'd) (cont'd) Breeding and Acclimatiziation Institute

Radzikow, POLAND

Portugal Mr. Abilio Silva Estacao Agraria do Porto Mr. Duarte S. Sousa R. Restauracao Mr. Antonio D. Angelico Porto, PORTUGAL

Spain Director La Rinconada Instituto Nacional de Investigaciones Agrarias San Jose de la Rinconada Seville, SPAIN

Yugoslavia Dr. Bogdan Belic Faculty of Agriculture 21.00 Novi Sad, V. Vlahovica 2, YUGOSLAVIA

MESO- Bahamas Dr. John R. Thompson BARTAD Project AMERICA San Andros P.O. Andros Island, BAHAMAS Dominican Mr a) 2 taz CNIECA Republic Mr. M. Rosario San Cristobal, DOMINICAN REPUBLIC Jamaica Mr. Harold R. Wilson Caymanas Estates Ltd. Spanish Town, JAMAICA Mexico Mr. Benito Cazares- INIA Enriques Caeva Apdo. Postal #40

Apatzingan, Mich. , MEXICO

Nicaragua Mr. Manuel Vanegas Agricultural Division Research § Development Dept. Central Bank of Nicaragua PcO Bok cae Managua, NICARAGUA

Puerto Rico Dr B..-dts (Paschal apn Isabela, PUERTO RICO Trinidad Mr. David C. Martin Chaguaramas Agricultural § Tobago Development Project

Minsitry of Agriculture, Land §& Fisheries Port-of-Spain, TRINIDAD

MIDDLE Iran Dr. M. C. Amirshahi College of Agriculture EAST Mr. B. Yazdi Samadi University of Tehran Karaj, IRAN

52

Table 5 (Cont'd): List of cooperators partictpating in the fourth Internattonal

Soybean Vartety Evaluatton Expertment

Region Country Name Address MIDDLE Iran Mr. Hesmatollah Pourdavai Seed & Plant Improvement Program EAST (cont'd) Mr. Ghafari Oilseed Research Seciton (cont 'd) Mr. Shariati Karaj, IRAN Dr. #eC. Carapetian College of Agriculture and Animal Husbandry E,O -eBoxeS2 Rezaiyeh, IRAN Dr. E. K. Vaughan Safiabad Research Center Mr. N. Hodjati TRAN Iraq Dr. Salih M. Damirgi Dept. of Soil Science College of Agriculture Abu-Ghraib, IRAQ Israel Dr. Baruch Retig Agricultural Research Maw. Lehrer Organization The Volcani Center P.O «Box 6 Bet-Dagan, ISRAEL Jordan Mr. N. Katkhuda Wadi Dulail Research Station Mr. M. Khuadare JORDAN Mr. A. Hammuda Deir Alla Station, JORDAN Saudi Mr. Mohamed Nour Boukhari JHakma Station Arabia Wadi Jizan Agricultural Development Project Jizan, SAUDI ARABIA NORTH United States Mr. Robert Dunker INTSOY AMERIA Dept. of Agronomy University of Illinois Urbana, [llinois, U.S.A. 61801 OCEANTA New Caledonia Mr. Robert Arrighi CREA se

New Hebrides Mr.

Tahiti

Mr. Mr.

B. L. Weightman

Jean-Louis Reboul

Robert Yau-Akui

33

Bourail, NEW CALEDONIA

Department of Agriculture Tagabe Agricultural Station Port Vila, NEW HEBRIDES

Service de 1'Economie Rurale BPs. 100 Papeete, TAHITI

Table 5 (Cont'd): Ltst of cooperators parttetpating in the fourth Internattonal Soybean Variety Evaluation Expertment

Region Country

OCEANIA United States

SOUTH Argentina AMERIA

Bolivia

Brazer

Chile

Colombia

Ecuador

Paraguay

Name

Mr. Terry Sekioka

Mr. Raul Vicentini

Mr. Alberto Castillo

Mr. Hebert Zurita Mr. Zenon Hunezy Mr. Warner Fisher

Dr. Fazal Rahman

Mr. Hugo Geldres R.

Mr. Gilberto Bastidas R.

Ing. Eduardo Calero H.

