261. Restoration of the Soil Structure by Crop Sequences Established in No-Till, as Related to Water Erosion in Distinct Surface Physical Conditions

• Authors:
  • Portz, G.
  • Chagas, J. P.
  • Bagatini, T.
  • Cogo, Neroli P.
  • Portela, J. C.
• Source: Revista Brasileira de Ciência do Solo
• Volume: 34
• Issue: 4
• Year: 2010
• Summary: Soil structure plays a prominent role in plant growth and erosion control, and consequently in food production and soil and water conservation. This research was developed with the objective of implementing and accompanying the restoration process of the structure of a degraded soil, by planting crop sequences under no-tillage (autumn-winter and spring-summer, grass and legume, in single and intercropped systems), and later verifying the relations with water and soil losses caused by rainfall erosion, under distinct surface physical conditions (untitled soil, with and without crust; freshly-tilled soil by chiseling and by chiseling followed by disking after one month, and crop residue covering 100, 18, and 0 %). The field study was developed under simulated rainfall, at the Agriculture Experimental Station of the Federal University of Rio Grande do Sul (EEA/UFRGS), in Rio Grande do Sul State, Brazil, from May 2004 to Decembe, 2007. The six erosion tests, in intervals of about a week, were performed from October to December, 2007. The soil used is an Ultisol, with a sandy clay loam texture in the surface layer and 0.115 in m(-1) average slope steepness, and an advanced degree of degradation. The rains were applied with a rotating-boom rainfall simulator, at a constant intensity of 64 mm h(-1), for 1-3 h. For this study, water and soil loss data were adjusted to a rainfall duration of 1.5 h. Properties of soil and plants were measured in the experimental plots and water erosion in the surface runoff The crop sequences and erosion tests influenced the results of the study significantly, with greater differences in the latter than in the former. The erosive process was more influenced by the external or soil surface than the internal or subsurface physical conditions. In general, all crop sequences were effective in restoring the soil structure in the experimental period. The sequence involving teosinte controlled the rainfall erosion process most effectively with regard to soil and water loss and the one involving corn+cowpea and pearl millet with regard to soil loss. The highest soil and water losses in the study were observed from the soil surface with no mobilization and little crop residue cover, regardless of the presence or type of crust, but especially when this latter was slightly cracked prior to rainfall application. The soil surface entirely covered by crop residue, be it untilled or freshly chiseled, controlled runoff effectively and impeded erosion completely. Soil and water losses from the freshly-disked soil surface chiseled a month earlier, although the soil was the most mobilized of all and bare, were practically zero, opposite to what was expected.

262. Potential Economic Benefits of Adapting Agricultural Production Systems to Future Climate Change

• Authors:
  • Bengtson, L. E.
  • Fagre, D.
  • Pederson, G.
  • Zeyuan, Q.
  • Prato, T.
  • Williams, J. R.
• Source: Environmental Management
• Volume: 45
• Issue: 3
• Year: 2010
• Summary: Potential economic impacts of future climate change on crop enterprise net returns and annual net farm income (NFI) are evaluated for small and large representative farms in Flathead Valley in Northwest Montana. Crop enterprise net returns and NFI in an historical climate period (1960-2005) and future climate period (2006-2050) are compared when agricultural production systems (APSs) are adapted to future climate change. Climate conditions in the future climate period are based on the A1B, B1, and A2 CO(2) emission scenarios from the Intergovernmental Panel on Climate Change Fourth Assessment Report. Steps in the evaluation include: (1) specifying crop enterprises and APSs (i.e., combinations of crop enterprises) in consultation with locals producers; (2) simulating crop yields for two soils, crop prices, crop enterprises costs, and NFIs for APSs; (3) determining the dominant APS in the historical and future climate periods in terms of NFI; and (4) determining whether NFI for the dominant APS in the historical climate period is superior to NFI for the dominant APS in the future climate period. Crop yields are simulated using the Environmental/Policy Integrated Climate (EPIC) model and dominance comparisons for NFI are based on the stochastic efficiency with respect to a function (SERF) criterion. Probability distributions that best fit the EPIC-simulated crop yields are used to simulate 100 values for crop yields for the two soils in the historical and future climate periods. Best-fitting probability distributions for historical inflation-adjusted crop prices and specified triangular probability distributions for crop enterprise costs are used to simulate 100 values for crop prices and crop enterprise costs. Averaged over all crop enterprises, farm sizes, and soil types, simulated net return per ha averaged over all crop enterprises decreased 24% and simulated mean NFI for APSs decreased 57% between the historical and future climate periods. Although adapting APSs to future climate change is advantageous (i.e., NFI with adaptation is superior to NFI without adaptation based on SERF), in six of the nine cases in which adaptation is advantageous, NFI with adaptation in the future climate period is inferior to NFI in the historical climate period. Therefore, adaptation of APSs to future climate change in Flathead Valley is insufficient to offset the adverse impacts on NFI of such change.

