Based on status quo of Chinese water resources, it is necessary to im-prove comprehensive agricultural productivity, establish water-saving, highly-efficient and pol ution-control modern agriculture, and to enhance ir...Based on status quo of Chinese water resources, it is necessary to im-prove comprehensive agricultural productivity, establish water-saving, highly-efficient and pol ution-control modern agriculture, and to enhance irrigation efficiency and profits with the precondition of unchanged agricultural water amount. In the re-search, agricultural irrigation technologies at home and abroad were summarized in order to provide references for agricultural production.展开更多
Vigorously popularizing agricultural high-efficiency water-saving irrigation technology is a comprehensive implementation of the new water control thinking of "water saving priority, spatial balance, systematic g...Vigorously popularizing agricultural high-efficiency water-saving irrigation technology is a comprehensive implementation of the new water control thinking of "water saving priority, spatial balance, systematic governance, and two-handed effort" proposed by General Secretary Xi Jinping, and also an effective way to promote the sustainable use of water resources, increase agricultural production, increase farmers' income, and make rural areas rich. This paper analyzes the deficiencies in the process of popularizing high-efficiency water-saving irrigation technology in Beijing suburbs, and puts forward some countermeasures and suggestions, such as speeding up the comprehensive reform of agricultural water price, strengthening the publicity and training of high-efficiency water-saving irrigation technology, and improving the relevant policy support of Pro agriculture and benefiting agriculture.展开更多
The development of agricultural science and technology has been accelerating, which has promoted the scientific and modern development of agricultural planting. In addition, advanced technology can be adopted in plant...The development of agricultural science and technology has been accelerating, which has promoted the scientific and modern development of agricultural planting. In addition, advanced technology can be adopted in planting and maintenance to promote the realization of large-scale agricultural production and help farmers to create higher income. At present, Shandong has stepped up the construction of irrigation and water conservancy projects, the main purpose of which is to adjust water resources to meet the needs of crop growth, but there is still a serious waste of water resources. Shandong Province is internationally recognized as an "extremely water-deficient area", and the water demand for agricultural irrigation is large and waste is serious. Therefore, it is necessary to play the guiding role of the concept of energy conservation and emission reduction, and adopt efficient water-saving irrigation technology to create higher economic benefits and realize the efficient use of water resources. This paper focuses on the application of high-efficiency water-saving irrigation technology in farmland water conservancy projects.展开更多
Agriculture is the foundation of people's livelihood and the foundation of national economic development. The uneven distribution of water resources and the shortage of water resources have seriously hindered the ...Agriculture is the foundation of people's livelihood and the foundation of national economic development. The uneven distribution of water resources and the shortage of water resources have seriously hindered the development of agriculture in our country. As a key component of China's industrial layout, the country attaches great importance to agricultural development. Under the background of social intelligence development, it is imperative to promote the development of high-quality agriculture and the basic construction of high-standard farmland.展开更多
Irrigation advances in precision irrigation (PI) or site specific irrigation (SSI) have been considerable in research; however, commercialization lags. SSI/PI has applications when soil texture variability affects...Irrigation advances in precision irrigation (PI) or site specific irrigation (SSI) have been considerable in research; however, commercialization lags. SSI/PI has applications when soil texture variability affects soil water holding capacity or when crop yield or biotic stresses (insects or diseases) are spatially variable. SSI/PI uses variable rate application technologies, mainly with center-pivots or lateral-move or linear irrigation machines, to match crop needs or soil water holding constraints. Variable rate applications are achieved by variable nozzle flow rates, pulsing nozzle flows, or multiple nozzles on separate submains. Newer center pivot and linear machines are controlled by on-board microprocessor systems that can be integrated with supervisory control and data acquisition controllers for both communication and control of the variable rate application for specific sets of nozzles or individual nozzles for management zones. Communication for center pivot or linear controllers typically uses radio telemetry, wireless interact links, or cellular telephones. Precision irrigation has limited utility without precise irrigation scheduling (temporally and spatially). Plant or soil sensors are used to initiate or complete an irrigation event. Automated weather stations provide site information for determining the irrigation requirement using crop models or simpler reference evapotranspiration (ET), data to be used with crop coefficients. Remote sensing is being used to measure crop water status or crop development from spectral reflectance. Near-surface remote sensing with sensors mounted on moving irrigation systems provide critical spatial integration from point weather networks and feedback on crop ET and irrigation controls in advanced automated systems for SSI/PI.展开更多
