241. Effect of fertilisation on carbon sequestration in soybean-wheat rotation under two contrasting soils and management practices in the Indian Himalayas.

• Authors:
  • Prakash, V.
  • Pandey, S. C.
  • Kundu, S.
  • Bhattacharyya, R.
  • Srivastva, A. K.
  • Gupta, H. S.
• Source: Soil Research
• Volume: 47
• Issue: 6
• Year: 2009
• Summary: We analysed results of a long-term experiments, initiated in 1973 on a sandy loam soil under rainfed condition and in 1995-96 on a silty clay loam soil under irrigated condition, to determine the influence of using different combinations of mineral fertiliser (NPK) and fertiliser+farmyard manure (FYM) at 10 Mg/ha on soil organic carbon (SOC) content and its changes in the 0-0.45 m soil depth. Fertilisation always caused a net gain in SOC stock. Such gain was positively proportional to the amount of C incorporated into the soils. Concentration of SOC in the 0-0.45 m depth increased by 44% in NPK+FYM treated plots compared with NPK (44.4 Mg C/ha) after 32 years under rainfed condition and by 14% in the NPK+FYM treated plots compared with NPK (41.76 Mg C/ha) after 9 years under irrigation. Mean (across treatments) total C added under the rainfed and irrigated systems was 2.67 and 3.03 Mg/ha.year, respectively. It was estimated that ~20 and 25% of the gross C input contributed towards the increase in SOC content under the rainfed and irrigated systems, respectively. Carbon loss from native soil organic matter (SOM) averaged ~61 and 261 kg C/ha.year under the rainfed and irrigated systems, respectively. Furthermore, mean stabilisation of added C in the plots under the rainfed condition (~16%) was higher than that (~13%) observed under the irrigated condition. Conversion of total added C to SOC was similar in the NPK and NPK+FYM treated plots under both growing conditions. In the NPK+FYM plots, ~38 and 29% of the C added through FYM was accounted for in the form of total SOC under the rainfed and irrigated conditions, respectively. The estimated quantity of biomass C required to maintain equilibrium SOM content under the rainfed and irrigated systems was 0.29 and 1.08 Mg/ha.year. The total annual C input by the soybean-wheat rotation in the unfertilised control plots under rainfed condition was 0.87 Mg/ha.year and with N fertiliser only under the irrigated condition was 1.75 Mg/ha.year. Thus, SOC augmentation under long-term soybean-wheat cropping was due to higher annual C input than the required amount to maintain equilibrium SOM content. Although FYM addition along with NPK improved total SOC stock and carbon sequestration potential, it did not encourage the stabilisation rate of added C. Hence, C stabilisation that takes into account the total C added in the system is a better indicator of assessing SOC sequestration. In summary, mineral fertilisation improved C sequestration capacity of soybean-wheat system in the Indian Himalayas and manure addition along with mineral fertilisers further improved it.

242. Crop rotations in Argentina: analysis of water balance and yield using crop models.

• Authors:
  • Salado-Navarro, L. R.
  • Sinclair, T. R.
• Source: Agricultural Systems
• Volume: 102
• Issue: 1/3
• Year: 2009
• Summary: Cropping schemes have developed in east-central Argentina for rainfed soybean (Glycine max Merr.) production that invariably employ no-tillage management. Often these schemes include growing soybean in a sequence of crops including wheat ( Triticum aestivum L.) and maize ( Zea mays L.). The full impact of various rotation schemes on soil water balance through a sequence of seasons has not been explored, although the value of these rotations has been studied experimentally. The objective of this work was to investigate through simulations, potential differences in temporal soil water status among rotations over five years. In this study, mechanistic models of soybean (Soy), maize (Maz), and wheat (Wht) were linked over a five-years period at Marcos Juarez, Argentina to simulate soil water status, crop growth, and yield of four no-till rotations (Soy/Soy, Soy/Wht, Soy/Maz, and Soy/Maz/Wht). Published data on sowing dates and initial soil water contents in the first year from a no-till rotation experiment were used as inputs to the model. After the first year, soil water status output from the model was used to initiate the next crop simulation in the sequence. The results of these simulations indicated a positive impact on soil water balance resulting from crop residue on the soil surface under no-till management. Continuous soybean and the two-year soybean/maize rotation did not efficiently use the available water from rainfall. Residue from maize was simulated to be especially effective in suppressing soil evaporation. Thus, the Soy/Maz simulation results indicated that this rotation resulted in enhanced soil water retention, increased deep water percolation, and increased soybean yields compared with continuous soybean crops. The simulated results matched well with experimental observations. The three-crop rotation of Soy/Maz/Wht did not increase simulated soybean yields, but the additional water retained as a result of decreased soil evaporation resulting from the maize residue allowed the addition of a wheat crop in this two-year rotation. Simulated soybean yields were poorly correlated with both the amount of soil water at sowing and the rainfall during the cropping period. These results highlight the importance of temporal distribution of rainfall on final yield. These models proved a valuable tool for assessing the consequences of various rotation schemes now being employed in Argentina on temporal soil water status, and ultimately crop yield.

