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Enhancing Agricultural Research and Precision Management for Subsistence Farming by Integrating System Models with Experiments. Группа авторовЧитать онлайн книгу.

Enhancing Agricultural Research and Precision Management for Subsistence Farming by Integrating System Models with Experiments - Группа авторов


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dryland systems in this area and impacts from climate change.

      USDA‐ARS Soil Management Research Unit

      Dennis J. Timlin and Saseendran S. Anapalli

      Chapter 2 (Birnholz et al., 2022) covers the use of models to assess sustainable land management practices in the Central Highlands of Kenya. This multi‐faceted study used a whole farm model to investigate impact of farm configurations (such as physiographic location, socio‐economics, and crop and livestock choices) on farm performance. The information from this model was used to evaluate the outcomes of various erosion control practices on farm health and erosion. They found that profitability trade‐offs existed for erosion control practices. In some cases, labor investment for maintenance of erosion control practices is not always compensated by improved income from the new practice. Also, livestock can sometimes take better advantage of improved land management practices rather than row crops.

      There is some uncertainty about the best management practices for wheat (Triticum aestivum L.) on the sandy loam soils in Ethiopia, especially in light of potential future climate change. Wheat is a major cereal crop in Ethiopia and yields need to be higher to support a growing population. However, poor soil conditions and biotic stresses limit potential yields. Chapter 3 (Araya et al., 2022) analyzes the power of crop simulation models to better understand what management factors can be used to increase wheat yields in these soils of Ethiopia. Such models can be used to augment more expensive and time consuming field‐scale experiments. The simulation results indicate that early planting with a plant density of 300 plants m−2 is optimal for this region and that increased nitrogen fertilization to a maximum of 180 kg ha−1 increases yields. The expected increase in average temperature along with increased CO2 due to climate change in this region, according to simulations, will increase wheat yields. The analysis did not take short episodes of extreme temperatures into account.

      Agro‐ecosystem services provide agricultural, societal, and ecological benefits to all humans. These services include recharge of groundwater, climate modification, and maintenance of soil health, among other services. Climate change threatens the sustainability of these services. Chapter 5 (Ali et al., 2022) describes various simulation and numerical methods in detail used to quantify infiltration, aquifer recharge, and soil erosion in India and other nearby countries. These methods are then applied to understand how expected changes in climate will impact ecosystem services. Climate change models predict the wet season to become wetter and the dry season to become drier. Simulations show how water harvesting and storing excess summer water in ponds can increase groundwater recharge and provide additional water during dry periods. Because of increased future rainfall, soil erosion is predicted to increase by 58% and soil organic carbon loss is predicted to increase by 57% over the base period.

      China is a country with a large population and sizable areas where water is limited during the growing season. Arid areas are especially vulnerable to climate change, and it is important to understand the hydrology and water relations of arid lands. In these arid areas, groundwater can be a significant water source for agriculture. Chapter 6 (Gao et al., 2022) discusses modeling approaches to determine the best use of groundwater that can be supplied by capillary fluxes in the soil. Shallow groundwater can provide large amounts of water via capillary rise but can limit growth due to water logging. If the groundwater is very deep, greater than 3 or 4 m upward capillary flow cannot sustain crop growth. Irrigation with water pumped from groundwater can enhance the contribution of groundwater through capillary flow and increase irrigation water use efficiency. This is because when irrigation is used in areas with a groundwater depth less than 3 m, excess irrigation that percolates to the groundwater table is available for uptake by plants. These kinds of analyses are useful in areas with plentiful groundwater but undeveloped irrigation systems.

      Maize (Zea mays L.) is an important food crop in Africa. Adequate fertilizer can provide large yields, but there is often insufficient nitrogen fertilizer available or affordable to maintain optimum maize yields. Also, nitrogen uptake and use efficiency depends greatly on water availability, which, in turn, is affected by planting date. Chapter 4 (MacCarthy et al., 2022) explains how the Decision Support System for Agrotechnology (DSSAT) maize model is used to determine yield response to nitrogen fertilizer, variety, and sowing date at multiple locations in Ghana. The results demonstrate the spatial distribution of yield response to these variables in locations throughout Ghana and show that, at the eastern part of the Guinea Savanna, early and late planting best utilizes available rainfall and gives the best yields. Late planting is preferred in the Sudan Savanna area. They also found that, for early and very early varieties, 60 kg N ha−1 gave the best yields. Medium and long season varieties respond to higher nitrogen rates (90 kg ha−1), and the medium


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