长江流域资源与环境 >> 2015, Vol. 24 >> Issue (03): 504-.doi: 10.11870/cjlyzyyhj201503022

• 长江中游低湿地作物研究专题 • 上一篇    下一篇

湖北省主要植烟区土壤肥力状况及分析

邹娟,鲁剑巍,周先竹,鲁明星   

  1. (1. 长江大学农学院湿地生态与农业利用教育部工程研究中心,湖北 荆州 434025;2. 华中农业大学资源与环境学院,湖北 武汉 430070;3. 湖北省土壤肥料工作站,湖北 武汉 430070
  • 出版日期:2015-03-20

EVALUATION OF SOIL FERTILITY IN TOBACCOGROWING AREAS IN HUBEI PROVINCE

ZOU Juan1, LU Jianwei2, ZHOU Xianzhu3, LU Mingxing3   

  1. (1. College of Agronomy, Engineering Research Center of Wetland Agriculture in the Central Yangtze, Ministry of Education, Yangtze University, Jingzhou 434025, China; 2. College of Resources and Environment, Huazhong Agricultural University, Wuhan, 430070, China; 3. Soil and Fertilizer Station of Hubei Province, Wuhan 430070, China)
  • Online:2015-03-20

摘要:

2005年以来测土配方施肥项目获取了大量土壤数据,通过对湖北省2009和2010年所获取的植烟区土壤养分数据进行抽样分析,并划分以十堰为核心的环神农架、以恩施为核心的鄂西南、神农架及以襄阳、宜昌为核心的鄂西北4个烟区,分别探讨不同烟区、不同土壤类型植烟土壤养分丰缺状况。结果表明,目前湖北省烟区土壤pH值、有机质、碱解氮、有效磷和速效钾含量分别为62、233 g/kg、1097 mg/kg、195 mg/kg和1236 mg/kg;569%的土壤pH适宜烟草生长,617%的土壤有机质含量在15~35 g/kg,土壤碱解氮、有效磷和速效钾缺乏面积分别为481%、363%和574%;各养分元素在不同烟区的分布存在一定差异,土壤pH以鄂西南最低,有机质含量鄂西南及神农架烟区明显高于环神农架和鄂西北地区,土壤碱解氮、有效磷含量鄂西南明显高于其余3个烟区,而土壤速效钾含量又以鄂西南烟区最低;湖北省烟区90%以上土壤为黄棕壤、水稻土、黄壤、石灰土、紫色土和棕壤,其中棕壤肥力水平较高,紫色土有机质及碱解氮含量低,水稻土有效磷和速效钾含量低。本研究还说明,充分利用测土配方施肥项目的资料对土壤养分数据进行系统分析,可全面掌握区域性土壤肥力现状并能指导科学施肥

Abstract:

Through the project of soil testing and fertilizer recommendation from Ministry of Agriculture, a lot of data about soil fertility were acquired. Based on the data obtained in 2009 and 2010, current situation of the soil fertilities in tobaccogrowing regions in Hubei province were systematic analyzed. Tabacco growing areas were divided into four regions, I. surrouding Shennongjia, mainly including Shiyan; II. the southwest of Hubei around Enshi; III. Shennongjia region; IV. the northwest of Hubei mainly including Xiangyang and Yichang. The purpose of research is to clarify soil nutrient abundant and deficient status in different tobaccogrowing regions and soil types in Hubei province. Results indicated that presently tobaccogrowing soil in Hubei province were 62 on average in pH, 233 g/kg on average in organic matter, 1097 mg/kg on average in alkalystic N, 195 mg/kg on average in available P and 1236 mg/kg on average in available K, respectively. The pH of 569% soil was in range of 50-70 which was suitable for tobacco growth. In addition, the concentrations of soil organic matter of 617% samples were in range of 15-35 g/kg. Among all the soil samples, 481 percent showed alkalystic N less than 100 mg/kg, 363 percent of soils showed available P less than 10 mg/kg and 574 percent showed available K less than 120 mg/kg, and they were at deficient level in alkalystic N, available P or available K. The soil nutrients varied to a varying extent from region to region. Soil pH on average was the lowest in the southwest of Hubei around Enshi and highest in surronding Shennongjia and Shennongjia regions. Soil organic matter was significantly higher in the southwest of Hubei and Shennongjia regions than surrounding Shennongjia and the northwest of Hubei. Soil alkalystic N and available P in the southwest of Hubei averaged 1369 mg/kg and 230 mg/kg, respectively, 〖JP2〗that were obviously higher than in other three regions. Soil available K was just opposite, that in I to IV regions were 1240 mg/kg, 1167 mg/kg, 1339 mg/kg and 1290 mg/kg on average, respectively. It means that available K of soil in the southwest of Hubei was the lowest among these four tobaccogrowing regions. Main soil types of tobaccogrowing areas in Hubei province were yellow brown soil, paddy soil, yellow soil, limy soil, purple soil and brown soil. The six soil types represent more than 90 percent of tobaccogrowing soil in Hubei province. Because of different conditions and soil forming parent materials, the soil nutrients contents in different soil types were significant difference. The results also revealed that soil fertility of brown soil was higher than other five soil types with 343 g/kg on average in soil organic matter, 1403 mg/kg on average in alkalystic N, 256 mg/kg on average in available P and 1751 mg/kg on average in available K, respectively. The average value of soil organic matter and alkalystic N in purple soil were lowest with 175 g/kg and 963 mg/kg. Available P and available K of soil in paddy soil were 176 mg/kg and 1012 mg/kg on average, which is the lowest value among the six soil types. The study aslo showed that by making full use of the data of the project of soil testing and fertilizer recommendation and conducting systematic analysis of the soil nutrient data, it is feasible to obtain the status quo of soil fertility of a region and provide a scientific and reasonable guidance for fertilization. 

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