The present paper utilizes thermal infrared image for inversion of winter wheat yield and biomass with different technology of irrigation(drip irrigation,sprinkler irrigation,flood irrigation).It is the first time tha...The present paper utilizes thermal infrared image for inversion of winter wheat yield and biomass with different technology of irrigation(drip irrigation,sprinkler irrigation,flood irrigation).It is the first time that thermal infrared image is used for predicting the winter wheat yield and biomass.The temperature of crop and background was measured by thermal infrared image.It is necessary to get the crop background separation index(CBSIL,CBSIH),which can be used for distinguishing the crop value from the image.CBSIL and CBSIH(the temperature when the leaves are wet adequately;the temperature when the stomata of leaf is closed completely) are the threshold values.The temperature of crop ranged from CBSIL to CBSIH.Then the ICWSI was calculated based on relevant theoretical method.The value of stomata leaf has strong negative correlation with ICWSI proving the reliable value of ICWSI.In order to construct the high accuracy simulation model,the samples were divided into two parts.One was used for constructing the simulation model,the other for checking the accuracy of the model.Such result of the model was concluded as:(1) As for the simulation model of soil moisture,the correlation coefficient(R2) is larger than 0.887 6,the average of relative error(Er) ranges from 13.33% to 16.88%;(2) As for the simulation model of winter wheat yield,drip irrigation(0.887 6,16.89%,-0.12),sprinkler irrigation(0.970 0,14.85%,-0.12),flood irrigation(0.969 0,18.87%,0.18),with the values of R2,Er and CRM listed in the parentheses followed by the individual term.(3) As for winter wheat biomass,drip irrigation(0.980 0,13.70%,0.13),sprinkler irrigation(0.95,13.15%,-0.14),flood irrigation(0.970 0,14.48%,-0.13),and the values in the parentheses are demonstrated the same as above.Both the CRM and Er are shown to be very low values,which points to the accuracy and reliability of the model investigated.The accuracy of model is high and reliable.The results indicated that thermal infrared image can be used potentially for inversion of winter wheat yield and biomass.展开更多
Water saving is an essential part of sprinkler irrigation owing to the impact of climate change and rising energy costs.This review highlights the technologies that are emerging in sprinkler irrigation to optimize cro...Water saving is an essential part of sprinkler irrigation owing to the impact of climate change and rising energy costs.This review highlights the technologies that are emerging in sprinkler irrigation to optimize crop production.While there have been notable advances in irrigation,the continued progress has occurred by the combination of current status with the postulation of new ideas such as conversion of high-pressure sprinkler to low-pressure ones,incorporation of smart controllers in sprinkler irrigation systems.To enhance the adoption of these technologies,research on the dispersion device is needed to improve the performance of impact sprinklers to efficiently operate at low-pressure conditions.It is also important to study how water savings estimates based on water use,irrigated area,longevity of saving,and level of wasteful irrigation prior to the retrofit obtained from field trials can be extrapolated to other areas with different conditions.Research in the development of optimized method for irrigation scheduling is necessary.This review emphasizes that the status of technologies should be considered a continuum,building on earlier knowledge and progress,and hopefully leading toward optimized crop production in sprinkler irrigated areas.展开更多
基金Supported by the Youth Innovation Fund Project of Anhui Academy of Agricultural Sciences(14B0946)~~
文摘Based on status quo of Chinese water resources, it is necessary to im-prove comprehensive agricultural productivity, establish water-saving, highly-efficient and pol ution-control modern agriculture, and to enhance irrigation efficiency and profits with the precondition of unchanged agricultural water amount. In the re-search, agricultural irrigation technologies at home and abroad were summarized in order to provide references for agricultural production.
文摘Vigorously popularizing agricultural high-efficiency water-saving irrigation technology is a comprehensive implementation of the new water control thinking of "water saving priority, spatial balance, systematic governance, and two-handed effort" proposed by General Secretary Xi Jinping, and also an effective way to promote the sustainable use of water resources, increase agricultural production, increase farmers' income, and make rural areas rich. This paper analyzes the deficiencies in the process of popularizing high-efficiency water-saving irrigation technology in Beijing suburbs, and puts forward some countermeasures and suggestions, such as speeding up the comprehensive reform of agricultural water price, strengthening the publicity and training of high-efficiency water-saving irrigation technology, and improving the relevant policy support of Pro agriculture and benefiting agriculture.
文摘The development of agricultural science and technology has been accelerating, which has promoted the scientific and modern development of agricultural planting. In addition, advanced technology can be adopted in planting and maintenance to promote the realization of large-scale agricultural production and help farmers to create higher income. At present, Shandong has stepped up the construction of irrigation and water conservancy projects, the main purpose of which is to adjust water resources to meet the needs of crop growth, but there is still a serious waste of water resources. Shandong Province is internationally recognized as an "extremely water-deficient area", and the water demand for agricultural irrigation is large and waste is serious. Therefore, it is necessary to play the guiding role of the concept of energy conservation and emission reduction, and adopt efficient water-saving irrigation technology to create higher economic benefits and realize the efficient use of water resources. This paper focuses on the application of high-efficiency water-saving irrigation technology in farmland water conservancy projects.
