Effect of Integration of Fertilizer and Green Manure Nitrogen on Yield Attributes, Nitrogen Uptake and Yield of Lowland Rice (Oryza sativa L.)

Field experiments were conducted at Tamil Nadu Rice Research Institute, Aduthurai, India, during the wet seasons of 1992 and 1993 to study the effect of full and partial substitution of fertiliser N with green manure N (Sesbania rostrata) on nitrogen uptake, yield attributes and yield of rice. The experiment consisted of eight treatments with two levels of N (100 and 200 kg ha⁻¹) and three sources of N application viz., fertilizer, integrated (1:1 fertilizer and green manure N) and green manure N compared to the recommended practice (150 kg fertilizer plus 6.25 t ha⁻¹ (72 kg N) green manure) and a no N control. Nitrogen application markedly increased the N uptake. Combined use of the two N sources at 200 and 222 kg N ha⁻¹ and of single fertilizer N at 200 kg N ha⁻¹ recorded the maximum N uptake, increased the yield attributes such as number of panicles per unit area, weight per panicle, number of total and filled grains per panicle and test weight. At 200 kg N ha⁻¹ full substitution of N by green manure reduced the grain yield but only partial substitution of N by green manure resulted in almost similar yield as single fertilizer N. Thus 200 kg N ha⁻¹ applied in equal proportions of fertilizer and green manure N can be recommended for medium duration rice cultivars.     

叶面喷施锌肥对小麦产量和效益的影响

以烟农19为试材,以喷施清水为对照,进行了锌肥不同时期和用量对小麦产量和效益的影响。结果表明：小麦施锌后产量提高,其中以苗期和拔节期各喷1次效果最好。     

施肥对贵南县轻度退化草甸植被特征的影响

草地退化已严重影响青藏高原高寒牧区畜牧业的发展,施肥是改良轻度退化草地的常用措施。2011-2012年,本研究以贵南县轻度退化草地为研究对象,2011年施加不同氮肥量（0,60,105,150,195和240 kg·hm^-2）和菌肥（45 m³·hm^-2）,探讨施肥在退化草地治理过程中对草地群落盖度、高度和地上生物量的影响。结果表明：施肥处理能够有效提高轻度退化草地植被群落的盖度、高度和总地上生物量,且施肥后次年轻度退化草地群落的盖度、高度和总地上生物量显著（P<0.05）优于当年。45 m³·hm^-2菌肥处理在当年的效果较好,195 kg·hm^-2氮肥处理在次年更佳,2012年7-10月地上总生物量均为最高,分别比不施肥处理分别高出44.3%,97.1%,123.0%和135.4%。不同草种对施肥的响应也不同,195 kg·hm^-2氮肥处理下,2011年禾草地上生物量较高,2012年莎草生物量高于禾草。综上,195 kg·hm^-2尿素施用量配合围栏封育的措施可用于贵南县轻度退化草地的植被恢复。     

京郊露地蔬菜平衡施肥产量和养分数据库的建立

蔬菜施肥推荐需要了解作物的养分需求和收获部分带走的养分量。根据京郊地区露地蔬菜生产的调查结果,结合已有的相关文献和专家意见,建立了京郊露地主要栽培蔬菜的包括目标产量、经济产量、残茬产量、养分需求量、经济产量部分养分含量、作物残茬养分含量等内容的数据库。     

不同施氮、钾肥量和种植密度对茭白产量的影响

采用二次通用旋转组合设计研究了不同施氮、钾量及种植密度对秋茭、夏茭的有效分蘖数、单茭重及产量的影响.结果表明,对秋茭施氮量16～18 kg/667 m2、施钾量17～18 kg/667 m2、种植密度0.7～0.8 m2/穴最为适宜;对夏茭施氮量控制在9～10 kg/667 m2,增施钾肥,种植密度维持在0.7～0.8 m2/穴较为适宜.     

海南荔枝主产区果园土壤养分状况分析

调查分析海南荔枝主产区荔枝园土壤养分状况,为荔枝的养分管理与合理施肥提供理论依据和科学指导。选择具有一定种植规模、有代表性的荔枝园 49 个,采集0~30 cm土层土壤样品进行养分丰缺状况的测试分析各种性质。结果表明,海南荔枝园土壤pH大部分呈酸性,16.3 % 荔枝园土壤pH适宜荔枝生长,土壤阳离子交换量为中等水平,63.3 % 果园土壤有机质含量处于适宜值及以上;土壤全氮、碱解氮、有效磷、速效钾含量丰富;土壤交换性钙、有效硫含量丰富,42.7 % 果园土壤交换性镁含量缺乏,4.1 % 果园极缺乏;土壤微量元素铁、锰、铜、锌、钼含量较为丰富,但73.5 % 果园土壤有效硼含量低于适宜值。不同产区荔枝园土壤养分状况存在差异,海口果园土壤有机质和有效养分氮、钾、钙、镁含量最高,约2/3产区果园土壤偏缺交换性镁,仅海口、澄迈、定安土壤交换性镁含量在适宜值以上,各产区荔枝园土壤有效铁、锰、铜、锌、钼微量元素丰富,土壤有效硼在琼海果园含量丰富,澄迈、万宁、陵水、儋州、白沙荔枝园土壤有效硼偏缺。综合分析可知,各产区土壤肥力由高到低依次为：海口>定安>澄迈>文昌>琼海>儋州>万宁>陵水>白沙。综上所述,海南荔枝园应根据土壤养分情况平衡施肥,改良土壤酸度,增施有机肥,重视镁、硼肥施用,适当减施化肥以获得更好的产量效应。     

