河南农业科学
河南農業科學
하남농업과학
JOURNAL OF HENAN AGRICULTURAL SCIENCES
2015年
8期
50-54
,共5页
牛世伟%宫亮%蔡广兴%何志刚%陈玥%刘子琪%隋世江
牛世偉%宮亮%蔡廣興%何誌剛%陳玥%劉子琪%隋世江
우세위%궁량%채엄흥%하지강%진모%류자기%수세강
辽河流域%种植区%地下水%硝态氮
遼河流域%種植區%地下水%硝態氮
료하류역%충식구%지하수%초태담
Liao river basin%planting area%underground water%nitrate nitrogen
以辽河流域典型种植区为研究区域,对其地下水硝态氮含量进行分析,为合理施肥及有效防控种植区地下水硝态氮含量超标提供理论依据。结果表明,辽河流域不同典型种植区地下水硝态氮含量差异明显,具体表现为花卉种植区(37.4 mg/L)>玉米种植区(22.3 mg/L)>蔬菜种植区(21.9 mg/L)>水稻种植区(19.2 mg/L),各典型种植区地下水硝态氮含量除水稻种植区外都超标,但水稻种植区地下水硝态氮含量变异系数较大,有超标的风险;地下水硝态氮含量超标率差异也较明显,其中玉米种植区超标率为12.5%~87.5%,水稻种植区为9.4%~75.5%,蔬菜种植区为17.9%~58.9%,花卉种植区为21.4%~96.0%。另外,对于同一井深,不同种植区地下水硝态氮含量总体均表现为雨季前>雨季后。
以遼河流域典型種植區為研究區域,對其地下水硝態氮含量進行分析,為閤理施肥及有效防控種植區地下水硝態氮含量超標提供理論依據。結果錶明,遼河流域不同典型種植區地下水硝態氮含量差異明顯,具體錶現為花卉種植區(37.4 mg/L)>玉米種植區(22.3 mg/L)>蔬菜種植區(21.9 mg/L)>水稻種植區(19.2 mg/L),各典型種植區地下水硝態氮含量除水稻種植區外都超標,但水稻種植區地下水硝態氮含量變異繫數較大,有超標的風險;地下水硝態氮含量超標率差異也較明顯,其中玉米種植區超標率為12.5%~87.5%,水稻種植區為9.4%~75.5%,蔬菜種植區為17.9%~58.9%,花卉種植區為21.4%~96.0%。另外,對于同一井深,不同種植區地下水硝態氮含量總體均錶現為雨季前>雨季後。
이료하류역전형충식구위연구구역,대기지하수초태담함량진행분석,위합리시비급유효방공충식구지하수초태담함량초표제공이론의거。결과표명,료하류역불동전형충식구지하수초태담함량차이명현,구체표현위화훼충식구(37.4 mg/L)>옥미충식구(22.3 mg/L)>소채충식구(21.9 mg/L)>수도충식구(19.2 mg/L),각전형충식구지하수초태담함량제수도충식구외도초표,단수도충식구지하수초태담함량변이계수교대,유초표적풍험;지하수초태담함량초표솔차이야교명현,기중옥미충식구초표솔위12.5%~87.5%,수도충식구위9.4%~75.5%,소채충식구위17.9%~58.9%,화훼충식구위21.4%~96.0%。령외,대우동일정심,불동충식구지하수초태담함량총체균표현위우계전>우계후。
The contents of nitrate nitrogen( NO3--N) in underground water from typical planting areas in Liao river basin were analyzed,so as to provide theoretical basis for rational fertilization and effectively provent the NO3--N content from exceeding standard. The results showed that difference of the contents of NO3--N in groundwater from different typical planting areas was significent. The highest content of NO3--N in underground water was 37. 4 mg/L from flower-growing region,then 22. 3 mg/L from maize-growing region,21. 9 mg/L from vegetable-growing region,and the lowest content of NO3--N in underground water was 19. 2 mg/L from rice-growing region. Except rice-growing region,the contents of NO3--N in under-groundwater of the samples in all planting areas were exceeding standard limit; potential health risk still existed in rice-growing region. Accordingly 12. 5%—87. 5%,9. 4%—75. 5%,17. 9%—58. 9% and 21. 4%—96. 0% of the samples were exceeding standard limit in maize growing region, rice-growing region,vegetable-growing region and flower-growing region. The contents of NO3--N in under-groundwater before the rainy season was higher than that of NO3--N in under-groundwater after the rainy season at the same depth of the well.
