ISSN 0973-1830 Volume 14, Number 2 : 2016 SOYBEAN RESEARCH Society for Soybean Research and Development ICAR-Indian Institute of Soybean Research Khandwa Road, Indore 452 001 Madhya Pradesh, India Society for Soybean Research and Development (Founded in 2003) (Registration No. 03/27/03/07918/04) EXECUTIVE COUNCIL President : Dr. Girish Kumar Gupta Vice President : Dr. S.D. Billore : Dr. Pushpendra General Secretary : Dr. Amar Nath Sharma Joint Secretary : Dr. R. Ramteke Treasurer : Dr. Mohd. Masaud Ansari Members : Central Zone : Dr. Purushottam Sharma and Dr. D. S Meena : North Plain Zone : Dr. Sushil Pandey : North Hill Zone : Dr. Sher Singh : North Eastern Zone : Dr. A. K. Sing : Southern Zone : Dr. R. H. Patil Advisory Committee Dr S. P. Tiwari, Former Vice Chancellor, SK Rajasthan Agricultural University, Bikaner; Ex- DDG, ICAR, New Delhi Dr. C. D. Mayee, Ex-Chairman, Agricultural Scientist Recruitment Board, New Delhi Dr. V. S. Tomar, Vice Chancellor, Jawaharlal Nehru Krishi Vishwa Vidyalaya, Jabalpur Dr. R. T. Patil, Ex-Director, Central Institute of Post Harvest Engineering and Technology, Ludhiana, Punjab Dr. C. P. Srivastava, Professor and Head, Institute of Agricultural Sciences, Banaras Hindu University, Varanashi, Uttar Pradesh Dr. A. S. Chandel, Ex-Prof (Agronomy), GBPUA&T, Pantnagar, Uttarakhand Dr. A. M. Rajput, Dean, College of Agriculture, Rajmata Vijayaraje Krish Vishwa Vidyalaya, Indore Editor-in-Chief : Dr. O. P. Joshi MEMBERSHIP TARIFF Annual Subscription India Abroad Individual Rs. 600/- US$ 125/- Students Rs. 300/- UD$ 100/- Institutions Rs. 2500/- US$ 200/- Corporate Rs. 20000/- US$ 2000/- Life Membership Rs. 3500/- US$ 1000/- (Add Admission Fees Rs. 50/- or US$ 5/- to above subscription) NAAS RATING 3.04 SOYBEAN RESEARCH ISSN 0973-1830 Volume 14(2): 2016 _________________________________________________________________________ CONTENTS Research papers Vegetable Soybean: A Crop with Immense Potential to Improve 1-13 Human Nutrition and Diversify Cropping Systems In Eastern India - A Review M Ravishankar, R S Pan, D P Kaur, R R Giri, V Anil Kumar, A Rathore, W Easdown and R M Nair Distributions of Soybean and Corn Plants in Intercropping and Solid 14-31 Patterns Rafaat A Gadallah and Tarek A Selim Nitrogen Use Efficiency in Soybean 32-38 S D Billore and A Ramesh Co-inoculation of Resident AM Fungi and Soybean Rhizobia 39-53 Enhanced Nodulation, Yield, Soil Biological Parameters and Saved Fertilizer Inputs in Vertisols under Microcosm and Field Conditions Mahaveer P Sharma, Sandeep Singh, Sushil K Sharma, Aketi Ramesh and V S Bhatia Impact of Inorganic and Organic Manures on Yield of Soybean and 54-62 Soil Properties Bhargabi Chakraborty and Sujoy Hazari Present Status of Registration of Soybean Varieties under PPV&FR Act 63-76 and Future Perspective M K Kuchlan, P Kuchlan, A N Shrivastava and S M Husain Short communications Genetic Variability and Association Studies in New Soybean 77-83 Germplasm Accessions Gyanesh Kumar Satpute, C Gireesh, M shivakumar, Mamta Arya, Giriraj Kumawat, Rakesh Kumar Patel, Rupesh Guptaand S M Husain Effect of Weed Management and Fertility Levels on Productivity and 84-88 Economics of Soybean [Glycine max (L.) Merr.] in South-Eastern Rajasthan Chaman Kumari Jadon, L N Dashora, S L Mundra Analysis of Growth Trends and Variability of Soybean Production in 89-96 Different Districts of Madhya Pradesh R F Ahirwar, A K Verma and S R S Raghuwanshi An official publication of Society for Soybean Research and Development, Indore The ‘Soybean Research’ is indexed in Soybean Abstract of CAB International, UK and Indian Science Abstracts of NISCAIR, India and are linked to Google Scholar. The Society for Soybean Research and Development thankfully acknowledges the financial assistance received from the Indian Council of Agricultural Research, New Delhi for printing of the Journal. Soybean Research 14(2): 01-13 (2016) Vegetable Soybean: A Crop with Immense Potential to Improve Human Nutrition and Diversify Cropping Systems In Eastern India- A Review M RAVISHANKAR*1, R