Mr. Roberto Casaccia Mr. Oscar Aguilera Mr. Justo Lopez

x 34

Address

Hawaii Agricultural Experiment Station Kapaa, Hawaii, U.S.A. 96746

INTA

Estacion Experimental Regional Agropecuaria de Parana

Casilla Correo 128

3100 Parana, Entre Rios,

ARGENTINA

Estacion Experimental "A. Gomez"

Casilla #1281

Santa Cruz, BOLIVIA

Estacion Experimental Agricola de Saavedra Santa Cruz, Casilla 247

Santa Cruz, BOLIVIA

Research Scientist Instituto Nacional de Pesquisas da Amazonia Caixa Postal 478 - 69.000 Manaus, Amazonas, BRAZIL

Instituto de Investigaciones Agropecuarias

Estacion Expermental La Platina

Santa Rosa 11610 - Paradero 33

Casilla 10, La Granja

Santiago, CHILE

Programa Leguminosas de

Grano y Oleaginosas Anuales Centro Exp. Palmira (ICA) Apartado Aereo 233 Palmira, COLOMBIA

Oil Seed Program

Instituto Nacional de Investigaciones Agropecuarios

Estacion Experimental Boliche

Apartado No. 7069

Guayaquil, ECUADOR

Instituto Agronomico Nacional Caacupe, PARAGUAY

Table 5 (Cont'd): List of cooperators parttetpating in the fourth International Soybean Vartety Evaluation Experiment

Region Country Name SOUTH Paraguay Mr. Sinforiano Paniagua S. AMERICA (cont'd) (cont'd) Peru Ing. Cesar A. Maceda

Mr. Hugo Soplin V.

Ing. Jose Bruno Ing. Rufino Montalvo

Uruguay Mr. Luis Amendola

Mr. Miguel A. Berasain

35

Address

Director del C.R.I.A.

Ministerio de Agricultura y Ganaderia

Capitan-Miranda, PARAGUAY

CRIA - II

Sub-estacion Experimental Bagua - Apartado 116 Chiclayo, PERU

National Agriculture University La Vina, PERU

Estacion Experimental - La Molina Centro Regional de

Investigacion Agropecuarias Apartado 2791 Lima, PERU

Estacion Exp. del Norte Gral Flores 390 Tacuarembo, URUGUAY

Estacion Exp. del Este Avda. Brasil 139 Teinta y Tres, URUGUAY

Table 6: Yteld of soybean grain in kilograms per hectare of cultivars observed in the fourth Internattonal Soybean Variety Experiment (ISVEX) conducted in _stmilar environmental zones (I and IV)

Mean grain yield (kg/ha)

Cultivar 15 sites 16 sites O 1/ O 0-10° lat— 11-20° lat 0-500 aa 0-500 m Davis 2525 (1)2/ NG Pm Forrest 2599) + (2) 2290 2" aoa Imp. Pelican 2905-05) Alpsyoy ms Gf) Bragg 2500, (4) 2206 Veli od Williams jap ee GS) 2092, .48) supa tex 2282 (6) ---- Bossier 2ras Gh} L953, «2 Lis} Clark 63 Zl aeeS) 202s — iy Hie 20954 | (9) 1970 (10) Calland -- += 25508 ian Cobb eae 2250; at el Ransom tee: 21955 Can Pickett 71 =< 2061 (9) Woodworth aa L685 2Ciae Mean 2271.) 2115 LODN (G08) -NS-= S528

1/ Range. of latitude where trials were planted 2/ Range of elevations where trials were planted 3/ Numbers in parentheses indicate ranking of mean yields 4/ Cultivar omitted at some sites; therefore, mean values not calculated 5/ LSD not significant at 5% level

36

Table 7: Mean of the ranks of soybean grain ytelds of cultivars observed tn the fourth ISVEX conducted in similar envtronmental zones

(T and IV) Mean rank of grain yields Cultivar 15 sites 16 sites 0-10° lat 11-20° lat 0-500 m 0-500 m Davis 1 1 Forrest 5 3 Imp. Pelican 2 LZ Bragg 4 8 Williams 6 5 Jupiter =) = Bossier 4 10 Glark 63 9 2 Hill 8 Lae Calland . ic Cobb - 4 Ransom - 6 Pickett 71 - 9 Woodworth - LS

O

Table 8: Days from emergence to first flowering of cultivars observed in the fourth ISVEX conducted in stmlar environmental zones

(I and IV) Mean days to flower Cultivar 15 sites sas sites 0-10° lat 11-20° lat 0-500 m 0-500 m

Davis 30 355 Forrest 29 29

Imp. Pelican 34 39 Bragg 30 29 Williams Ze 26 Jupiter 38 == Bossier 30 28 Clark 65 29 26