‘王林’苹果苦痘病的防治试验

近几年来‘王林’苹果苦痘病的发病率较高,为了探索防治办法,2018—2019年在瓦房店市驼山乡大魏村‘王林’苹果园进行施用“聚能螯合钙+硅”+生物有机肥试验。结果表明:第1年好果率达到90.2%,比对照提高15.0%;第2年分别为96.82%、22.23%。病果的病斑数也明显减少。     

稀土肥料对紫花苜蓿产草量影响的研究

通过7种稀土肥料处理对二年龄和三年龄苜蓿产草量的影响研究,结果表明不同稀土肥料对紫花苜蓿的增产效果差异显著,其中大丰收(氨基酸螯合稀土)、植物全营养素(巨源)、常乐益植素对苜蓿产量的提高效果最显著,稀土磷肥增产不明显。     

三峡库区不同农业经营模式的肥料投入评估及其变化特征

农村生态环境在农村发展中的地位日益突出,研究农业生产转型过程中不同农业经营模式农资投入对解析农村生态环境中非点源污染负荷有重要启示,同样有助于针对性地制定控制面源污染的方案。采用PRA(Participatory Rural Appraisal)方法,抽样采集三峡库区重庆段农业经营主要农作物肥料投入情况,根据整理调研材料、综合评估调研结果划分研究区农业生产经营模式为:一般散户、种植大户、公司企业、养殖大户、种养大户、合作社。核算不同经营模式单位面积肥料投入,确定研究区不同经营模式下用肥量与结构的变化特征。研究结果表明:1)研究区肥料用量总量在1997年到2011年间呈递增趋势,复合肥近年增速明显;2)不同经营模式用肥结构间存在差异,一般散户、养殖大户、种养大户这3种经营模式与种植大户、公司企业、合作社这3种经营模式各自内部又存在相似性,前者常规用肥比例较大,而后者在有机肥、高钾复合肥等肥料的用量及比例方面较高;3)研究区用肥结构以常规肥料为主,其中氮、磷折纯量单位面积投入为一般散户、养殖大户较种植大户、公司企业、养殖大户、种养大户、合作社显著高;4)农户种植结构因经营模式而异,一般散户、养殖大户、种养大户以传统的农作物玉米、水稻、红苕、土豆为主,表现为"小而全"的特性;而种植大户、公司企业、合作社则在技术支撑的前提下表现为以市场为导向、生产特定高附加值农产品。三峡库区重庆段不同农业经营模式中主要农作物单位面积用肥折纯量大小为玉米蔬菜土豆其他作物红苕果木园林水稻。     

Effective nitrification inhibitors may improve fertilizer recovery in irrigated cotton

N fertilizer is often poorly recovered in irrigated cotton production, due to N loss through denitrification. We researched the ability of inhibitors to delay nitrition and reduce the availability of NO₃ ^- to denitrifying microorganisms and thus improve N fertilizer recovery, 2-Ethynylpyridine, etridiazole, and nitrapyrin proved highly effective nitrification inhibitors, although nitrification was evident several weeks after their application. CaC₂ was relatively ineffective, even when wax-coated to prolong the evolution of C₂H₂. Phenylacetylene and ethynylcyclohexanol were also ineffective, despite having a chemical structure similar to 2-ethynylpyridine. A strong association was identified between each compound's ability to inhibit nitrification and its capacity to improve N fertilizer recovery. In one experiment, N fertilizer recovery was increased by 50% with 2-ethynylpyridine, etridiazole, or nitrapyrin application, from 33% without inhibitors. The inhibitors had little effect on fertilizer recovery where N losses were relatively small. 3-Methyl pyrazole significantly increased N uptake and lint yield, but the nitrification inhibitors had no significant effect on N uptake or on yield in two of the three of the cotton crops. A laboratory study confirmed that nitrification inhibitor effectiveness declined in the order 2-ethynylpyridine>etridiazole>nitrapyrin>3-methyl pyrazole>phenylacetylene>CaC₂>ethynylcyclohexanolThis research was conducted at Australian Cotton Research Institute, CSIRO Division of Plant Industry, Locked Bag 59, Narrabri, NSW 2390, Australia