S PAN**2, D P KAUR*3, R R GIRI*4, V ANIL KUMAR***5, A RATHORE***6, W EASDOWN*7 and R M NAIR*8 *World Vegetable Center South Asia, ICRISAT Campus, Hyderabad, 502 324, India; **ICAR-RCER, Research Center, Plandu, Ranchi, 834 010, Jharkhand, India; ***International Crop Research Institute for the Semi-Arid Tropics, Patancheru 502 324, Telangana, India Received: 10.05.2016; Accepted: 31.07.2016 ABSTRACT Vegetable soybean was introduced into Jharkhand state in India to provide local communities with an alternative protein source as well as to diversify the cropping system. The paper covers the introduction of the crop, testing of different lines in farmers’ fields, a taste survey, the release of a vegetable soybean cultivar and its popularization, and seed production by the community. The acceptance of the crop by the local community has led to seed production of the cultivar ‘Swarna Vasundhara’ by farmers. A major challenge is to expand beyond household level consumption and local Jharkhand markets to create awareness among other consumers and establish a larger market throughout India for the crop. Infrastructure such as cold storage facilities will be required to support a viable value chain for vegetable soybean. The good progress made in Jharkhand has given greater hope of expanding vegetable soybean production and consumption across India, particularly in the major grain soybean growing states. Keywords: Cropping system, legume, nutrition, vegetable soybean Jharkhand is located in the eastern rain-fed conditions. About 80 per cent of plateau and hill region of India (agro- this area remains under mono-cropped climatic zone VII). In its population of 33 rice. Cash crops account for only 4‐6 per million people, about one-quarter (26.3 cent of production. The majority (83 %) of %) are tribal (http://www.census2011.co. the land holdings belongs to small - scale in/census/state/jharkhand.html.). About and marginal farmers and most 76 per cent of the population resides in agriculture is for subsistence. Jharkhand rural areas (30 % of the tribal population) has an average yearly rainfall of and more than 80 per cent of the total 1300‐1400 mm and 80 per cent of this is labor force depends on agriculture received during the four monsoon (http://rkvy.nic.in/sap/jh.pdf). About months of June to September with dry 90 per cent of the 795,000 ha of cropped periods in between. Assured irrigation is area is used to produce food grains under available to only 8-9 per cent of the 1Special Project Scientist; 2Principal Scientist; 3Scientific Officer; 4Scientific Officer; 5Special Project Scientist; 6Biometrician; 7Regional Director; 8Legume Breeder 1 cropping area during the kharif (monsoon kharif season under rain-fed conditions season), 6 per cent during the rabi would provide economic as well as (winter/spring season) and 1-2 per cent nutritional benefits. To fulfill this role, during the summer season (Jharkhand vegetable soybean—a special type of Economic Survey, 2012). soybean for fresh consumption—was According to the National Family introduced into the region. Vegetable Health Survey (NFSH-III, 2006), about soybean is an alternative legume crop half of the children (47.2 %) under three that fits into existing cropping systems. years in Jharkhand are stunted—an Local communities in the target areas indication of undernourishment. One- (Ranchi and Khunti districts) know about third (35.8 %) of children are too thin for grain soybean, but never have cultivated their height, which may result from it. Vegetable soybean production is inadequate recent food intake or a recent similar to that of traditional grain illness (NFHS-III, 2006). Anaemia is soybean, although different planting found in over 70 per cent of individuals techniques and equipment are needed to in Jharkhand. About two in five adults accommodate the larger seed (Ernst, (43 % of women and 39 % of men) in 2001). Jharkhand are underweight. Under- Rationale for introduction of nutrition is particularly prevalent in rural vegetable soybean in upland