Effect of Mulch on Soybean ( Glycine Max L . Merr . ) at Cultivation under Drip Irrigation in the South-east of Kazakhstan

Soybean (Glycine max L. Merr) crops were grown in 2013-2015 to determine effect of drip irrigation in the different variants water levels with using mulch on growth and productivity under conditions of the south-east of Kazakhstan. The use of mulch in agriculture has increased in last years throughout the world. This article presents the outcome of field experiments conducted in the Kazakhstan on the effects of drip irrigation (DI) practices on reproductive stages of soybean. Drip irrigation with or without mulch was adopted for the experimental plots. The most effective way to combat weeds in soybean crops proved to drip irrigation under mulch film, where the number of weeds in the early growing season did not exceed 36-44 units / m2. Despite the prevailing adverse weather conditions for the growth and development of soybean in the south-east of Kazakhstan, we have received a fairly high yield (42.2 tonnes / ha) on a variant using a mulching film. The results indicated that use mulch under drip irrigation significantly increase plant growth and production soybean. This increase is due to benefits such as increase in soil temperature, reduced weed pressure, moisture conservation, reduction of certain insect pests, higher crop yields, and more efficient use of soil nutrients.

economical and valuable agricultural commodity due to its unique chemical composition.It is one of the world's most important leguminous plants.It is considered as a good source of high quality plant protein and vegetable oil.Given its high concentration of protein (36-48%), oil (1824%), and carbohydrate (20%), soybean is grown in almost all parts of the world for human consumption, industry and animal feed.Besides, diets including soybean have been proposed to reduce risk of major diseases such as breast cancer, cardiovascular disease, osteoporosis, diabetes and obesity.The biochemical composition of soybean seeds affect the quality of various soy foods such as soy milk, soy flour, tofu, soy sprouts, soy concentrates and soy isolates.Higher protein content and low oil content are generally desirable characteristics for food users (H.Kirnak et al.,2010).
The need for reduction in water use by agriculture is being advocated globally due to stiffer competition among fresh water users such as industry and the environment.Several suggestions have been made to optimize the use of water for crop production.One of them is that water should be applied to crops when they need it most, that is when shortage of water could lead to significant reduction in yield.This approach is called regulated, pre-planned or deficit irrigation (DI).DI is a means of reducing crop water use while minimizing adverse effects on crop yield.In order to adopt DI, information on the responses of crops to water deficit at various stages is required (Omotayo Adeboye et al., 2015).(Irmak, S. et al., 2014) evaluated the relative evaporative losses and water balance components in two soybean Glycine max (L.) Merr.fields under subsurface drip irrigation and center pivot irrigation systems in south-central Nebraska.Evaporation losses were estimated as the difference between measured evapotranspiration and estimated transpiration .Average soil water content in the crop root zone and effective rainfall were estimated using the water balance method.
Soybean (Glycine max) is one of the most important legume crops which fix atmospheric nitrogen in symbiotic association with bacteria through nodules.A study was conducted to investigate the effect of molybdenum and preinoculation of Rhizobium on biological nitrogen fixation and yield of soybean under drip irrigation system.Application of 1 kg of Mo/ha in association of UPMR020, produced significantly high yield (29.46 g/plant) compared to control which produced only 915 g/plant, thus indicating the potential of this treatment to be used for soybean with drip irrigation system (Kanaan, Bassam Abdul Jabbar, 2013).The growth and yield potential of soybean and the effects of mulching on desert sand were evaluated in relation to N accumulation in nodules.The experiment was conducted in concrete framed plots filled with sand obtained from the Dzungar desert or the normal field soil in Shihezi, Xinjiang, China.It was concluded that nitrogen fertilisation improves the nutraceutical properties of soybean, although its effect depends on the activity of the isoflavone biosynthetic pathway and the concurrent extent of seed bulging (Vamerali, T., Barion, G., Hewidy, M., Mosca, G. 2012).