文摘Agriculture is the foundation of people's livelihood and the foundation of national economic development. The uneven distribution of water resources and the shortage of water resources have seriously hindered the development of agriculture in our country. As a key component of China's industrial layout, the country attaches great importance to agricultural development. Under the background of social intelligence development, it is imperative to promote the development of high-quality agriculture and the basic construction of high-standard farmland.
文摘Irrigation advances in precision irrigation (PI) or site specific irrigation (SSI) have been considerable in research; however, commercialization lags. SSI/PI has applications when soil texture variability affects soil water holding capacity or when crop yield or biotic stresses (insects or diseases) are spatially variable. SSI/PI uses variable rate application technologies, mainly with center-pivots or lateral-move or linear irrigation machines, to match crop needs or soil water holding constraints. Variable rate applications are achieved by variable nozzle flow rates, pulsing nozzle flows, or multiple nozzles on separate submains. Newer center pivot and linear machines are controlled by on-board microprocessor systems that can be integrated with supervisory control and data acquisition controllers for both communication and control of the variable rate application for specific sets of nozzles or individual nozzles for management zones. Communication for center pivot or linear controllers typically uses radio telemetry, wireless interact links, or cellular telephones. Precision irrigation has limited utility without precise irrigation scheduling (temporally and spatially). Plant or soil sensors are used to initiate or complete an irrigation event. Automated weather stations provide site information for determining the irrigation requirement using crop models or simpler reference evapotranspiration (ET), data to be used with crop coefficients. Remote sensing is being used to measure crop water status or crop development from spectral reflectance. Near-surface remote sensing with sensors mounted on moving irrigation systems provide critical spatial integration from point weather networks and feedback on crop ET and irrigation controls in advanced automated systems for SSI/PI.
基金China-Germany international cooperation project(IRTG1070)National Natural Science Foundation of China(Item number:0971940)
文摘The present paper utilizes thermal infrared image for inversion of winter wheat yield and biomass with different technology of irrigation(drip irrigation,sprinkler irrigation,flood irrigation).It is the first time that thermal infrared image is used for predicting the winter wheat yield and biomass.The temperature of crop and background was measured by thermal infrared image.It is necessary to get the crop background separation index(CBSIL,CBSIH),which can be used for distinguishing the crop value from the image.CBSIL and CBSIH(the temperature when the leaves are wet adequately;the temperature when the stomata of leaf is closed completely) are the threshold values.The temperature of crop ranged from CBSIL to CBSIH.Then the ICWSI was calculated based on relevant theoretical method.The value of stomata leaf has strong negative correlation with ICWSI proving the reliable value of ICWSI.In order to construct the high accuracy simulation model,the samples were divided into two parts.One was used for constructing the simulation model,the other for checking the accuracy of the model.Such result of the model was concluded as:(1) As for the simulation model of soil moisture,the correlation coefficient(R2) is larger than 0.887 6,the average of relative error(Er) ranges from 13.33% to 16.88%;(2) As for the simulation model of winter wheat yield,drip irrigation(0.887 6,16.89%,-0.12),sprinkler irrigation(0.970 0,14.85%,-0.12),flood irrigation(0.969 0,18.87%,0.18),with the values of R2,Er and CRM listed in the parentheses followed by the individual term.(3) As for winter wheat biomass,drip irrigation(0.980 0,13.70%,0.13),sprinkler irrigation(0.95,13.15%,-0.14),flood irrigation(0.970 0,14.48%,-0.13),and the values in the parentheses are demonstrated the same as above.Both the CRM and Er are shown to be very low values,which points to the accuracy and reliability of the model investigated.The accuracy of model is high and reliable.The results indicated that thermal infrared image can be used potentially for inversion of winter wheat yield and biomass.
基金This work was supported by the National Natural Science Foundation of China(51679109,51809119)the Natural Science Foundation of Jiangsu Province(BK20170555)+1 种基金the Natural Foundation of the Higher Education Institutions of Jiangsu Province(17KJB470001)Special Scientific Research Fund of Agriculture Public Welfare Profession of China(201503130).
文摘Water saving is an essential part of sprinkler irrigation owing to the impact of climate change and rising energy costs.This review highlights the technologies that are emerging in sprinkler irrigation to optimize crop production.While there have been notable advances in irrigation,the continued progress has occurred by the combination of current status with the postulation of new ideas such as conversion of high-pressure sprinkler to low-pressure ones,incorporation of smart controllers in sprinkler irrigation systems.To enhance the adoption of these technologies,research on the dispersion device is needed to improve the performance of impact sprinklers to efficiently operate at low-pressure conditions.It is also important to study how water savings estimates based on water use,irrigated area,longevity of saving,and level of wasteful irrigation prior to the retrofit obtained from field trials can be extrapolated to other areas with different conditions.Research in the development of optimized method for irrigation scheduling is necessary.This review emphasizes that the status of technologies should be considered a continuum,building on earlier knowledge and progress,and hopefully leading toward optimized crop production in sprinkler irrigated areas.