and areas and in the lower wealth quintiles medium uplands of Jharkhand (NFHS- III, 2009). The prevalence of anaemia among adults in Jharkhand is The seeds of vegetable soybean higher than in almost all other states in are larger (> 30g/100 seeds dry weight), India. Seventy per cent of women in sweeter and more tender than grain Jharkhand have anaemia, including 50 soybean (Shanmugasundaram and Yan, per cent with mild anaemia, 19 per cent 2010). Fresh vegetable soybean is with moderate anaemia, and 1 per cent delicious and nutritious, and is an with severe anaemia (NFHS-III, 2009). excellent source of protein (35 % to 38 % The crops under cultivation in protein, dry weight basis) which can help Jharkhand are dominated by cereals such alleviate protein malnutrition in as paddy rice in lowlands and medium Jharkhand, particularly among children. uplands, and vegetable legumes such as Proximate analysis of seed nutritional green pea (Pisum sativum), chickpea (Cicer composition of vegetable soybean in arietinum), pigeon pea (Cajanus cajan), Colorado, USA (Johnson et al., 1999), and cowpea (Vigna ungiculata), French bean Japan (Masuda, 1991) indicated that the (Phaseolus vulgaris), and Dolichos bean nutritional content of vegetable soybean (Lablab purpureus). Most of these legumes is superior (Table 1) to that of green peas are available during the rabi season only. (Carter and Shanmugasundaram, 1993), Diversifying the cropping system with a which are commonly consumed in suitable crop that requires less water due Jharkhand. Soybean also has potential for to unexpected dry periods during the cancer 2 Table 1. Nutrient composition (values per 100 g) of vegetable soybean compared to other legume crops in Jharkhand Nutrient composition Vegetable soybean Vegetable pigeon pea Green pea Raw Cooked Raw Cooked Raw Cooked Energy (kcal) 147a 141 136 111 81 84 Moisture (g) 67.5 68.8 65.9 71.8 78.9 77.9 Protein (g) 12.9 12.4 7.2 5.9 5.4 5.4 Fat (g) 6.8 6.4 1.6 1.4 0.4 0.2 Total carbohydrate 11 11 23.9 19.5 14.4 15.6 (g) Crude fiber (g) 4.2 4.2 5.1 6.2 5.1 5.5 Ash (g) 1.7 1.6 1.4 1.4 0.8 0.9 P (mg) 194 158 127 118 108 117 Ca (mg) 197 145 42 41 25 27 Fe (mg) 3.5 2.5 1.6 1.6 1.5 1.5 Vitamin A (mg RAE) 9 8 3 2 38 40 Vitamin B (mg) 0.4 0.2 0.4 0.3 0.2 0.2 1 Vitamin B (mg) 0.17 0.15 0.17 0.16 0.13 0.15 2 Vitamin C (mg) 29 17 39 28 40 14 Vitamin E (mg) (1476)b – 0.39 0.32 0.13 0.14 Folate (mg) 165 111 173 100 65 63 Isoflavones (mg) 20.4a 13.8 – – – – aValue of Isoflavonesobtained from United States Department of Agriculture (USDA)-Iowa State University Database on the Isoflavone Content of Foods (1999); Other value obtained from USDA National Nutrient Database for Standard Reference, Release 24(2011); - data not available in USDA database; bValue in parenthesis is total tocopherol content (µg/g lipid) at 40 days after flowering (Masuda,1991) Source: Shanmugasundaramet al. (2015) prevention and suppression owing to its conventional crops such as broadcasted high isoflavone content (Kucuk, 2004; rice, oilseeds, and other pulses is very Messina, 2004). low; cultivation is only for subsistence Crop diversification utilizing a farming and not for profit. Therefore, any new crop option such as vegetable higher-yielding crop that also can be soybean is driven by following several consumed at home would be an attractive factors that motivate famers (Connor, replacement or addition to the cropping 2001). system. The overall goal of crop diversification is to increase food Low conventional crop prices: On the availability and farm profitability. uplands and medium uplands, yield of 3 Environmental protection: The inclusion of year. Because vegetable soybean is nitrogen-fixing legumes in cropping harvested when green, growers also can systems can reduce the need to apply avoid many of the late-season problems inorganic fertilizers for vegetable that occur with grain soybeans (Ernst, soybean, as well as provide benefits to 2001). the succeeding crop on the same land. Vegetable soybean can yield up to 10 t per ha of high value seed. The