243. Carbon stocks in different soil types under diverse rainfed production systems in tropical India.

• Authors:
  • Venkateswarlu, B.
  • Vittal, K. P. R.
  • Srinivasarao, C.
  • Kundu, S.
  • Wani, S. P.
  • Sahrawat, K. L.
  • Marimuthu, S.
• Source: Communications in Soil Science and Plant Analysis
• Volume: 40
• Issue: 15/16
• Year: 2009
• Summary: Soil carbon (C) pool plays a crucial role in the soil's quality, availability of plant nutrients, environmental functions, and global C cycle. Drylands generally have poor fertility and little organic matter and hence are candidates for C sequestration. Carbon storage in the soil profile not only improves fertility but also abates global warming. Several soils, production, and management factors influence C sequestration, and it is important to identify production and management factors that enhance C sequestrations in dryland soils. The objective of the present study was to examine C stocks at 21 sites under ongoing rainfed production systems and management regimes over the last 25 years on dominant soil types, covering a range of climatic conditions in India. Organic C stocks in the soil profiles across the country showed wide variations and followed the order Vertisols > Inceptisols > Alfisols > Aridisols. Inorganic C and total C stocks were larger in Vertisols than in other soil types. Soil organic C stocks decreased with depth in the profile, whereas inorganic C stocks increased with depth. Among the production systems, soybean-, maize-, and groundnut-based systems showed greater organic C stocks than other production systems. However, the greatest contribution of organic C to total C stock was under upland rice system. Organic C stocks in the surface layer of the soils increased with rainfall (r=0.59*), whereas inorganic C stocks in soils were found in the regions with less than 550 mm annual rainfall. Cation exchange capacity had better correlation with organic C stocks than clay content in soils. Results suggest that Indian dryland soils are low in organic C but have potential to sequester. Further potential of tropical soils to sequester more C in soil could be harnessed by identifying appropriate production systems and management practices for sustainable development and improved livelihoods in the tropics.

244. Degradation and Abandonment of Mechanized Rain-Fed Agricultural Land in the Southern Gadarif Region, Sudan: the Local Farmers' Perception

• Authors:
  • Buchroithner, M. F.
  • Sulieman, H. M.
• Source: Land Degradation & Development
• Volume: 20
• Issue: 2
• Year: 2009
• Summary: In the Gadarif Region of Sudan, destruction of the natural vegetation for agricultural expansion is one of the major causes of the degradation of renewable resources and the environment. This Study identifies and analyses the farmers' attitudes and perceptions towards agricultural land degradation and abandonment. The cross-sectional data collected from ten key informants and 41 large-scale farmers focussed on the degradation and abandonment of mechanized agricultural land. The results of the Study show that the respondents are well aware that soil degradation is in various forms are taking place on their cultivated agricultural land. This is based on their perception and interpretation of indicators such as weed infestation, poor soil fertility and soil compaction. Continuous cropping, mono-cropping, rainfall shortage and the use of interior seeds are the main reasons of land degradation as indicated by fanners. The main Measures acknowledged to maintain and improve land productivity are repeated Soil Ploughing, abandonment/fallow periods and crop rotation. The study adduces evidence of widespread land degradation. The mitigation Measures followed by the farmers may though not be sufficient to restore the soil fertility. The application of appropriate chemical fertilizers, Sound crop rotation and long fallow periods can be recommended, Any management and research intervention regarding the problem of land degradation should; however, be concerted with the farmers knowledge. Copyright (C) 2009 John Wiley & Sons, Ltd.