Hatt Sr Bi Calland -- 26

Cobb -- 30 Ransom -- 29 Pickett 71 -- 29 Woodworth -- 25

Mean BL 29

ESD i205) ZOz 2.0

1/ Number of sites contributing to mean may vary because data for certain characteristics not recorded at some sites

38

Table 9: Days from emergence to harvest of cultivars observed in the

fourth ISVEX conducted tn stmilar envtronmental zones (I and IV) Mean days to harvest

Cultivar 15 sites 16 sites 0-10° lat 11-20° lat 0-500 m 0-500 m

Davis 99 94

Forrest 90 91

Imp. Pelican 98 102

Bragg 95 05

Williams 88 86

Jupiter 115 --

Bossier 94 95

Clark 63 87 87

Hill 91 88

Calland -- 88

Cobb mon 97

Ransom -- 94

Pickett 71 -- 92

Woodworth -- 84

Mean 95 92

BoD ={<-05 ) Bak 4.9

39

Table 10: Height in centimeters of cultivars observed in the fourth ISVEX conducted tn stmtlar envtronmental zones (I and IV)

Mean plant height (cm)

Cultivar 15 sites 16 sites 0-10° lat 11-20° lat 0-500 m 0-500 m

Davis 35 49

Forrest 35 43

inp. Pelican 74 86

Bragg ey) A2

Williams 42 54

Jupiter 68 ——

Bossier 55 36

Clark 63 45 55

Hill 36 40

Calland -- 59

Cobb -- 44

Ransom -- 38

Pickett 71 -- 51

Woodworth -- 48

Mean 45 48

ESD G05) 5.8 7.0

40

Table 11: Amount of lodging of cultivars observed in the fourth ISVEX conducted tn stmilar envtronmental zones (I and IV)

1/

Mean lodging score~

—_—

Cultivar 14 sites 16 sites 0-10° lat 11-20° lat 0-500 m 0-500 m Davis LL 1.4 Forrest LAL jhe" Imp. Pelican Iso ik Bragg LZ LZ. Williams Le) Lv4 Jupiter Lied --- Bossier HSA eee Clark 63 sha hay Hill Jes that Calland --- IE ACs) Cobb --- 12 Ransom --- ied Pickett 71 --- at Woodworth --- 15 Mean 1 ia LSD (.05) 0.36 0855

1/ Mean of lodging scores where:

1 = all plants erect

2 = all leaning slightly or a few down

3 = all leaning moderately (45°) or 25-50% down 4 = all leaning considerably or 50-80% down

5 = all plants down

41

Table 12: Amount of shattered pods of culttvars observed in the fourth ISVEX conducted tn stmilar environmental zones (I and IV)

1/

Mean shattering score—

Cultivar 13. sates LS Ses 0-10° lat | 11-20° lat

0-500 m 0-500 m

Davis Forrest

Imp. Pelican Bragg Williams

Jip Lcer. Bossier Clark 63 Hilt

Calland

Cobb --- Ransom --- Pickett 71 --- Woodworth ---

Pee eee ep PNONWNEFO! FORE DD

PORRPROORFROPF

ee

Mean acy LSD (..05) -NS-

es ae Zz e oe he

1/ Mean of shattering scores where:

1 = no shattered pods 2 = 1-10% shattered

3 = 10-25% shattered

4 = 25-50% shattered

5 = over 50% shattered

42

Table 13: Wetght of 100 seeds in grams of cultivars observed in the fourth ISVEX conducted tn stmilar environmental zones (I and IV)

Mean seed weight (g/100 seeds)

Cultivar 15 sites 15 sites 0-10° lat 0-10° lat 0-500 m 0-500 m Davis 1b paye 16.4 Forrest £5..0 15.0 Imp. Pelican 14.4 1238 Bragg Lied 16.4 Williams Lester! Ihekoy Jupiter Lo) a Bossier 17.0 Las.) Clark 63 Ey kt Lee Hill 15.9 15.8 Calland ---- 19.4 Cobb ---- 16.2 Ransom -<-= oe Pickett 71 ---- Toy Woodworth ---- 16.9 Mean Ae 16.6 sp (.05) 0.97 1.40

43

Table 14: Qualtty of harvested seed of cultivars observed tn the fourth ISVEX conducted tn similar envtronmental zones (I and IV)

