施磷量对旱地小麦氮磷钾和干物质积累及产量的影响

王荣辉; 王朝辉; 李生秀; 王西娜; 李华

王荣辉,王朝辉,李生秀,王西娜,李华.施磷量对旱地小麦氮磷钾和干物质积累及产量的影响[J].干旱地区农业研究,2011,29(1):115~121

施磷量对旱地小麦氮磷钾和干物质积累及产量的影响

Effects of P rates on N P K and dry matter accumulation and grain yield of winter wheat

DOI：10.7606/j.issn.1000-7601.2011.01.21

中文关键词: 施磷量冬小麦产量水分氮磷钾

英文关键词:P rates winter wheat yield water nitrogen phosphorus potassium

基金项目:国家自然科学基金项目（30871596）；现代农业产业技术体系建设专项；西北农林科技大学“创新团队建设计划”

作者	单位
王荣辉	西北农林科技大学资源环境学院，陕西杨凌 712100；广东省农业科学院土壤肥料研究所，广东广州 510640
王朝辉	西北农林科技大学资源环境学院，陕西杨凌 712100
李生秀	西北农林科技大学资源环境学院，陕西杨凌 712100
王西娜	西北农林科技大学资源环境学院，陕西杨凌 712100
李华	西北农林科技大学资源环境学院，陕西杨凌 712100

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中文摘要:

针对目前农业生产中存在的施肥增产效应下降问题，研究了磷肥用量对冬小麦养分、氮磷钾和干物质积累及产量的影响，以期为高产高效施肥提供依据。在黄土高原旱地进行田间试验，设不施磷，施磷 P₂O₅ 50 kg/hm²（不足）、P₂O₅ 100 kg／hm²（适量）和P₂O₅ 150 kg/hm²（高量）4个水平，在不同生长期采样测定冬小麦植株生物量、水分及氮磷钾养分含量。结果表明，生物量提高是适量施磷冬小麦籽粒产量增加的主要原因；适量施磷和高量施磷时，生长后期的水分损失分别为植株最大累积量的82%和86%、氮素损失占26%和34%、磷素占2%和13%、钾素占56%和60%。可见，高量施磷使生长后期作物的生物量、水分、氮磷钾养分损失增加，从而导致了冬小麦产量降低，施肥增产效应降低。

英文摘要:

In order to explain the phenomenon of the decrease of crop yield-increasing effects caused by over fertilizer application commonly existing in present agricultural production in China, this paper focused on the effects of P rates on N, P, K and dry matter accumulation and grain yield of winter wheat. A field experiment was carried out with winter wheat as test crop and at P rates of 0, 50 (deficient), 100 (optimum) and 150 (excessive) P₂O₅ kg/hm². The aboveground part of the crop was sampled at different stages to estimate the crop biomass and to determine the content of water, N, P and K in different plant parts. Furthermore, the relationship between grain yield and biomass accumulation, water and nutrient uptake in the plant was discussed. The obtained results showed that no significant difference was found for the harvest indexes over different P rates. One of the main reasons for the increase of grain yield caused by optimum P rates was owing to the increased biomass accumulation, but not the increased translocation of dry matter from vegetative part to grain at late growth stages. Excessive P application was observed to increase dry matter losses during late growth stages at 8 364 kg/hm², which accounted for 39% of m aximum biomass accumulation and was 22% higher than that at optimum P application. The water accumulation rate at rejoining stage was 989 kg/(hm²·d) at optimum P rates, while is 902 kg/(hm²·d) at excessive P rate. However, water lo ss was 86% of maximum water accumulation at excessive P rates, which was 82% at optimum P rates during the late growth stages. Application of P promoted nutrient uptake at early growth stages, but also increased the nutrient losses at late growth stages with the increase of P rates. Compared to the maximum nutrient accumulation, the losses were 26% and 34% for N, 2% and 13% for P, and 26% and 34% for K, respectively at optimum and excessive P application. Excessive P application could not only decrease water accumulation at early growth stages, but also increase the losses of biomass, water, N, P and K at the late growing stages, and therefore led to a decrease of grain yield of winter wheat.

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