245. Evapotranspiration of irrigated and rainfed maize-soybean cropping systems.

• Authors:
  • Suyker, A. E.
  • Verma, S. B.
• Source: Agricultural and Forest Meteorology
• Volume: 149
• Issue: 3/4
• Year: 2009
• Summary: We have been making year-round measurements of mass and energy exchange in three cropping systems: (a) irrigated continuous maize, (b) irrigated maize-soybean rotation, and (c) rainfed maize-soybean rotation in eastern Nebraska since 2001. In this paper, we present results on evapotranspiration (ET) of these crops for the first 5 years of our study. Growing season ET in the irrigated and rainfed maize averaged 548 and 482 mm, respectively. In irrigated and rainfed soybean, the average growing season ET was 452 and 431 mm, respectively. On average, the maize ET was higher than the soybean ET by 18% for irrigated crops and by 11% for rainfed crops. The mid-season crop coefficient Kc (=ET/ET 0 and ET 0 is the reference ET) for irrigated maize was 1.030.07. For rainfed maize, significant dry-down conditions prevailed and mid-season Kc was 0.840.20. For irrigated soybean, the mid-season Kc was 0.980.02. The mid-season dry down in rainfed soybean years was not severe and the Kc (0.900.13) was only slightly lower than the values for the irrigated fields. Non-growing season evaporation ranged from 100 to 172 mm and contributed about 16-28% of the annual ET in irrigated/rainfed maize and 24-26% in irrigated/rainfed soybean. The amount of surface mulch biomass explained 71% of the variability in non-growing season evaporation totals. Water use efficiency (or biomass transpiration efficiency), defined as the ratio of total plant biomass ( YDM) to growing season transpiration ( T) was 5.200.34 and 5.220.36 g kg -1, respectively for irrigated and rainfed maize crops. Similarly, the biomass transpiration efficiency for irrigated and rainfed soybean crops was 3.210.35 and 2.960.30 g kg -1. Thus, the respective biomass transpiration efficiency of these crops was nearly constant regardless of rainfall and irrigation.

246. Effects of conservation agriculture techniques on infiltration and soil water content in Zambia and Zimbabwe

• Authors:
  • Wall, P. C.
  • Thierfelder, C.
• Source: Soil & Tillage Research
• Volume: 105
• Issue: 2
• Year: 2009
• Summary: The adoption of conservation agriculture (CA), based on minimal soil movement, permanent soil cover with crop residues or growing plants and crop rotation has advanced rapidly in the Americas and Australia over the last three decades. One of the immediate benefits of CA in dryland agriculture is improved rainfall-use efficiency through increased water infiltration and decreased evaporation from the soil surface, with associated decreases in runoff and soil erosion. This paper focuses on the effect of CA techniques on soil moisture relations in two researcher-managed trials in Zambia and Zimbabwe. In 2005/2006 and 2006/2007, we found significantly higher water infiltration on both sites on CA fields compared to conventionally ploughed fields. At Henderson Research Station, Zimbabwe, on a sandy soil, a direct seeded CA treatments had a 49% and 45% greater infiltration rate than the conventionally tilled plots after a simulated rainfall in both seasons. At Monze Farmer Training Centre, Zambia, on a finer-textured soil, the same treatment had 57% and 87% greater infiltration rate than the conventionally tilled control treatment in both seasons. Treatments that included reduced tillage and surface residue retention had less water runoff and erosion on runoff plots at Henderson Research Station, Zimbabwe. On average, soil moisture was higher throughout the season in most CA treatments than in the conventionally tilled plots. However, the full potential of CA in mitigating drought was not evident as there was no significant drought period in either season. Results suggest that CA has the potential to increase the productivity of rainfall water and therefore reduce the risk of crop failure, as was apparent at the Monze Farmer Training Centre, Zambia, in 2005/2006 when a period of moisture stress at tassling affected CA treatments less than the conventionally tilled treatment. (C) 2009 Elsevier B.V. All rights reserved.

247. Some results of studies on genetic improvement of soybean.

• Authors:
  • Todorova, R.
• Source: Rasteniev'dni Nauki
• Volume: 46
• Issue: 4
• Year: 2009
• Summary: As a result of long research work on genetic improvement of soybean, new varieties have been developed and rich germplasm has been obtained. Classic breeding methods of hybridization and experimental mutagenesis were used. Our studies were directed to obtaining of varieties with high productive potential and resistance to biotic and abiotic stress, as well as to increase of crude protein and crude fat content. The candidate variety Rosa was presented for testing in the system of EAVTFISC (Executive Agency for Variety Testing, Field Inspection and Seed Control). In our competition variety trials it possessed high productive potential under irrigated and nonirrigated conditions and showed resistance to the diseases of bacteriosis and mildew.