Mean seed quality score, Cultivar 14 sites [> Sites 0-10" lat 11-20° lat 0-500 m 0-500 m

Davis FSG Z.0 Forrest 2.0 239 Imp. Pelican 1.4 (oa Bragg Jee a0 Williams 6 2.4 Jup1 cer one --- Bossier rey 8 2.8 Clark 63 lee" 2G Hill ey Paes Calland ror Zuo Cobb a 2.0 Ransom as ek PrCkettw re ein 2D Woodworth sake Pas Mean Lae PA SP 05) 0.47 -NS- 1/ Mean of seed quality scores where:

l = very good

2 = good

$-="faiy

4 = poor

5 = very poor

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9109S (spees Q0T/3) 9109S SUTI9}7eYS —OLODS BUTSPOT (wD) eee pees aN a pees /t pa ZYsToy jUeTd

WO0S -0 01-0 *SdJIS 9 }® SUOT}EAIOSGO FO sSuURaW

VIII/KOSINI 78d7f ey2 U2 poatesqo sadvaiqyno fo so1zsideqopdpyo o1w0uUotbo pa zoe 12g

[I QU0R UL PaZOENPUoDO FZUEWUTAAAUXY UOLZONTOAY NpZeldoA Uvaqnos

:(p,quoe) ST 21qDh

46

Table 16: Yteld of soybean grain in kilograms per hectare of culttvars observed tn the fourth ISVEX conducted tn stmilar environmental

zones (III, VI, and VIT)

Mean grain yield (kg/ha)

Cultivar 6 sites 5 sites 16 sites 0-10° lat 11-20° lat 21-30° lat > 1000 m > 1000 m 0-500 m Hill 1990 = (1) 2776 = (9) 1942 =8(9) Davis 19545502) 3207 ~=—s (1) LW gas OY Forrest 1867-5 (3) 2744 (10) gad] (4) Cobb 1697 = (4) 50100 ~(6) =--- Imp. Pelican FOG ea C5) £518 s(11) ---- Bossier 1616 = (6) 255907 (8) ZUG) ¥ 1:5) Pickett 71 £590-° (7) ZA S* (LZ) 2101 (6) Ransom 1458 =(8) SvOL ~(5) BS58> (2) Williams 1448 = (9) 2467 =(14) 2030 (2 (7,) Calland 1340 (10) SbiAs © C3) 1938 (10) Clark 63 won Be: Sa ia 2471) (13) 1972 = {8) Woodworth Pees aa 2) ere) {15) 1634 (11) Bragg LUST an 5) 95 Se) 2204 =(5) Essex ple a bce (2) =m Columbus = am Sll1 (4) ---- Mean 1535 2809 2101 BoD, (.05) ih Bik 447.6 alors

47

Table 17: Mean of the ranks of soybean grain ytelds of cultivars observed tn the fourth ISVEX conducted in stmlar environmental zones (III, VI, and VII)

Mean rank of grain yields

Cultivar 6 sites 5 sites 16 sites

0-10° lat 11-207 Tat 21-30° lat

> 1000 m > 1000 m 0-500 m gages 1 10 9 Davis Z af 5 Forrest 3 9 4 Cobb 5 7 - Imp. Pelican 4 11 - Bossier 6 8 2 Pickett 71 7 1% 6 Ransom 9 5) i Williams 8 14 vs Calland 10 5 10 Clark 65 11 iy 8 Woodworth 1Z 15 fie: Bragg IS: 6 5 Essex - 2 - Columbus - 4 -

48

Table 18 Days from emergence to first flowering of cultivars observed in the fourth ISVEX conducted in stmilar envtronmental zones Wits VL, ana Vid)

Mean days to flower

Cultivar 5 sites 5 sites 13xsites 0-10° lat 11-20° lat 21-30° lat > 1000 m > 1000 m 0-500 m

Hill 58 42 46

Davis 63 43 47 Forrest 53 36 45

Cobb 58 38 --

Imp. Pelican 74 ye == Bossier 49 32 47 Pickett 71 50 55 46 Ransom 46 30 45 Williams 42 Zp 34 Calland Al Z5 34

Clark. 63 4] Z5 35 Woodworth 42 25 33

Bragg De 31 46

Essex = 31 -- Columbus -- 26 --

Mean ay! O35 42

io -{- 09) 9.6 Ae 4.8

49

Table 19: Days from emergence to harvest of culttvars observed in the fourth ISVEX_condueted in _stmilar environmental zones (III, VI, and VII)

