河北省近滨海区暗管排水排盐技术适宜性及潜在效果研究

Study on the adaptability and potential application effects of subsurface pipe drainage system in the coastal areas of Hebei Province

  • 摘要: 本文在分析河北省近滨海区暗管排水排盐技术适宜条件的基础上, 依据其在该区域实施的约束条件, 运用GIS、RS等信息技术和相关数据, 估算了暗管排水排盐技术适宜的应用面积; 据此结果, 结合实施区盐碱荒地与耕地资源现状, 确定了暗管排水排盐技术实施后区域耕地面积潜在增量; 根据暗管排水排盐技术实施后原有耕地、毛沟平整新增耕地和荒地转化耕地的耕地增产试验数据, 按夏玉米 冬小麦、谷子 冬小麦和单季棉花3种种植制度分类估算了河北省近滨海区暗管排水排盐技术实施后的耕地增产潜力。结果显示: 河北省近滨海区暗管排水排盐技术实施的适宜面积为3.90×105 hm2; 暗管排水排盐技术实施后, 由毛沟平整和荒地转化而来的耕地面积潜在增量为5.14×104 hm2和1.76×104 hm2, 两者之和占原有耕地面积3.21×105 hm2的21.5%; 暗管排水排盐技术实施后, 如按当地目前夏玉米 冬小麦、谷子 冬小麦和单季棉花3种种植制度的播种面积比例推算, 全部耕地的增产潜力分别为4.82×108 kg、1.29×108 kg和3.67×108 kg。暗管排水排盐技术的实施可使生态系统服务功能得到提升, 本文以河北省海兴县为例计算得出其生态系统服务功能潜在提升值为3.90×109 元·a-1, 单位面积的生态系统服务功能潜在增加值为4.06×104元·hm -2·a-1

     

    Abstract: About 8.6×105 hm2 saline/alkaline lands exist in the coastal areas of Hebei Province. Soil salinity in the coastal areas of Hebei Province has mainly been caused by shallow groundwater table and highly saline groundwater. Remedial solutions to soil salinity/alkalinity were by deepening water tables in the region. Subsurface pipe drainage system has proved effective in deepening water tables in the coastal areas of Hebei Province. To research into the effects of subsurface pipe drainage system on soil salinity/alkalinity in the coastal areas of Hebei Province, regions suitable for application of subsurface pipe drainage system were delineated. The research analyzed the limiting conditions of subsurface pipe drainage system application. The superposition and other analyses were executed in ArcGIS environment. The aim of subsurface pipe drainage system was to reduce soil salinity/alkalinity and increase the fertility of saline/alkaline lands. As the coastal areas of Hebei Province is an important grain production region, it is critical to study the effects of subsurface pipe drainage system on optimizing land output. In the paper, the summer maize-winter wheat, foxtail millet-winter wheat and monoculture cotton cropping systems were analyzed. Haixing County, a county with typical saline/alkali soils, was selected as the study area to calculate the changes in ecological services value (ESV) caused by the use of subsurface pipe drainage system. The results were as follows: 1) the region suitable for the application of subsurface pipe drainage system was 3.90×105 hm2. In the 3.90×105 hm2, the areas of original arable lands, ditches and wastelands were 3.21 ×105 hm2, 5.14×104 hm2 and 1.76×104 hm2, respectively. So the new arable land area after subsurface pipe drainage system application was 6.90×104 hm2. (2) Based on arable land area after subsurface pipe drainage system application and real cultivation area ratios of different crops, yield of summer maize-winter wheat increased by 4.82×108 kg, yield of foxtail millet-winter wheat increased by 1.29×108 kg and yield of monoculture cotton increased by 3.67×108 kg. (3) In Haixing County, ESV increased by 3.90×109 Yuan·a 1 after application of subsurface pipe drainage system. On average, ESV increased by 4.06×104 Yuan·hm-2·a-1.

     

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