Biodiversity: As the number of crops crop adds value to the soil by fixing increases, the enhanced biodiversity can atmospheric nitrogen, boosting the yield reduce pest and diseases problems, as of following cereals, and providing up to well as create new opportunities for 30 t per ha of highly nutritious stover or innovative crop management through green manure (Shanmugsundaram and extended crop rotations. Yan, 1999). Development of new production systems: Testing vegetable soybean Vegetable soybean fits well into crop During the late 1990s vegetable rotations or other cropping systems, such soybean lines were imported from the as intercropping with cereals. In South World Vegetable Center‘s gene bank by and Southeast Asia, legumes are the Research Center of the Indian commonly included in cereal-based Council of Agricultural Research (ICAR- cropping systems. For example, soybean RC) at Ranchi. The lines were evaluated is cultivated in a rice-based cropping for adaptability and time of sowing and system or on bunds and dikes in lowland it was found that vegetable soybean rice fields (Shanmugasundaram and Yan, sown during the kharif season provided a 2010). good yield with high biomass Due to its nutritional value, production similar to grain soybean (Pan vegetable soybean can contribute to et al., 2015). Following this, experiments reducing malnutrition. Vegetable were conducted during the kharif seasons soybean can be consumed as a highly (June to September) in2000, 2001 and nutritious vegetable or grain and is well 2002 at ICAR-RC, Ranchi. Stability suited to smallholder production under parameters, viz. regression coefficient adverse climatic conditions (Keatinge et (bi) and mean square deviations (S2di) al., 2011). from linear regression along with per-se Vegetable soybean is harvested performance of 11 lines of vegetable during October, which coincides with soybean for 11 yield-related characters festivals in the eastern part of India. were studied. Line EC 384907 (15 t/ha) During this time vegetable prices are performed the best for graded (2-seeded, high, and there are few other legume 3-seeded) green pod yield and was stable vegetables such as green peas or across diverse environmental conditions. chickpea available. Farmers are attracted EC 384905 was the most stable and to vegetable soybean because of the suitable for favorable environments for potential local market at that time of the graded green pod yield (14.2 t/ha), 4 100-green seed weight (49.9 g) and Because these communities shelling percentage (56.3 %). Also, the already were consuming fresh legumes line was very promising for early (green pea, chickpea, cowpea, and French flowering (36 days after sowing) and beans) and had developed a taste for early maturity (73 days) and responsive these vegetables, it was anticipated that in unfavorable environments (Pan et al., vegetable soybean would not face any 2007). Based on the evaluations, the elite difficulty in acceptance. In 2008, the local line EC 384907 was recommended for NGO Indian Grameen Services (IGS) was release and cultivation in Jharkhand and convinced of the economic and Bihar states of India in the kharif season nutritional potential of vegetable and was released in 2008 by the Central soybean. After discussions the seed of Variety Release Committee (CVRC) of the ‗Swarna Vasundhara‘ was distributed to Government of India as ―Swarna the farmers in the Oraontribein villages Vasundhara‖ (http://smis.dacnet.nic.in/ in the Karra block of Khunti district for (S(kxrrlhsi3lzvj0xr4011kjy2))/report/ssrsVari sowing in the kharif season. Training was etyDetail.aspx?varietycd=A041009). provided on a package of practicesWith ‗Swarna Vasundhara‘ is distinguished by discussions on yield, income and a bushy growth habit, producing 1-, 2- or nutritional potential, and using vegetable 3-seeded bright green pods with grey soybean as an alternative crop to green pubescence and 50-55 per cent recovery pea. The farmers (60) sowed the seeds in of shelled bright green seeds. The variety ridges to