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李 娜, 袁成福, 罗凤春, 胡龙颂, 周昌明, 王艳艳.1958—2017年江西省水稻需水量与有效降雨量耦合关系分析水资源与水工程学报[J].,2024,35(1):206-216
1958—2017年江西省水稻需水量与有效降雨量耦合关系分析
Coupling relationship between rice water requirement and effective rainfall in Jiangxi Province during 1958-2017
  
DOI:10.11705/j.issn.1672-643X.2024.01.24
中文关键词:  有效降雨量  需水量  耦合度  时空分布  水稻  江西省
英文关键词:effective rainfall  water requirement  coupling degree  spatial and temporal distribution  rice  Jiangxi Province
基金项目:江西省教育厅科技计划项目(GJJ190232、GJJ210452); 江西省教育厅科学技术研究重点项目(GJJ210402)
作者单位
李 娜, 袁成福, 罗凤春, 胡龙颂, 周昌明, 王艳艳 (江西农业大学 国土资源与环境学院 江西 南昌 330045) 
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中文摘要:
      基于江西省15个气象站点1958—2017年逐日气象数据,利用Penman-Monteith方法、Mann-Kendall趋势检验、气候倾向率和ArGIS空间插值分析等方法,分析了早稻和晚稻生育期内有效降雨量(Pe)、需水量(ETc)及需水量与有效降雨量耦合度(λ)时空分布特征。结果表明:江西省早稻和晚稻生育期内平均有效降雨量分别为186.69和119.26 mm,早稻和晚稻有效降雨量分别以1.00和1.31 mm/10a的平均速度增加,赣北有效降雨量及其上升趋势均大于赣南;早稻和晚稻生育期多年平均需水量分别为335.77和381.20 mm,早稻和晚稻需水量最大值均出现在赣州、吉安站附近区域,最小值均出现在庐山、修水站附近区域,早稻需水量和晚稻需水量变化趋势分别为-3.09和-7.95 mm/10a;早稻和晚稻需水量与有效降雨量耦合度多年平均值分别为0.57和0.33,早稻和晚稻耦合度均以0.01/10a呈不显著增加趋势。早稻和晚稻耦合度最大值均出现在庐山站,早稻和晚稻耦合度较小值均在赣州、吉安、南昌和波阳站,总体上,早、晚稻耦合度及耦合度倾向率均为赣北大于赣南,赣南地区水稻缺水情况比赣北更严重,尤其要关注赣南地区晚稻缺水情况,并做好水资源规划及制定灌溉措施。
英文摘要:
      The spatial and temporal distribution characteristics of effective rainfall (Pe), rice water requirement (ETc), and the coupling degree (λ) of ETc and Pe during early and late rice growth period were analyzed by Penman-Monteith method, Mann-Kendall trend test, climate tendency rate and ArcGIS spatial interpolation analysis based on the daily meteorological data of 15 meteorological stations in Jiangxi Province from 1958 to 2017. The results showed that the average Pe was 186.69 and 119.26 mm for early and late rice, respectively, and the Pe in early and late rice growth period increased at an average rate of 1.00 and 1.31 mm/10a, respectively. The Pe in northern Jiangxi and its upward trend rate were greater than those in southern Jiangxi. The average ETc in early and late rice growth period was 335.77 and 381.20 mm, respectively. The maximum ETc in early rice and late rice both appeared in the area near Ganzhou and Ji’an station, the minimum ETc in both appeared in the vicinity of Lushan and Xiushui station. The ETc in early and late rice growth period presented a climate tendency rate of -3.09 and -7.95 mm/10a, respectively. The inter-annual average coupling degree of ETc and Pe in early and late rice growth period was 0.57 and 0.33, respectively, the coupling degree of ETc and Pe in early and late rice growth period showed an insignificant increase at a rate of 0.01/10a. The maximum coupling degree of ETc and Pe in early and late rice growth period both appeared in Lushan Station, while the smaller coupling degree appeared in Ganzhou, Ji’an, Nanchang and Boyang Station. On the whole, the coupling degree of ETc and Pe and its climate tendency rate in northern Jiangxi was greater than that in southern Jiangxi, but the water shortage of rice in southern Jiangxi was more severe than that in northern Jiangxi. Hence, special attention should be paid to water shortage of late rice in southern Jiangxi, in the meantime, further efforts on water resources planning and irrigation schemes are required.
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