Mean days to harvest

Culbeivan 5 sites 5 Sites 15 sites 0-10° lat 11-20; at 21-30° lat > 1000 m > 1000 m 0-500 m Hill 126 102 101 Davis 130 109 113 Forrest 129 104 106 Cobb 128 108 --- Imp. Pelican 139 5 GES zy Bossier 124 105 LL Pickett 71 By 99 15 Ransom 124 104 Te Williams PS 88 94 Calland gigas 97 98 Clark65 119 90 97 Woodworth 1S 83 89 Bragg 124 100 116 Essex --- 104 --- Columbus ~=< 97 --- Mean 24 100 106 LSD < (05) 9.8 4.5 6.6

50

Table 20: Height tn centimeters of cultivars observed in the fourth ISVEX

conducted tn stmilar environmental zones fii. Visaung VL)

Mean plant height (cn)

Cultivar 6 sites 5 sites 15 sites 0-10° lat 11-20° lat 21-30° lat > 1000 m > 1000 m 0-500 m

Hill 4] 61 47

Davis 40 66 55 Forrest 40 58 52

Cobb 38 59 --

Imp. Pelican yal 96 a Bossier as 42 55 Pickett 71 30 36 43 Ransom a2 39 50 Williams ou! 45 50 Calland 34 52 55 Clark 63 35 50 SI Woodworth 31 44 49

Bragg 34 47 58

Essex -- 45 =~ Columbus -- 58 --

Mean af 53 dh

LSD (.05) 9.7 Hea 6.4

aa

Table 21: Amount of lodging of cultivars observed tn the fourth ISVEX

conducted in similar envtronmental zones (III, VI, and VII) Mean lodging score

Cultivar 4 sites 5 sites 10 sites O-10° dat 11-20° 1at 21-30° lat > 1000 m > 1000 m 0-500 m i te i 1-9 BPA) Davis TO deh B hes Forrest get 1.6 eres Cobb 0.9 i pote --- Imp. Pelican Asche 1.6 ee Bossier ddl Le) i bee Pickett 71 gag LO Dee Ransom 0.9 Lae, ioe Williams bey fe He Calland 0.9 Gl they! Clark 63 ibays a4 A Woodworth es tie 1.Z Bragg Geil EZ 6 Essex ete a 8 --- Columbus --- 10 --- Mean dey deere ae be LSD (.05) -NS- Usa -NS-

Table 22: Amount of shattered pods of cultivars observed tn the fourth

ISVEX conducted tn stmilar envtronmental zones (LDV wand: VET)

Mean shattering score Cultivar 4 sites 4 sites 9 sites 0-10° lat 11-20: Tat 21-30° lat > 1000 m > 1000 m 0-500 m

Hill

Davis Forrest Cobb

Imp. Pelican Bossier Pickett 71 Ransom Williams Calland Clark 63 Woodworth Bragg Essex Columbus

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Table 23: Weight of 100 seeds in grams of cultivars observed in the fourth

ISVEX conducted in similar environmental zones (III, VI, and VII) Mean seed weight (g/100 seeds)

Cultivar 4 sites 5 sites 14 sites 0-10° lat 11-20° lat 21-30° lat > [000m > 1000'm 0-500 m Hill 16.4 TTS 14.0 Davis 2529 US OS tte p ys Forrest fon! 1783 1335 Cobb 2540 i8es ---- Imp. Pelican 21,0 16.0 a Bossier 18.4 19.8 1532 Pickett 71 et Lo 1456 Ransom S0R9 210 16.6 Williams 18.9 20a 1 16.4 Galland LeeZ LLe2 1732 Clark 63 26.5 18.6 15.8 Woodworth L148 1728 156s Bragg 202 pigs 1528 Essex <--- 18.4 ---- Columbus ---- Z00 1 ---- Mean PES} 1922 155 LSD 6.05) -NS- 1.66 128

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24

Table 24: Quality of harvested seed of cultivars observed in the fourth ISVEX conducted tn similar environmental zones (III, VI, and VII)

Mean seed quality score

Cultivar 5 sites 5 sites 14 sites 0-10° lat 11-20° lat 21-30° lat > 1000 m > 1000 0-500 m

Hill 18 £o0 Lae Davis Z AL 2.0 2.4 Forrest 2.0 220 2.8

Cobb 1.9 paar ---

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Mean 22.0 24 2.4

LSD (.05) 0.40 O77 Og4S

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