%0 Journal Article
%T 东北黑土区长期不同磷肥施用量对大豆生长及产量的影响<br>The effect of different dosage of phosphorous fertilizer application on growth and yield of soybean in a Mollisol in Northeast China
%A 赵家煦
%A 张一鹤
%A 韩晓增
%A 邹文秀
%A 陆欣春
%A 严君
%A 丁娇
%J 干旱地区农业研究
%D 2018
%R 10.7606/j.issn.1000-7601.2018.05.18
%X 以中国科学院海伦生态实验站的长期定位试验为基础，分析了不同磷肥施用量包括对照（CK）、低磷处理（25.58 P2O5 kg·hm-2，N1P1K）、中磷处理（51.75 P2O5 kg·hm-2，N1P2K）和高磷处理（77.65 P2O5 kg·hm-2，N1P3K）对大豆生长、结瘤及产量的影响。结果表明:不同处理对大豆株高和生物量的影响表现为N1P3K>N1P2K>N1P1K>CK（鼓粒期株高除外），说明当前黑土磷素水平下，磷肥的施用能够显著促进大豆植株的生长；与CK，N1P1K和N1P2K相比，N1P3K苗期的根瘤数量和根瘤干重分别增加了56.7%~152.8%和87.4%~463.1%；与CK相比，N1P3K和N1P2K处理固氮酶活性分别增加了74.0%和94.0%；大豆的单株荚数和单株粒数均表现为随着磷肥施用量的增加而增加，虽然百粒重和产量表现出了相似的趋势，但是N1P3K和N1P2K处理之间没有显著差异（P>0.05），说明过多磷肥的施用在东北黑土区对大豆增产效果不明显。因此，在东北黑土区在考虑生产成本、大豆产量等因素的情况下，建议适宜的磷肥施用量为N1P2K，即磷肥的施用量为51.25 P2O5 kg·hm-2。<br>The effect of P fertilizer dosage, including no fertilizer (CK), low P treatment (25.58 P2O5 kg·hm-2, N1P1K), medium P treatment (51.75 P2O5 kg·hm-2, N1P2K) and High P treatment (77.65 P2O5 kg·hm-2, N1P3K) on growth, nodulation and yield of soybean was investigated based on a long-term experiment in Hailun Ecological Experimental Station, Chinese Academy of Sciences. The results showed that the effect of different treatment on plant high and biomass of soybean ranked as N1P3K>N1P2K>N1P1K>CK with exception of plant height in seed filling stage. The nodule number and nodule weight of seedling stage under N1P3K treatment had increased significantly,by 56.7%~152.8% and 87.4%~463.1% respectively, compared with CK, N1P1K and N1P2K treatments, Nitrogenase activity under N1P2K and N1P3K treatments had increased by 74.0% and 94.0% compared with CK. Pod number per plant and seed number per plant both were increasing with the increased dosage of P fertilizer application. No significant difference was observed in 100[CD*2]seed weight and yield under N1P2K and N1P3K treatments, although P fertilizer application had increased 100-seed weight and yield of soybean, indicating that overdose of P fertilizer application has no significant effect on yield increase. Therefore, recommended amount of P fertilizer application was 51.25 P2O5 kg·hm-2 in a Mollisol in Northeast China in consideration of factors such as product cost, soybean yield and so on.
%K 磷肥
%K 施肥量 大豆
%K 根瘤
%K 产量 东北黑土区&lt
%K br&gt
%K phosphorous fertilizer fertilizationdosage soybean nodule yield mollisol in northeast china
%U http://ghdqnyyj.ijournal.cn/ghdqnyyj/ch/reader/view_abstract.aspx?file_no=20180518&flag=1