263. Intercropping of psylium (Plantago ovata L.) and lentil as influenced by drought stress.

• Authors:
  • Asgharipour, M.
  • Rafiei, M.
• Source: Advances in Environmental Biology
• Volume: 4
• Issue: 3
• Year: 2010
• Summary: In search for sustainable agricultural methods for medicinal plants, a field experiment was conducted on isabgol-lentil mono and row intercropping, along with irrigation interval regimes (4-, 7- and 14-days irrigation interval) at the agricultural experimental farm of Zabol University during 2009. The experiment design was split-plot randomized complete block design with four replicates. Main plot treatments were giving irrigation at 4-, 7- and 14-days interval, and subplot treatments consisted of (a) sole isabgol; (b) sole lentil; (c) 1:1 isabgol-lentil intercropping system; (d) 1:3 isabgol-lentil intercropping system; and (e) 3:1 isabgol-lentil intercropping system. The results of the experiment confirmed that drought induced by increasing irrigation interval significantly decreased the growth of both crops and total N concentration of isabgol plants. Results also showed that lentil suppressed biological and grain yield of intercropped isabgol, but the reduction in isabgol yield was compensated by lentil grain yield. Isabgol biological and grain yield was significantly different across cropping systems and the yields were as follows: sole isabgol (281), 1:3 isabgol-lentil (93), 1:1 isabgol-lentil (191), and 3:1 isabgol-lentil (230). Lentil biological and grain yields was also significantly different across the treatments and was sole lentil (1096), 1:3 isabgol-lentil (846), 1:1 isabgol-lentil (644), and 3:1 isabgol-lentil (318). Intercropping isabgol and lentil increased the productivity with LER of 1.10, 1.27 and 1.11 for 1:3 isabgol-lentil, 1:1 isabgol-lentil and 3:1 isabgol-lentil, respectively. In intercrops a significant reduction in LAI, CGR, and also significant increase in leaf and tiller numbers per plant, plant height, spike length, spike numbers per plant, grain numbers per spike and 1000-grain weight of isabgol was observed over sole isabgol. These changes were proportional with row number of isabgol in intercropping. Significant interaction effect of cropping system by irrigation regimes on many cases of measured parameters showed intercropping protects plants from drought. Total concentration of N in isabgol were increased by intercropping, however cropping system by irrigation regimes interaction on N concentration was not significant. These findings suggest that intercropping isabgol-lentil at combination of 1:1 with 7-days irrigation interval may be recommended for yield advantage, more efficient utilization of resources and N concentration on hot and dry regions of South-East Iran.

264. Effects of seeding rates on forage yield and quality of oat (Avena sativa L.) vetch (Vicia sativa L.) mixtures under irrigated conditions of Madagascar.