248. Soil properties, soybean response, and economic return as affected by residue and water management practices.

• Authors:
  • Chen, P.
  • Gbur, E. E.
  • Popp, J. H.
  • Brye, K. R.
  • Verkler, T. L.
  • Amuri, N.
• Source: Journal of Sustainable Agriculture
• Volume: 33
• Issue: 7
• Year: 2009
• Summary: Soil, water, and air quality can be positively impacted by alternative crop residue management practices that return residue to the soil. Double-crop production systems, particularly those with a grass included in the rotation, rely on successful residue management practices. Soil quality and overall soil tilth are often low in regions with a long history of intensely cultivated, row-crop production, such as in the Mississippi River Delta region of the mid-South. Therefore, the objective of this study was to evaluate the effects of alternative residue (i.e., tillage, residue burning, and residue level) and water management practices on soil properties, soybean [ Glycine max (L.) Merr.] production, and net economic returns, over two consecutive rotations in a wheat ( Triticum aestivum L.) - soybean double-crop system in the Mississippi River Δ region of eastern Arkansas. Initiated in 2001, this study reports results from years 4 and 5 of the experiment. Residue management effects were inconsistent among soil properties and years, and differences were generally agronomically non-significant. Averaged across irrigation treatments, soybean yield was unaffected by tillage, burning, and residue level either year. Within the non-irrigated treatment, conventionally tilled (CT) soybean yield was 38% greater ( p

249. Correlation climate-yield in wheat under the influence of the crop rotation and irrigation in the conditions of North-Western Romania.

• Authors:
  • Bara, C.
  • Sabau, N. C.
  • Domuta, C.
  • Borza, I.
  • Bara, V.
  • Samuel, A.
  • Ardelean, I.
  • Bara, L.
  • Ciobanu, G.
  • Sandor, M.
  • Domuta, C.
  • Brejea, R.
  • Vuscan, A.
• Source: Analele Universităţii din Oradea, Fascicula: Protecţia Mediului
• Volume: 14
• Year: 2009
• Summary: The paper is based on the research carried out during 2003-2008 in a long term trial placed in 1990 on the preluvosoil from Oradea. Climate indicator "de Martonne aridity index" (IdM) was used for quantification the correlation between climate and wheat yield in unirrigated and irrigated conditions and new class called "arid" was purposed for climate index characterization. Maintaining the soil water reserve on 0-50 cm depth between easily available water content and field capacity using the irrigation determined the increase of the IdM values for period IV-VI with 79% in 2003, 73% in 2004, 36% in 2005, 16% in 2006, 162% in 2007 and with 131% in 2008; using the irrigation and the improvement of the microclimate conditions determined to obtain the yield gains, very significant every year and every crop rotation studied; both in unirrigated conditions and in irrigated conditions, the smallest yields wheat were obtained in monocrop and the biggest in the wheat-maize-soybean crop rotation; in the all three crop rotation, the direct links statistically assured were registered between the values of the De Martonne aridity index and yields in unirrigated and irrigated wheat. These correlations sustain the need of the irrigation in wheat from Crisurilor Plain; correlation between De Martonne aridity index is stronger (R 2=0.7361 xx) in the wheat-maize-soybean crop rotation in comparison with wheat-maize crop rotation (R 2=0.6215 x) and with wheat monocrop (R 2=0.6105 x). As consequence, crop rotation of wheat-maize-soybean is recomanded because the climate and microclimate conditions are better use.

250. Transformed post-soybean introduction farming scenario in Madhya Pradesh.

• Authors:
  • Joshi, O. P.
  • Billore, S. D.
  • Dupare, B. U.
  • Verma, S. K.
• Source: Soybean Research
• Volume: 7
• Year: 2009
• Summary: A study was conducted to visualize the impact of soybean cultivation in the "Soya State", Madhya Pradesh. The data were collected using well-designed interview schedule containing relevant questions on how soybean has affected farmers lifestyle as well as overall farming scenario? Majority of the respondents perceived soybean cultivation as a major driving force for their socio-economic development. A steady increase in the farmers' inclination to grow soybean was observed during the last five decades, while, decreasing their area in traditionally grown crops like sorghum, pigeon pea, groundnut, cotton and black gram. During soybean introduction many changes in the overall farming scenario of Madhya Pradesh have occurred. The change was recorded in the land holding pattern of farmers which revealed that small and marginal farmers have further reduced their land holdings while larger farmers have not only managed their holdings but also added newer areas to their total farm size. The cost of cultivation as well as rates fetched by the soybean showed an upward trend with passage of time during these five decades. An inverse relationship between the labour availability and wages was also observed. The gathered opinion from farmers brought out that fertilizer consumption and insect-load appeared to have increased with time. It seems that in spite the irrigation facilities have increased during these 50 years, particularly that of canal, tube wells and ponds, soybean by and large, remained to be a rainfed crop. However, the farmers have shifted from bullock drawn implements to tractor drawn implements. This led to limiting number of animals with farmers, thereby progressive reduction in the use of manures. Subsequent to the introduction of soybean, the socio-economic status of the farmers has improved.