Water Use Efficiency of Selected Cowpea Cultivars (Vigna unguiculata (L.) Walp) Grown on Residual Soil Moisture in Northeast Nigeria

A field experiment was carried out in the Fadama of Jere bowl to assess the water extraction and water use efficiency of two improved (IT 86D-719 and IT88D-867-11) and one local (Borno Brown ) cowpea cultivars grown on residual soil moisture. The three cowpea cultivars and a control were laid out in a randomized complete block design and replicated three times. The result showed that yield and growth parameters were significantly (P< 0.05) different amongst the three cowpea cultivars. The improved cultivars gave significantly (P< 0.05) higher seed yields than the local cultivar. Cultivar IT 86D-719 had the highest seed yield of 893.0 kg ha-1 while the cultivar Borno Brown had the lowest seed yield of 675.3 kg ha-1. On the other hand the cultivar Borno Brown had the highest 100 seed weight compared to the improved cultivars. The result also showed that water extraction in all the cultivars increased with depth, with maximum extraction occurring at the depth of 80-100 cm, suggesting that the lower soil layers were more effective in supplying water as the hydraulic conductivities of surface layers decreased. The water use efficiency of the two improved varieties of IT86D-719 (63.56 kg/m3) and IT88D-867-11(70.06 kg/m3), were higher compared to the local variety (45.69 kg/m3). Borno brown and IT 88D-867-11 are good water extractors at field capacity but low extractors at moisture stress. IT 88D-867-11 displayed sign of higher extraction rate than IT 86D-719 at field capacity, but IT86D-719 displayed a higher extraction capacity at moisture stress (20WAS)

Radiation Use Efficiency and Soil Water Content on Maize-mungbean Intercropping

Mungbean is traditionally intercropped with maize by small-scale farmers which do widely in the tropics, including Southeast Sulawesi. This study aims to assess the radiation use efficiency (RUE) and soil water content (SWC) in maize intercropped with mungbean. The research was arranged on Split-Plot Design of two factors, i.e. dose of “komba-komba” compost as the main plot consists on 5 t ha-1 and 10 t ha-1 and planting time of mungbean as a subplot, consists on planting mungbean with maize at the same time, delayed planting of mungbean 7 and 14 days after planting (DAP) of maize. The results shown that the highest RUE of maize 2.69 g MJ-1 and 3.15 g MJ-1 obtained on komba-komba compost dose 10 t ha-1 and planting mungbean 7 DAP of maize, while highest RUE of mungbean 0.31 g MJ-1 and 0.60 g MJ-1 obtained on komba-komba compost dose 10 t ha-1 and planting mungbean and maize at the same time, respectively. The soil temperature has negatively correlated with (SWC) that at the komba-komba compost with rxy = - 0.7422 and at the time planting of mungbean in intercropping with maize with rxy = - 0.7922

Urban Water Conservation and Efficiency Potential in California

Improving urban water-use efficiency is a key solution to California's short-term and longterm water challenges: from drought to unsustainable groundwater use to growing tensions over limited supplies. Reducing unnecessary water withdrawals leaves more water in reservoirs and aquifers for future use and has tangible benefits to fish and other wildlife in our rivers and estuaries. In addition, improving water-use efficiency and reducing waste can save energy, lower water and wastewater treatment costs, and eliminate the need for costly new infrastructure

Crop water use requirements and water use efficiency

Presented at the 15th annual Central Plains irrigation conference and exposition proceedings on February 4-5, 2003 at the City Limits Convention Center in Colby, Kansas.Includes bibliographical references

Does efficient water management matter?: physical and economic efficiency of water use in the river basin

With growing water scarcity and increasing competition across water-using sectors, the need for water savings and more efficient water use has increased in importance in water resources management. Improvement in the physical efficiency of water use is related to water conservation through increasing the fraction of water beneficially used over water applied, while enhancing economic efficiency is a broader concept seeking the highest economic value of water use through both physical and managerial measures. Physical and economic efficiency measures are both useful indicators for water management at the irrigation system and river basin level. However, the relationship between physical efficiency and economic efficiency is not always clear and the values of these measures may indicate different directions for water policy and investments in irrigation. Open research questions include, for example: does enhancement of physical water use efficiency always lead to improved economic water use efficiency? How does the change in responsiveness of water allocation and irrigation technology to economic incentives affect physical and economic irrigation efficiency? What is the impact on physical and economic efficiency of various structural and nonstructural improvements? To explore these issues, an integrated economic-hydrologic river basin model is applied to the Maipo River Basin in Chile. A series of modeling scenarios are defined and policy implications from physical and economic efficiencies for basin-wide irrigation water management are analyzed.Irrigation Economic aspects., Water resources development., Water conservation., Chile.,

Agricultural Water Use Efficiency

3 pages (includes color illustrations)

Agricultural Water Use Efficiency

3 pages (includes color illustrations)

Improving Irrigation Scheduling and Water use Efficiency in Cotton

Cotton (Gossypium hirsutum L) is an important crop in the southern United States. The crop is grown in both irrigated and rainfed situations and is seldom free from periods of water shortages at some stage during the season. In recent years the need for consistency in yields and a stable cash flow has resulted in a rapid expansion in the number of irrigated acres of cotton in the Mississippi Delta. Irrigation research has, however, not kept pace with this expansion. This project represents a start at meeting this urgent need. The influence of weather patterns necessitates that these studies be conducted over several years, and the results given here are, therefore, only preliminary observations. The early termination of irrigation has not resulted in any significant decrease in yield or lint quality on the Sharkey clay, although there was a slight detrimental trend when irrigation was terminated too early in August. These studies have helped to clarify the relationship between soil-moisture deficit and plant stress, especially as relates to yield, for cotton cropped on a Sharkey clay soil. Evaluation of crop indicators of water deficit showed that leaf water potential and the air-canopy temperature differential are reliable indicators of the onset of water stress. Leaf extension growth is also a sensitive indicator, but of no practical value in irrigation management. With further research, leaf water potential and canopy-air temperature differentials could provide useful indicators for use in conjunction with traditional methods of scheduling irrigation for cotton in the humid mid-south. A better understanding of the irrigation requirements of the crop will improve management and will have a very significant dollar reduction in the cost of production of the crop

Integrated water resource systems: Theory and policy implications.

Water resource management / Water policy / Irrigation efficiency / Water demand / Leaching / Water use efficiency / Water supply / Evapotranspiration / Models / Water conservation

Technical Change Performance and Water Use Efficiency in the Irrigated Areas: Data Envelopment Analysis Approach

In order to cope with the water scarcity, Tunisia has to manage efficiently the water demand of the economic and social sectors mainly that of the agricultural irrigated activities. Within this context, this investigation aims to analyze the technical efficiency, the water use efficiency and the dynamic of the productivity of the irrigated areas in the Sidi Bouzid region. Farm surveys have been carried out during 2003 and 2007 cropping years and technology performance has been assessed using Data Envelopment Analysis approach. Malmquist index has been also computed in order to characterize the productivity change. Empirical findings showed that the technical efficiency of the farms has increased by 17% during this period leading to an improvement of the water use efficiency up to 22%. Both, the technical efficiency change as well as the technical change reveal a positive impact on the productivity change. However, in 2007, the water use efficiency was only 78%. Therefore, farmers have to improve further their irrigated practices in order to save more water.Irrigated Area, Technical Efficiency, Water Use Efficiency, Productivity Change, Data Envelopment Analysis, Resource /Energy Economics and Policy,