• Authors:
  • Razafimpamoa, L. H.
  • Randrianaivoarivony, J. M.
  • Rahetlah, V. B.
  • Ramalanjaona, V. L.
• Source: African Journal of Food, Agriculture, Nutrition and Development
• Volume: 10
• Issue: 10
• Year: 2010
• Summary: Forage availability and quality during the dry and cool season is a major constraint to dairy development in the Highlands of Madagascar. The objective of the present study was to determine optimal seeding of oat and common vetch mixtures for increased production and quality of forage. The study was conducted under irrigated conditions in two agro-ecological zones of the Vakinankaratra region in the Highlands of Madagascar. Seed proportions studied were oat-vetch 100:0; 0:100; 50:50 and 50:75. Pure stands of oat and vetch were seeded at the rate of 100 and 60 kg ha -1, respectively. Standard fertilization for forage oat production was uniformly applied on each plot. Pure stands and mixtures were given two successive cuts at flag leaf stage of oat. For both sites and their average, dry matter (DM), feed unit for lactation (UFL), crude protein (CP), and protein digested in the small intestine (PDI) yields were not significantly (p>0.05) different among mixtures and pure stands. The highest yields were obtained from the 50:50 mixture at the first site and from the 50:75 mixture at the second site. According to the two sites' results' average, the highest DM (7.71 t ha -1), UFL (6.08*103 units ha -1), CP (1.64 t ha -1) and PDI (597.1 kg ha -1) yields were obtained from 50:50 mixture. There were no significant differences (p>0.05) in forage quality characteristics except for CP and protein digested in the small intestine when rumen-fermentable nitrogen is limiting (PDIN). Mean CP concentration varied from 15.20% for pure stand of oat to 27.01% for pure stand of vetch. The highest value (178.8 g/kg DM) and the lowest value (103.5 g/kg DM) in PDIN content were obtained from pure stand of oat and pure stand of vetch, respectively. Mixtures had 4.6 to 6.3% more CP content and 15.6 to 39.1% more PDIN content than pure stand of oat. Combined land equivalent ratio values exceeded unity in both mixtures which showed an advantage of intercropping over sole system in terms of the use of environmental resources. As intercropping of oat with vetch at 50:50 (50:30 kg ha -1) mixture achieved maximum yield advantage and forage quality, it could be used as alternative practice of oat sole cropping for high forage and protein production in the Vakinankaratra region.

265. Determinants of the proportion of break crops on Western Australian broadacre farms

• Authors:
  • Bathgate, A.
  • Lawes, R. A.
  • Robertson, M. J.
  • Byrne, F.
  • White, P.
  • Sands, R.
• Source: Crop and Pasture Science
• Volume: 61
• Issue: 3
• Year: 2010
• Summary: Break crops (e. g. pulses, lupins, canola, oats) underpin the continued profitability of cereal (wheat or barley) based cropping sequences. The area sown on farms to break crops varies widely across geographical regions according to climate, soil type mix, enterprise mix (crop v. livestock), and other constraints such as the prevalence of soil-borne disease. Given recent fluctuations in the area of established break crops in Western Australia, there are concerns about their long-term prospects in the farming system. A survey of the area and grain yield of break crops on-farm was combined with whole-farm bio-economic modelling to determine the upper limit to the area of break crops on representative farms in 4 agro-climatic regions. Sensitivity analysis was conducted to ascertain the potential effects of varying commodity prices (sheep and grain), costs of production, and assumptions on the yield of break crops and the boost to the yield of following cereals. The survey revealed that the two dominant break crops, lupins and canola, occupied 8-12% and 8-9%, respectively, of farm area on those farms that grew them in the medium-rainfall zone and this declined to 6-8% and 7-10% in the drier region. Nevertheless, the modelling results show that break crops are an important component of the farming system, even where the area is small, and the response of whole-farm profit to percent of the farm allocated to break crops is relatively. at near the optimum of 23-38%. The modelled area of break crops at maximum profit is higher than that found in farm surveys. The discrepancy could possibly be explained by the lower break crop yields realised by farmers and a reduced boost to cereal yields following break crops than assumed in models. Also, deterministic models do not account for risk, which is an important consideration in the decision to grow break crops. However, the yield difference does not explain the discrepancy entirely and raises questions about farmer motivations for adoption of break crops. The scope for increased area of break crops beyond 23-38% of the farm is limited, even with increases in the yield enhancements in subsequent cereal crops, higher break crop prices, and higher fertiliser costs. Further research is required to better quantify costs and benefits of break crops in Western Australian farming systems.