A field experiment conducted during 2009 and 2010 at the research farm of the Indian Agricultural Research Institute, New Delhi to study the performance of soybean as influenced by the intercropping of cereals, viz.maize (Zea mays L.), sorghum [Sorghum bicolor (L.) Moench.] and pearl millet (Pennisetum glaucum L.) with 0, 50, 75 and 100% of their respective recommended dose of N (RDN) levels.The highest gross returns, net returns, B: C ratio and soybean equivalent yield (SEY) were observed under soybean+maize intercropping system along with 100% RDN to intercropped maize in both the years of experimentation.Among the intercropping systems, soybean+maize intercropping systems recorded higher returns and SEY than others (Layek, J., Shivakumar et al. 2015).Soybean grown under soybean-wheat-mungbean system had significantly higher total uptake N and K over soybean-wheat-fallow system.Application of 25% RDF + 50% RDN through FYM along with Rhizobium and PSB gave significantly highest pods/plant, seeds/pod and seed and stover yields of soybean over control during both the years of study.Application of 50% RDF + 25% RDN thorough FYM + biofertilizers or 25% RDF + 50% RDN through FYM + biofertilizers, remaining on par with each other fetched maximum net returns.Significantly maximum total uptake of N and P were recorded with the application of 25% RDF + 50% RDN thorough FYM + biofertilizers over control (Prajapat, K., Vyas, A. K., Dhar, Shiva, 2015.Impact of short-term zero tillage is short lived for favourable soil health and root parameters when skipping with conventional tillage Rajkumar, Singh, Karunakaran, V., 2015) The water requirement of soybean and wheat estimated by Penmann-Monteith method was in close agreement (-2.58% and 9.26% deviation) with the measured average water requirement (401.6 and 352.2 mm) respectively followed by Hargreaves method for Bhopal district.It is also inferred that in absence of solar radiation data Hargreaves method could be considered for predicting water requirement of soybean and wheat crops.These water requirement values are useful for effective planning of irrigation scheduling of the soybean and wheat crops in the State (Singh, Ramadhar, Singh, Karan, Bhandarkar, D. M.,2015).
Sharma, Mahaveer P. (2015) IP of resident AM fungi in soybean rotation involving maize in conservation tillage was found to be highly correlated (r=0.96 to 0.99) with grain yield of soybean and maintaining higher organic carbon which indicates the functioning of resident AM fungi in enhancing the soybean yield.The seasonal average G was 13.1%, 15.2%, 10.9%, and 12.8% of R(n) for irrigated maize, rainfed maize, irrigated soybean, and rainfed soybean, respectively.Statistical analyses of the performance of the four models showed a wide range of variation in G estimation.The root mean square error (RMSE) of predictions ranged from 15 to 81.3 W m(-2). Based on the wide range of RMSE, it is recommended that local calibration of the models should be carried out for remote estimation of soil heat flux (Irmak, A., et al. 2011).
Soybean Glycine max (L) Merr.yield, irrigation water use efficiency, crop water use efficiency and soil water extraction response to treatments of full, limited, or delayed irrigation versus a rainfed control were investigated using a subsurface drip irrigation system.This researches demonstrated that delaying the onset of irrigation until the and practicing full irrigation thereafter for soybean grown on silt loam soils resulted in yields.

MATERIALS AND METHODS
The objectives were solved by setting up and carrying out one-factorial and multiple-factorial field experiments on a demonstration site of the Calculation of economic efficiency is made on the actual costs of unit of the made production from area's hectare according to the actual monetary and energy costs of cultivation of the studied cultures.

Drip irrigation system
Drip irrigation system includes: a) Accumulator of irrigation water on 36 m3 near the Kaskelenka river (figure 1).b) The Additional fertilizing was made by ammonium nitrate with irrigation water of a drip irrigation according to schemes of experiences: the first -at the beginning of tillering, the second -in a phase of a full tillering, the third -in a booting phase, the fourth -in an ear emergence phase, the fifth -in a phase of dairy ripeness of grain.
Harvesting was carried out by direct combining SAMPO-250 (figure 6).

