The factors affecting the high-quality development of agriculture in the Jianghuai Hills region were analyzed from the aspects of natural climatic conditions, topographical and geomorphological features, soil types, and water retention capacity, as well as the transformation of farmland suitable for mechanization and the spatial distribution of agricultural water use. Measures such as reasonably adjusting the planting structure and implementing water-adapted planting, promoting water-saving agricultural techniques and improving the utilization rate of water and fertilizer, applying comprehensive management measures to enhance soil water and fertilizer retention capacity, focusing on innovation-driven approaches and promoting the application of soil moisture-based irrigation technology, and improving the construction of water conservancy facilities to ensure adequate irrigation water sources were proposed from the perspective of the application of water-saving agricultural technologies and based on the regional water resource endowment, in order to advance the high-quality development of agriculture.
LU Baoguo
,
HU Qinyuan
,
CHEN Junyang
. High-quality development of crop production in the Jianghuai Hills region based on the application of water-saving agricultural techniques[J]. Anhui Agricultural Science Bulletin, 2024
, 30(16)
: 141
-144
.
DOI: 10.16377/j.cnki.issn1007-7731.2024.16.034
[1] 李英能. 关于我国节水农业技术研究的探讨[J]. 灌溉排水学报,2003,22(1):11-15.
[2] 王文娟. 对新时期实施节水农业的认识与思考[J]. 山西水利,2010,26(9):31,33.
[3] 赵育琴. 现代农业中推广节水农业技术的作用[J]. 农业与技术,2016,36(8):51.
[4] 施六林,王艳,王川. 江淮分水岭地区干旱特点及发展节水农业的对策[J]. 安徽农业科学,2009,37(36):8186-8187,8203.
[5] 方灿华. 基于GIS的江淮丘陵岗地地区耕地地力评价研究:以安徽省明光市为例[D]. 合肥:安徽农业大学,2009.
[6] 宋洪炳,郭伟玲. 基于最小数据集的江淮丘陵区土壤质量综合评价[J]. 农业与技术,2023,43(12):93-98.
[7] 黄大国. 江淮丘陵地区水土流失治理与可持续发展研究[J]. 安徽农业科学,2009,37(25):12137-12138,12141.
[8] 武鹏. 江淮丘陵区土壤质量及作物产量对水土流失的响应[D]. 淮南:安徽理工大学,2022.
[9] 黄义德,武立权,黄雅丽. 安徽省江淮丘陵地区单季中稻旱灾原因浅析及对策[J]. 安徽农业科学,2005,33(12):2223-2224.
[10] 刘晓华,刘潘伟,胡续礼,等. 江淮丘陵区土壤侵蚀分布与环境因子的关系[J]. 水土保持通报,2018,38(1):281-286.
[11] 郝安宁. 安徽省江淮分水岭地区水资源问题及对策[J]. 安徽地质,2001,11(1):60-63.
[12] 查显宝,王双涛,罗平平,等. 降水时空分布及变化特征分析:以安徽省为例[J]. 灌溉排水学报,2023,42(1):112-120.
[13] 周航,袁洪州,张陆军,等. 江淮丘陵及下游平原区水保分区防治途径探讨[J]. 人民长江,2013,44(19):81-84,107.
[14] 安徽省土壤普查办公室.安徽土壤[M].北京:科学出版社,1996.
[15] 李鹏,沈益民,王涛,等. 江淮分水岭水土流失区域生态环境质量评价[J]. 水土保持通报,2014,34(6):134-139.
[16] 钟伦元. 浅析丘陵地区农村土地宜机化改造[J]. 南方农业,2022,16(8):185-187.
[17] 翁存雅. 江淮分水岭丘陵地区发展节水农业的措施[J]. 安徽农业,2004(10):52.
[18] 李建锋. 洛阳市推广旱作节水技术成效及建议[J]. 河南农业,2023(31):26-27.
[19] 李建新. 自动节水灌溉技术研究及其应用[J].农机使用与维修,2022(8):168-170.
[20] 李瑞娟,张乃明,李月顺.我国西南地区农业节水灌溉技术探讨[J].杨凌职业技术学院学报,2007,(4):21-23.