266. Status of winter cereals, other rotation crops and common weeds as hosts of lesion nematode (Pratylenchus zeae).

• Authors:
  • Dougall, A.
  • Halpin, N. V.
  • Stirling, G. R.
  • Bell, M. J.
• Source: Proceedings of the 2010 Conference of the Australian Society of Sugar Cane Technologists held at Bundaberg, Queensland, Australia, 11-14 May 2010
• Year: 2010
• Summary: Lesion nematode ( Pratylenchus zeae) occurs in almost every sugarcane field in Queensland and is perhaps the most important of a community of nematode pests that cost the Australian sugar industry an estimated $82 million/annum in lost production. Legumes such as soybean and peanut are relatively poor hosts of the nematode and, when they are used as rotation crops in the sugarcane farming system, populations of P. zeae are markedly reduced. This paper provides data on the host status of other rotation crops that might have a place in the sugarcane farming system, together with some common weeds. The capacity of P. zeae to multiply on various plants was assessed after 70 days in pots at temperatures suitable for nematode reproduction, with multiplication factors calculated as (Pf/Pi), where Pf was the final nematode population density and Pi the initial inoculum density. Sugarcane and forage sorghum had the highest multiplication factors (Pf/Pi >40), whereas the nematode population on most other plants increased 5 to 13 times. Some cultivars of wheat, oats and Rhodes grass had multiplication factors of only 3 or 4 and three crops ( Setaria cv. Splenda, barley cv. Grimmett and cowpea cv. Red Caloona) were non-hosts (Pf/Pi

267. Cropping pattern changes and crop diversification in Yavatmal district of Vidarbha region.

• Authors:
  • Naphade, S. P.
  • Chaudhari, D. J.
  • Tingre, A. S.
  • Rathod, V. J.
• Source: Annals of Plant Physiology
• Volume: 24
• Issue: 1
• Year: 2010
• Summary: The study of cropping pattern assumes a great significance as it is one of the important path for balanced development of agriculture to meet the human requirements. The present study is based on secondary data collected from different Government publication. The data covered a period of 32 years i.e. 1970-71 to 2001-02. Simple tabular analysis was used to examined the changes in cropping pattern in Yavatmal district and to quantify the extent of diversification Herfindahl and Entropy indices have been used. The compound growth rates of area, production and yield of major crops were estimated for two sub-periods. The first period was 1970-71 to 1985-86 (period I) and second period was 1986-87 to 2001-02 (period II). The results showed that in Yavatmal district the significant positive growth rates of area was observed in Cotton 1.38 per cent in period I. Whereas area growth rates of all the pulse crop increased significantly during period II. Among all the crops highest area growth rate 43.35 per cent was observed in Soybean during period II. On the other hand production growth rates of Kh. Groundnut declined significantly during both the periods. During the study period, it is observed that cropping pattern has changed substantially in Yavatmal district During the study period, crop diversification and cropping intensity increased significantly.

268. Weed infestation and changes in field pea (Pisum sativum L.) yield as affected by reduced tillage of a clay loam soil

