Field Comparison of Soil Moisture Sensing Using Neutron Thermalization, Frequency Domain, Tensiometer, and Granular Matrix Sensor Devices: Relevance to Precision Irrigation  被引量：1

作　　者：Clinton C. Shock André B. Pereira Erik B. G. Feibert Cedric A. Shock Ali Ibrahim Akin Levent Abdullah Unlenen Clinton C. Shock;André B. Pereira;Erik B. G. Feibert;Cedric A. Shock;Ali Ibrahim Akin;Levent Abdullah Unlenen(Malheur Experiment Station, Oregon State University, Ontario, USA;Department of Soil Science and Agricultural Engineering, State University of Ponta Grossa, Ponta Grossa, Brazil;Oregon State University, Malheur Experiment Station, Ontario, USA;Oregon State University, Malheur Experiment Station, Ontario, USA;Ankara Nuclear Agriculture and Animal Research Center, Ankara, Turkey;General Directorate of Agricultural Researches, Potato Research Institute, Ministry of Agriculture and Rural Affairs, Nigde, Turkey)

机构地区：[1]Malheur Experiment Station, Oregon State University, Ontario, USA [2]Department of Soil Science and Agricultural Engineering, State University of Ponta Grossa, Ponta Grossa, Brazil [3]Oregon State University, Malheur Experiment Station, Ontario, USA [4]Oregon State University, Malheur Experiment Station, Ontario, USA [5]Ankara Nuclear Agriculture and Animal Research Center, Ankara, Turkey [6]General Directorate of Agricultural Researches, Potato Research Institute, Ministry of Agriculture and Rural Affairs, Nigde, Turkey

出　　处：《Journal of Water Resource and Protection》2016年第2期154-167,共14页水资源与保护（英文）

摘　　要：The efficient use of irrigation water requires several kinds of information. One element of efficient irrigation scheduling is monitoring the soil moisture to assure that the crop irrigation goals are being met. Various soil moisture sensing devices were tested for irrigation scheduling in silt loam at the Malheur Agricultural Experiment Station, Oregon State University between 2001 and 2004. Neutron probes, frequency domain probes, tensiometers, granular matrix sensors, and Irrigas were compared as to their performance under field conditions at Ontario, Oregon, USA. Granular matrix sensors were tested as read automatically by a datalogger and read manually with a hand-held meter. Practical suggestions are provided to use soil moisture sensors to the benefit of crop production and water conservation.The efficient use of irrigation water requires several kinds of information. One element of efficient irrigation scheduling is monitoring the soil moisture to assure that the crop irrigation goals are being met. Various soil moisture sensing devices were tested for irrigation scheduling in silt loam at the Malheur Agricultural Experiment Station, Oregon State University between 2001 and 2004. Neutron probes, frequency domain probes, tensiometers, granular matrix sensors, and Irrigas were compared as to their performance under field conditions at Ontario, Oregon, USA. Granular matrix sensors were tested as read automatically by a datalogger and read manually with a hand-held meter. Practical suggestions are provided to use soil moisture sensors to the benefit of crop production and water conservation.

关 键 词：Soil Water Irrigation Scheduling RESPONSIVENESS Soil Moisture Sensor Porous Ceramic 

分 类 号：O57[理学—粒子物理与原子核物理]