农业工程学报
農業工程學報
농업공정학보
2013年
15期
83-90
,共8页
陈碧华%孙丽%李新峥%王广印%李亚灵
陳碧華%孫麗%李新崢%王廣印%李亞靈
진벽화%손려%리신쟁%왕엄인%리아령
耕种%土壤%pH值%种植年限%大棚菜田%土壤肥力%盐渍化
耕種%土壤%pH值%種植年限%大棚菜田%土壤肥力%鹽漬化
경충%토양%pH치%충식년한%대붕채전%토양비력%염지화
cultivation%soils%pH%cultivating years%vegetable field%soil fertility%salinization
为了研究大棚菜田土壤养分及盐分演变特征,采集了不同种植年限(0、5、10、15、20、25、30 a)的大棚菜田0~20、>20~40 cm土壤样品,测定了主要土壤养分指标、水溶性盐分以及土壤pH值。结果表明:新乡市大棚菜田土壤的培肥期在0~15 a,培肥后(15 a)土壤有机质质量分数在30 g/kg以上,达到较理想状态,碱解氮和速效磷含量表现为富集,质量分数分别在150、90 g/kg以上。但是速效钾却在100 g/kg以下,较缺乏,并且15 a以后还在继续流失。各养分含量随着土壤深度的增加逐渐下降。土壤碱解氮、速效磷含量与有机质呈极显著相关。新乡市大棚菜田土壤中氮磷钾的比例严重失调,出现磷素过量而钾素供应严重不足。土壤盐渍化从大棚种植15 a开始发生,与种植年限呈极显著正相关,并且与土壤pH值下降表现同步性。该研究结论期望给新乡市蔬菜大棚土壤的施肥决策提供参考。
為瞭研究大棚菜田土壤養分及鹽分縯變特徵,採集瞭不同種植年限(0、5、10、15、20、25、30 a)的大棚菜田0~20、>20~40 cm土壤樣品,測定瞭主要土壤養分指標、水溶性鹽分以及土壤pH值。結果錶明:新鄉市大棚菜田土壤的培肥期在0~15 a,培肥後(15 a)土壤有機質質量分數在30 g/kg以上,達到較理想狀態,堿解氮和速效燐含量錶現為富集,質量分數分彆在150、90 g/kg以上。但是速效鉀卻在100 g/kg以下,較缺乏,併且15 a以後還在繼續流失。各養分含量隨著土壤深度的增加逐漸下降。土壤堿解氮、速效燐含量與有機質呈極顯著相關。新鄉市大棚菜田土壤中氮燐鉀的比例嚴重失調,齣現燐素過量而鉀素供應嚴重不足。土壤鹽漬化從大棚種植15 a開始髮生,與種植年限呈極顯著正相關,併且與土壤pH值下降錶現同步性。該研究結論期望給新鄉市蔬菜大棚土壤的施肥決策提供參攷。
위료연구대붕채전토양양분급염분연변특정,채집료불동충식년한(0、5、10、15、20、25、30 a)적대붕채전0~20、>20~40 cm토양양품,측정료주요토양양분지표、수용성염분이급토양pH치。결과표명:신향시대붕채전토양적배비기재0~15 a,배비후(15 a)토양유궤질질량분수재30 g/kg이상,체도교이상상태,감해담화속효린함량표현위부집,질량분수분별재150、90 g/kg이상。단시속효갑각재100 g/kg이하,교결핍,병차15 a이후환재계속류실。각양분함량수착토양심도적증가축점하강。토양감해담、속효린함량여유궤질정겁현저상관。신향시대붕채전토양중담린갑적비례엄중실조,출현린소과량이갑소공응엄중불족。토양염지화종대붕충식15 a개시발생,여충식년한정겁현저정상관,병차여토양pH치하강표현동보성。해연구결론기망급신향시소채대붕토양적시비결책제공삼고。
The production history of greenhouse was more than 30 years in Muye vegetable production base in Henan Xinxiang. The main planting pattern of this region was wheat and maize rotation before building a greenhouse, but now it is the production of cucumbers and tomatoes in a greenhouse in spring and autumn. In order to study the evolution characteristics of soil fertility and salt of the vegetable field in the greenhouse, the soil sample of the vegetable field in the greenhouse (0-20,>20-40 cm) in different cultivating years (0, 5, 10, 15, 20, 25, and 30) were collected and the main soil fertility index and soluble salt and soil pH values were measured. The results showed that the fertilization period of plastic house soil in Xinxiang is usually around 15 age of cultivating where the content of organic matter therein is ideal, exceeding 30 g/kg. However, at the 15th cultivating years, the contents of alkali-hydrolyzable nitrogen and rapidly available phosphorus are slightly high, exceeding 150 and 90 mg·kg-1 respectively. Regarding the quantity of rapidly available potassium, the soil is in serious shortage of rapidly available potassium whose content is lower than 100 mg/kg, and this continues to decline after 15 cultivating years. The contents of nutrients decline as the depth of soil rises. The contents of organic matter, alkali-hydrolyzable nitrogen, and rapidly available phosphorus in soil of 0-20 cm in depth are 33%, 39.79%, and 18%higher than their contents in soil of 20-40 cm in depth. Judging from the contents of nitrogen phosphorus potassium in soil, plastic houses of different cultivating years are all in serious shortage of potassium, having an oversupply of phosphorus. Hence, great attention should be paid to the fertilization management of plastic house soil in Xinxiang city. The salinization speed of plastic house vegetable field soil slows down within the first 15 years of plantation, and it reaches 0.3%and exceeds the critical value of 0.296%at the 15th cultivating year. Then the salinization speed rises at an annual speed of 0.05%/a during the cultivating period from 15 to 30 years. Changes of contents of SO42-, NO3-, Cl-, K+, and Na+ agree with the change of content of water soluble salt, comprising of the main element of salt ions. The content of SO42-goes up stably at an annual speed of 33 mg/kg after cultivating of vegetables, and it always exceeds 43% of the total content of salt ions, becoming the ion leading to salinization of soil by the largest margin. pH value of the soil declines by approximately 0.03 each year after cultivating, but stays above 7.0 all the time without any occurrence of soil acidification. The analysis indicates that soil salinization tends to synchronize with a decline of pH value of soil, which directly resulted from the application of a large amount of fertilizer. The research conclusions tend to provide a theoretical basis for fertilization decisions of the vegetable greenhouse soil of Xinxiang.