宁夏农林科技
寧夏農林科技
저하농림과기
Ningxia Journal of Agriculture and Forestry Science and technology
2015年
8期
3-6
,共4页
崔银萍%罗健航%吴涛%冒海军%陈晓群%张学军
崔銀萍%囉健航%吳濤%冒海軍%陳曉群%張學軍
최은평%라건항%오도%모해군%진효군%장학군
有机无机配施%花椰菜—白菜%产量%氮素吸收%无机氮残留
有機無機配施%花椰菜—白菜%產量%氮素吸收%無機氮殘留
유궤무궤배시%화야채—백채%산량%담소흡수%무궤담잔류
Combined application of organic-inorganic fertilizers%Broccoli and Chinese cabbage%Yield%N uptake%Soil Nmin residual
2012—2014年在宁夏引黄灌区开展有机无机配施对露地花椰菜—大白菜产量、氮素吸收利用影响及其氮肥合理投入阈值研究.结果表明:2012—2014年花椰菜和大白菜经济产量在不同施氮肥处理间存在显著差异.相对于N0处理,除MN0处理外,其他有机无机配施氮肥均可显著提高花椰菜和大白菜经济产量;2012年和2013年花椰菜当季氮肥利用率分别为30.8%~61.0%和23.8%~41.8%,大白菜的氮肥利用率分别为26.3%~54.7%和16.2%~50.0%;合理地配施有机无机肥能显著提高露地蔬菜的经济产量及对氮素的吸收利用.在花椰菜季,0~20 cm、0~100 cm土体Nmin累积量与施氮量都呈二次曲线关系,相关性都不高;而在2012—2014年大白菜季,0~20 cm、0~100 cm土体Nmin累积量与施氮量也都呈二次曲线关系,施氮量与土壤无机氮残留量相关性也不高;表明中高肥力田块土壤基础氮素累积较高,土体Nmin残留量并不完全和施氮量同步.
2012—2014年在寧夏引黃灌區開展有機無機配施對露地花椰菜—大白菜產量、氮素吸收利用影響及其氮肥閤理投入閾值研究.結果錶明:2012—2014年花椰菜和大白菜經濟產量在不同施氮肥處理間存在顯著差異.相對于N0處理,除MN0處理外,其他有機無機配施氮肥均可顯著提高花椰菜和大白菜經濟產量;2012年和2013年花椰菜噹季氮肥利用率分彆為30.8%~61.0%和23.8%~41.8%,大白菜的氮肥利用率分彆為26.3%~54.7%和16.2%~50.0%;閤理地配施有機無機肥能顯著提高露地蔬菜的經濟產量及對氮素的吸收利用.在花椰菜季,0~20 cm、0~100 cm土體Nmin纍積量與施氮量都呈二次麯線關繫,相關性都不高;而在2012—2014年大白菜季,0~20 cm、0~100 cm土體Nmin纍積量與施氮量也都呈二次麯線關繫,施氮量與土壤無機氮殘留量相關性也不高;錶明中高肥力田塊土壤基礎氮素纍積較高,土體Nmin殘留量併不完全和施氮量同步.
2012—2014년재저하인황관구개전유궤무궤배시대로지화야채—대백채산량、담소흡수이용영향급기담비합리투입역치연구.결과표명:2012—2014년화야채화대백채경제산량재불동시담비처리간존재현저차이.상대우N0처리,제MN0처리외,기타유궤무궤배시담비균가현저제고화야채화대백채경제산량;2012년화2013년화야채당계담비이용솔분별위30.8%~61.0%화23.8%~41.8%,대백채적담비이용솔분별위26.3%~54.7%화16.2%~50.0%;합리지배시유궤무궤비능현저제고로지소채적경제산량급대담소적흡수이용.재화야채계,0~20 cm、0~100 cm토체Nmin루적량여시담량도정이차곡선관계,상관성도불고;이재2012—2014년대백채계,0~20 cm、0~100 cm토체Nmin루적량여시담량야도정이차곡선관계,시담량여토양무궤담잔류량상관성야불고;표명중고비역전괴토양기출담소루적교고,토체Nmin잔류량병불완전화시담량동보.
A study was conducted on the effects of combined application of organic manure and chemical fertilizer on the yield, N uptake and utilization of the open-field broccoli and Chinese cabbage, and the reasonable input threshold of nitrogen fertilizer in the Yellow River Irrigation Area of Ningxia from 2012 to 2014. The results showed that the differences between the economic yields of the open-field broccoli and Chinese cabbage with different treatments of N fertilizer application were significant. In contrast to control (treatment N0) and except for the MN0 treatment, the other treatments with the combined application of organic manure and chemical fertilizer N could all significantly increase the economic yield of the open-field broccoli and Chinese cabbage. The N recovery efficiency (REN) of the broccoli was ranged from 30.8%~61.0% and 23.8%~41.8% in 2012 and 2013, respectively; and the corresponding REN of Chinese cabbage was 26.3%~54.7% and 16.2%~50.0%, respectively. The rational combined application of organic manure and chemical fertilizer could significantly increase the economic yields and N uptake and utilization of the open-field vegetables. In the broccoli season, the amounts of soil Nmin accumulation in 0~20 cm and 0~100 cm showed a quadric curve relationship with the N fertilizer application rates and the correlation was not high. In the Chinese cabbage season in 2012 to 2014, the amounts of soil Nmin accumulation in 0~20 cm and 0~100 cm also showed a quadric curve relationship with the N fertilizer application rates and the correlation between the N rate and the residual amount of soil inorganic nitrogen was also not high. It showed that on the middle and high fertility farmland the soil foundation nitrogen accumulation was high and the Nmin residual volume of the soil was not completely synchronized with the application of nitrogen.
