611. 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.

612. 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.

613. Design of the powered-chain anti-blocking mechanism for wheat no-till planter.

• Authors:
  • Li, H. W.
  • He, J.
  • Zhang, X. R.
  • Li, W. Y.
• Source: Nongye Jixie Xuebao = Transactions of the Chinese Society for Agricultural Machinery
• Volume: 40
• Issue: 10
• Year: 2009
• Summary: This paper put forward the new anti-blocking principle combining residue-throwing by powered-chain finger and residue-cutting by knife type opener, and designed the powered chain anti-blocking mechanism for no-till planter according to the problem of residue blocking of no-till wheat planting in heavy corn residue cover fields in annual double cropping areas of North China plain. Furthermore, the key parameters for powered-chain, chain finger and knife type opener were determined based on the analyses of the movement of anti-blocking mechanism. The field experiment showed that the powered-chain anti-blocking mechanism could solve the residue blocking effectively, so as to ensure the passing of wheat no-till planter. Through real-time clearing of corn residues before the knife type opener, 12.3% of opening force was decreased. Compared with the strip roto-tilling wheat planter, the powered-chain wheat no-till planter could not only seed and fertilize at the suitable depths, but also decrease soil disturbance and fuel consumption by 66.4% and 8.07%, respectively, which indicates that this new planter can meet the requirements of agronomy in North China plain.

614. Runoff, Soil Loss, and Nutrient Depletion Under Traditional and Alternative Cropping Systems in the Transmexican Volcanic Belt, Central Mexico

• Authors:
  • Garcia-Oliva, F.
  • Prat, C.
  • Medina-Orozco, L.
  • Mendoza, M. E.
  • Bravo-Espinosa, M.
  • Lopez-Granados, E.
• Source: Land Degradation & Development
• Volume: 20
• Issue: 6
• Year: 2009
• Summary: In the Transmexican Volcanic Belt a traditional fallow system is practiced, called "ano y vez" (AV), which does not benefit soil conservation due to its low level of nutrient recycling and because soil protection is poor during the cultivation year. The objective of the present work was to measure runoff and soil and nutrient losses during three annual cycles (2002-2004) in Central Mexico under AV rotation and two alternative systems: improved traditional (IT) and traditional organic (TO). Soil losses in the three systems were moderate (

615. Calibration of a crop model to irrigated water use using a genetic algorithm.

• Authors:
  • Andresen, D.
  • Das, S.
  • Miller, M.
  • Lauwo, S.
  • Staggenborg, S.
  • Jin, W.
  • Bulatewicz, T.
  • Peterson, J.
  • Steward, D. R.
  • Welch, S. M.
• Source: Hydrology & Earth System Sciences
• Volume: 13
• Issue: 8
• Year: 2009
• Summary: Near-term consumption of groundwater for irrigated agriculture in the High Plains Aquifer supports a dynamic bio-socio-economic system, all parts of which will be impacted by a future transition to sustainable usage that matches natural recharge rates. Plants are the foundation of this system and so generic plant models suitable for coupling to representations of other component processes (hydrologic, economic, etc.) are key elements of needed stakeholder decision support systems. This study explores utilization of the Environmental Policy Integrated Climate (EPIC) model to serve in this role. Calibration required many facilities of a fully deployed decision support system: geo-referenced databases of crop (corn, sorghum, alfalfa, and soybean), soil, weather, and water-use data (4931 well-years), interfacing heterogeneous software components, and massively parallel processing (3.8*10 9 model runs). Bootstrap probability distributions for ten model parameters were obtained for each crop by entropy maximization via the genetic algorithm. The relative errors in yield and water estimates based on the parameters are analyzed by crop, the level of aggregation (county- or well-level), and the degree of independence between the data set used for estimation and the data being predicted.

616. Effects of 11 years of conservation tillage on soil organic matter fractions in wheat monoculture in Loess Plateau of China

• Authors:
  • Kuzyakov, Y.
  • Fan, M.
  • Li, H.
  • Gong, Y.
  • Hou, R.
  • Chen, H.
• Source: Soil & Tillage Research
• Volume: 106
• Issue: 1
• Year: 2009
• Summary: The Loess Plateau in northwest China is one of the most eroded landscapes in the world, and it is urgent that alternative practices be evaluated to control soil erosion. Our objective was to determine how three different tillage practices for monoculture of winter wheat (Triticum aestivum L) affected soil organic carbon (SOC) and N content after 11 years. Conventional tillage with residue removal (CT), shallow tillage with residue cover (ST), and no-tillage with residue cover (NT) were investigated. Carbon and N in various aggregate-size classes and various labile organic C fractions in the 0-15- and 15-30-cm soil layers were evaluated. The ST and NT treatments had 14.2 and 13.7% higher SOC stocks and 14.1 and 3.7% higher total N(N(t))stocks than CT in the upper 15 cm, respectively. Labile C fractions: particulate organic C (POC), permanganate oxidizable C (KMnO(4)-C), hot-water extractable C (HWC), microbial biomass C (MBC) and dissolved organic C (DOC) were all significantly higher in NT and ST than in CT in the upper 15 cm. KMnO(4)-C, POC and HWC were the most sensitive fractions to tillage changes. The portion of 0.25-2 mm aggregates, mean weight diameter (MWD) and geometric mean diameter (GMD) of aggregates from ST and NT treatments were larger than from CT at both 0-15- and 15-30-cm soil depths. The ST and NT treatments had significantly higher SOC and Nt in the 0.25-2 mm fraction at both depths and significantly higher N, content in the upper 15 cm. Positive significant correlations were observed between SOC, labile organic C fractions, MWD, GMD, and macroaggregate (0.25-2 mm) C within the upper 15 cm. We conclude that both variants of conservation tillage (NT and ST) increase SOC stock in the rainfed farming areas of northern China and are therefore more sustainable practices than those currently being used. (C) 2009 Elsevier B.V. All rights reserved.