RESULTS AND DISCUSSION
As a result of research, growth and development, formation of a harvest of soy plants in many ways depended on the studied ways of drip irrigation and ways of protection from weeds, levels of mineral nutrition (table 2).Soy shoots, on options with the mulching film, appeared on 5-7 days earlier than the option without the film.They advanced in growth and development in early phases, a ternate leaf, branching, budding eventually were reflected in formation of biomass and a harvest.
The amount of weeds on soy crops at the beginning of vegetation was 146-176 pieces on one square meter.Mechanical treatment led to decrease in quantity of weeds to 44-56 pieces, and chemical processing -up to 33-42 pieces (table 3).
The most effective way for protection from weeds on soy crops was drip irrigation under the mulching film where the amount of weeds at the beginning of vegetation did not exceed 36-44 pieces/sq.m.
In table 4 there is data on accumulation dynamics of biomass of plants in the main phases of its growth.
You can clearly see positive influence of the mulching film on accumulation of biomass of soy plants, especially in comparison with subsurface way of drip irrigation.Crude mass reaches 4222 g and 2694 without mulching.Unlike in year 2013, there is a higher efficiency of subsurface drip irrigation on formations of biological harvest.
As it is noticeable from table 5, the soy plant with drip irrigation forms rather high leaf    Plants from the option with the mulching film had a healthy appearance, a powerful leaf blade and differed in dark green colors of leaves which characterizes good conditions of cultivation (table 6, figures 7,8).
Intensive growth and development of plants in the option with the mulching film under drip irrigation during vegetation, eventually, reflected in good branching, formation of more beans in a plant and the absolute mass of grain.
Analyses results of soy harvest structure show (table 7) that height of stalks in option of surface drip irrigation with the mulching film reaches 107 cm, with a height of 77 cm without the mulching film.Ways of drip irrigation have significant effect on formation of separate elements of the harvest structure.So, use of the mulching film under drip irrigation increases quantity of branches on 1-2,4 units, quantity of beans in one plants from 37 to 49 pieces, the absolute mass of grains on 24-32 g.
Intensive growth and development of soy plants during vegetation with formation of bigger biomass of plants, a leaf surface and basic elements of harvest structure eventually led to formation of more crops.It should be noted that the bigger soy harvest was in option with surface drip irrigation on 3,6-9,2 c/hectare.Despite the bad weather conditions for growth and development of soy in the southeast of Kazakhstan, we have got a big crop (42,2 c/hectare) in option with use of the mulching film (table 7).At the same time the most effective way of drip irrigation was the surface one.
As a result of research, there has been revealed the most acceptable option of cultivation and irrigation for the Kazakhstan soy gradessurface drip irrigation with the mulching film, table 8, and also the grades Lastochka and Dikovit showed the highest results in harvest in three years.

CONCLUSION
Field experiments have proved that of use mulch under drip irrigation makes it possible to obtain that high yield and nutritional value of soybeans, increasing the efficiency of water use, reducing moisture permeation is the root zone, reduce evaporation from the soil surface, rational distribution of moisture, effective distribution of fertilizer, reducing plant water stress due to frequent watering, and as a result of the high quality of the product, saving energy.Comparison of the productivity of soybean varieties showed that productivity in variants with mulch far exceeded variants without mulching.

Table 1 .
Study of ways of soy grades drip irrigation

Table 2 .
Phenology of soy development depending on ways of drip irrigation

Table 3 .
A contamination of soy crops depending on ways of drip irrigation and ways of protection from weeds

Table 4 .
Accumulation of crude biomass of soy plants depending on ways of drip irrigation

Table 5 .
Accumulation of crude biomass of soy grades with drip irrigation

Table 6 .
Leaf surface of soy grades with drip irrigation

Table 7 .
Soy harvest structure depending on ways of drip irrigation, 2014

Table 8 .
Structure of the harvest of soy grades under drip irrigation, 2013-2015.