• Authors:
  • Satkus, A.
  • Velykis, A.
• Source: Zemdirbyste-Agriculture
• Volume: 97
• Issue: 2
• Year: 2010
• Summary: Experiments were carried out during 2007-2009 at the Joniskelis Experimental Station of the Lithuanian Institute of Agriculture on a clay loam Endocalcari-Endohypogleyic Cambisol (CMg-n-w-can). The study was designed to assess the effects of shallow ploughing and ploughless tillage as well as its combinations with other agronomic practices incorporation of lime sludge, cover crops (mixture of white mustard and oilseed radish) for green manure and mulch, improving soil condition and environment protection on the spread of weeds in a field pea crop and field pea productivity. It was found that when the post-sowing period was dry, reduced tillage of clay loam soil resulted in a higher weed incidence as well as a reduction in field pea yield, especially when leaving a cover crop for mulch during winter without tillage in autumn, as compared to deep ploughing. Under such conditions and due to reduced tillage, the spread of Galium aparine L. and Chenopodium album L. was wider, and in the cases of low field pea crop density as well as poor competition abilities, the mass of weeds increased. When the moisture was sufficient for field pea to emerge during post-sowing period, the spread of annual weeds was lower due to reduced tillage. Incorporation of lime sludge together with ploughless tillage helped to prevent the spread of weeds and reduction of field pea yield and was more favourable compared to ploughing.

269. Economic evaluation of sorghum based cropping systems.

• Authors:
  • Chaudhari, P. V.
  • Vaidkar, R. D.
  • Vitonde, A. K.
  • Rangacharya, D. S.
• Source: Agriculture Update
• Volume: 5
• Issue: 3/4
• Year: 2010
• Summary: This study was conducted in Amravati and Bhatkuli Tahsils of Amravati district and five villages from each tahsil which were adopting sorghum based cropping systems. The data was collected for the year 2008-2009 from 24 cultivators for each system randomly. The ratio return over the investment at cost 'A' were 2.34, 2.58, 2.47, 2.42, 2.64 and at cost 'B', the ratio were 1.64, 1.85, 1.71, 1.68, 1.83 respectively for sole sorghum, sorghum+tur, sorghum+soybean, sorghum+cotton, sorghum+green gram. In case of sorghum+tur, the ratio at cost 'C' showed higher ( i.e. 1.95) and lower in sole sorghum (i.e.1.39). Thus, the study indicated that the sorghum+tur was found to be most profitable cropping system followed by sorghum+cotton cropping system.

270. Improved growth and nutrient status of an oat cover crop in sod-based versus conventional peanut-cotton rotations

• Authors:
  • Mackowiak, C. L.
  • Marois, J. J.
  • Wright, D. L.
  • Brennan, M.
  • Zhao, D.
• Source: Agronomy for Sustainable Development
• Volume: 30
• Issue: 2
• Year: 2010
• Summary: Nitrogen (N) leaching from agricultural soils is a major concern in the southeastern USA. A winter cover crop following the summer crop rotation is essential for controlling N leaching and soil run-off, thereby improving sustainable development. Rotation of peanut (Arachis hypogea L.) and cotton (Gossypium hirsutum L.) with bahiagrass (Paspalum notatum) (i.e. sod-based rotation) can greatly improve soil health and increase crop yields and profitability. In the sod-based rotation, the winter cover crop is an important component. The objective of this study was to determine effects of summer crops, cotton and peanut, on growth and physiology of a subsequent oat (Avena sativa L.) cover crop in both a conventional (Peanut-Cotton-Cotton) and sod-based (Bahiagrass-Bahiagrass-Peanut-Cotton) rotations. Two rotations with an oat cover crop were established in 2000. In the 2006-07 and 2007-08 growing seasons, oat plant height, leaf chlorophyll and sap NO(3)-N concentrations, shoot biomass, and N uptake were determined. Our results showed that the previous summer crop in the two rotations significantly influenced oat growth and physiology. Oat grown in the sod-based rotation had greater biomass, leaf chlorophyll and NO(3)-N concentrations as compared with oat grown in the conventional rotation. At pre-heading stage, oat in the sod-based rotation had 44% greater biomass and 32% higher N uptake than oat in the conventional rotation; oat following peanut produced 40 to 49% more biomass and accumulated 27 to 66% more N than oat following cotton. Therefore, the sod-based rotation improved not only summer crops, but also the winter cover crop. Increased oat growth and N status from the sod-based rotation indicated greater soil quality and sustainability.