617. Impact of land management practices on carabids (Coleoptera: Carabidae) and other arthropods on the western high plains of North America.

• Authors:
  • Buschman, L. L.
  • French, B. W.
  • Currie, R. S.
  • Davis, H. N.
• Source: Southwestern Entomologist
• Volume: 34
• Issue: 1
• Year: 2009
• Summary: This study examined how land management practices can affect the abundance of several arthropods commonly found in agriculture. This work was done in plots that had been subjected to three successive years of an agronomic experiment that evaluated the effects of a wheat, Triticum aestivum L., cover crop or no cover crop on weed and water management. After the third growing season, pitfall traps were installed and arthropods were collected and identified. At one location, carabids (Coleoptera: Carabidae) were identified to genus. Four of the genera ( Amara, Anisodactylus, Harpalus, and Calathus) were more common under no-till conditions. Only one genus ( Stenolophus) was more common in tilled plots. Five genera ( Amara, Bradycellus, Scarites, Stenolophus, and Calathus) were more common in plots with a history of more weeds caused by less herbicide use. Carabids were not more abundant in plots with fewer weeds after herbicides had been applied. Past presence of a winter cover crop never reduced carabid numbers, but significantly increased members of two genera ( Harpalus and Poecilus). As a group, carabids at one location were more common in plots without a history of a cover crop. At another location, more carabids were in tilled than nontilled plots. Crickets (Orthoptera: Gryllidae) were more common under no-till conditions. At all locations, wolf spiders (Araneae: Lycosidae) were more common in plots with no tillage and a previous cover crop. Results suggested that surface residues affected carabids, wolf spiders, and crickets.

618. 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.

619. Design, development and field evaluation of a punch wheel for planting on a conservation tillage system.

• Authors:
  • Rashakani, M. A.
  • Robati, J.
  • Germi, Y. S.
• Source: Proceedings 37th International Symposium 'Actual tasks on agricultural engineering', Opatija, Croatia, 10-13 veljače, 2009
• Year: 2009
• Summary: Applying the precision planters such as punch planters is one of the methods for increasing yield performance by retaining the conservation tillage advantages. In this study, a type of dibble punch planter with seed plate metering device was designed and constructed for maize planting, and was tested in the field on three soil conditions (tilled, untilled with no residue, untilled with wheat residue) and at three forward speeds (1.5, 3, 4.5 km h -1). Then, the planter performance was evaluated with quality of feed index, miss index, multiple seed index, depth index and radius of contact cross section area in the field. Field test results showed that the second speed (3 km h -1) has relatively higher feed index. The difference of feed index was not significant between tilled soil and untilled soil (with residue) and also between v1 and v2. Also, the difference between the different levels of soil conditions and forward speeds was significant (p

620. Integrating Cropping Systems with Cultural Techniques Augments Wild Oat (Avena fatua) Management in Barley

• Authors:
  • Clayton, G. W.
  • Turkington, T. K.
  • Irvine, R. B.
  • O'Donovan, J. T.
  • Harker, K. N.
• Source: Weed Science
• Volume: 57
• Issue: 3
• Year: 2009
• Summary: Wild oat causes more crop yield losses and accounts for more herbicide expenditures than any other weed species on the Canadian Prairies. A Study was conducted from 2001 to 2005 at four Canadian Prairie locations to determine the influence of repeated cultural and herbicidal management practices on wild oat Population density, biomass, and seed production, and on barley biomass and seed yield. Short or tall cultivars of barley were combined with normal or double barley seeding rates in continuous barley or a barley-canola-barley-field-pea rotation under three herbicide rate regimes. The same herbicide rate regime was applied to the same plots in all crops each year. In barley, cultivar type and seeding rate were also repeated on the same plots year after year. Optimal Cultural practices (tall cultivars, double seeding rates, and crop rotation) reduced wild oat emergence, biomass, and seed production, and increased barley biomass and seed yield, especially at low herbicide rates. Wild oat seed production at the quarter herbicide rate was reduced by 91, 95, and 97% in 2001, 2003, and 2005, respectively, when call barley cultivars at double seeding rates were rotated with canola and field pea (high management) compared to short barley cultivars at normal seeding rates Continuously planted to barley (low management). Combinations of favorable cultural practices interacted synergistically to reduce wild oat emergence, biomass and seed production, and to increase barley yield. For example, at the quarter herbicide rate, wild oat biomass was reduced 2- to 3-, 6- to 7-, or 19-fold when optimal single, double, or triple treatments were combined, respectively. Barley yield reductions in the low-management scenario were somewhat compensated for by full herbicide rates. However, high management at low herbicide rates often produced more barley than low management in higher herbicide rate regimes.