avoid water logging and showed resistance to rust and was least seedling death during heavy rain in the affected by pod borer infestation with an rain-fed uplands. The crops germinated average yield of 15 t per ha. well, started flowering after 40 days, podded after 60 days and were ready for Taking it to farmers harvest in 70-75 days. About 80 per cent Although ‗Swarna Vasundhara‘ of the farmers who followed the proper performed well, as a new crop it was not package of practices (particularly ridge yet popular with farmers. In 2008, the Sir sowing, weeding, and earthing-up with a Ratan Tata Trust sponsored a project; top dressing of fertilizer) were able to get ―Improving Vegetable Production and a good crop. The farmers had not yet Consumption for Sustainable Rural started harvesting and consuming the Livelihoods in Jharkhand‖ led by World cooked fresh pods when a field day was Vegetable Center in Jharkhand and organized in late September at the ICAR implemented through the trust‘s non- Research Center in Ranchi. These 60 governmental organization (NGO) CInI farmers along with new farmers were (Collectives for Integrated Livelihood invited to join in discussions about the Initiatives). The project popularized this crop and its benefits. Cooked vegetable new crop across the region, especially in soybean was served during lunch and the tribal areas of Ranchi and Khunti recipes were demonstrated. The farmers districts. appreciated the taste and women farmers 5 in particular compared it to green peas. After this field day, awareness among the farmers increased and they started 14% Eat as vegetable harvesting green pods and consuming 49% Roast in fire and vegetable soybean either boiled or eat as Channa prepared with other vegetables such as 37% Boil and make potato. The children liked it very much dhal and their mothers were happy to serve it to them for its nutritional benefits. The farmers started saving the mature seeds Fig. 1. Method of consumption (in %) of for sowing in the next kharif season. Seed vegetable soybean in Jharkhand demand was also raised by other (Channa is Chickpea in Hindi) stakeholders, NGOs, and farmers after the field day. commonly made with other pulses like In 2009, the demand for seed black gram and mung bean) and also grew, but the seeds were distributed to kept seed for sowing in the following only 470 farmers as seed availability was year. Field days were also organized in limited at the ICAR research center, the villages. This helped to create which was the only source of seed. The awareness and promote vegetable year had dry spells during the monsoon, soybean in neighboring villages and which was detrimental for most crops, made it easy to introduce the crop. particularly paddy rice, which occupies Farmers accepted this new vegetable 80 per cent of the land. Farmers were soybean variety for growing as a rain- fed unable to transplant their paddy rice and kharif crop in the uplands of eastern vegetables. In this erratic monsoon India. The shelled fresh green beans were season, the vegetable soybean crop found to have a good taste when cooked performed very well with good yields as a vegetable alone or in combination even in marginal soils. Soybean plants with other vegetables such as potato (Pan gave up to 120 pods with more than 230 et al., 2010). Farmers tried various seeds. recipes and integrated it with their Due to a price rise in agricultural normal food preparation habits, such as commodities, especially pulses, farmers using oil-fried soybean mixed with were forced to leave their crops to mature vegetables. to produce dry soybeans. At the same In 2010, the seed demand from time, due to a lack of other vegetables, farmers greatly outstripped available farmers harvested 10-20 per cent of the supplies. The self-pollinated nature of the fresh green pods in their crops (Fig. 1). crop and the fact that the farmers didn‘t After the season, farmers used the dry grow any other grain soybean made seed grains to prepare dhal (a legume stew production easy in farmers‘ fields. 6