鸡粪沼液复合微生物有机肥在温室樱桃番茄上的应用效果研究

为了探讨鸡粪沼液复合微生物有机肥在樱桃番茄上的田间应用效果,在滴灌施肥的条件下,设置化肥和液体复合微生物有机肥两个处理进行对比应用,结果表明施用液体复合微生物有机肥的处理其单果重可提高39.69%,含糖量可提高11.94%,茎粗可提高8.76%,Vc含量可提高5.72%,产量可提高30.95%,节约成本1.32%,可有效促进作物生长,提高果实着色均匀度,提高作物抗病性。同时,土壤速效氮提高6.87%,土壤速效磷46.23%,土壤速效钾提高16.86%,有机质含量提高12.64%,为作物提供了良好的生长环境。说明液体复合微生物有机肥对作物产量、品质以及土壤改良均有显著的提升作用,具有一定的应用前景。     

肥料结构对红壤性水稻土氮磷钾养分状况的影响

本文论述了三种肥料结构对红壤性水稻土氮磷钾养分状况的影响。土壤中的生物学有效性氮、氨基酸态氮、氨基酸、速效磷和活性有机磷的含量变化趋势是,以作物残体+灶灰+猪粪+化肥处理>作物残体+灶灰+化肥处理>绿肥+化肥处理。在各处理中,土壤中速效钾和缓效钾的含量变化不大,但采取秸杆、灶灰、菜籽饼和猪粪还田的措施,在节约化学钾肥提高作物产量中起了良好作用。     

有机培肥土壤对优势流中养分淋失的影响

为研究有机培肥对土壤优势流中养分淋失的影响,采用原状土柱模拟淋溶的方法,对土壤优势流中养分淋失的情况进行研究.结果表明,土壤经有机培肥后,明显降低了优势流中各种养分的淋失速度,从而使养分的淋失总量减少,为未施秸秆处理的1/3左右.有机培肥土壤对于淋溶液中养分浓度的影响表现为,在淋溶液中养分浓度总体降低的同时,各种养分的浓度降低的幅度又有所不同,其中对水溶性K和铵离子的效果最明显,而对硝态氮（NO-3-N）保持作用则相对差些.上述结果说明,有机培肥对减少土壤优势流造成的土壤养分淋失以及降低地下水污染都有一定的作用.     

观赏植物养护专用缓释肥在3种植物上的应用研究初报

就一种新型观赏植物养护专用缓释肥在醉蝶花、罗汉松、莞香3种观赏植物上的应用效果进行初步探讨。结果表明:缓释肥可促进3种观赏植物的生长,与复合肥相比,该缓释肥具有肥效慢、肥效持续时间长、肥料利用效率高的特点。试验还发现,适量施用缓释肥可促进醉蝶花开花和延长开花期,且该缓释肥覆土施用要明显优于表土施用。     

Impact of inorganic nitrogen additions on microbes in biological soil crusts

Many studies have shown that changes in nitrogen (N) availability affect the diversity and composition of soil microbial community in a variety of terrestrial systems, but less is known about the responses of microbes specific to biological soil crusts (BSCs) to increasing N additions. After seven years of field experiment, the bacterial diversity in lichen-dominated crusts decreased linearly with increasing inorganic N additions (ambient N deposition; low N addition, 3.5 g N m⁻² y⁻¹; medium N addition, 7.0 g N m⁻² y⁻¹; high N addition, 14.0 g N m⁻² y⁻¹), whereas the fungal diversity exhibited a distinctive pattern, with the low N-added crust containing a higher diversity than the other crusts. Pyrosequencing data revealed that the bacterial community shifted to more Cyanobacteria with modest N additions (low N and medium N) and to more Actinobacteria and Proteobacteria and much less Cyanobacteria with excess N addition (high N). Our results suggest that soil pH, together with soil organic carbon (C), structures the bacterial communities with N additions. Among the fungal communities, the relative abundance of Ascomycota increased with modest N but decreased with excess N. However, increasing N additions favored Basidiomycota, which may be ascribed to increases in substrate availability with low lignin and high cellulose contents under elevated N conditions. Bacteria/fungi ratios were higher in the N-added samples than in the control, suggesting that the bacterial biomass tends to dominate over that of fungi in lichen-dominated crusts after N additions, which is especially evident in the excess N condition. Because bacteria and fungi are important components and important decomposers in BSCs, the alterations of the bacterial and fungal communities may have implications in the formation and persistence of BSCs and the cycling and storage of C in desert ecosystems.     

不同苜蓿根瘤菌固氮能力和黄酮变异研究

从重庆、安徽和新疆3个地区的宿主苜蓿上分别分离纯化出1个根瘤菌菌株。将3个菌株分别接种到WL323和阿尔冈金两个品种苜蓿上。分析不同处理的固氮能力和它们的芦丁的含量，以及黄酮含量和固氮的关系。结果表明：固氮能力、芦丁、黄酮含量都受到根瘤菌菌株、苜蓿品种和两者的相互作用影响；并且各组合的芦丁含量与固氮量之间成负相关，黄酮含量越高，固氮量越少。     

Fine root decomposition,nutrient mobilization and fungal communities in a pine forest ecosystem

Despite its importance to energy flow and nutrient cycling the process of fine root decomposition has received comparatively little detailed research. Disruption of the fine root-soil interface during preparation of root litterbags for decomposition studies could affect decay rates and nutrient mobilization in part by altering the community of decay organisms. We compared rates of decomposition and nutrient release from fine roots of pine between litterbags and intact cores and characterized the fungal community in the decomposing roots. Fine root decomposition was about twice as fast overall for intact cores than litterbags, and rapid mobilization of N and P was observed for roots in cores whereas nutrients were immobilized in litterbags. Fungal communities characterized using 454 pyrosequencing were considerably different between decaying roots in intact cores and litterbags. Most interesting, taxa from ectomycorrhizal fungal orders such as Boletales, Thelephorales and Cantharellales appeared to be more common in decaying roots from cores than litterbags. Moreover, the rate of N and P mobilization from decaying fine roots was highly correlated with taxa from two orders of ectomycorrhizal fungi (Thelephorales, Cantharellales). Although we caution that DNA identified from the decaying roots cannot be conclusively ascribed to active fungi, the results provide tentative support for a significant role of ectomycorrhizal fungi in decomposition and nutrient mobilization from fine roots of pine.     

有机与无机肥料对山地梨枣品质的影响

设置不同无机肥料(氮肥、磷肥、钾肥和氮磷钾混合肥施用)、不同有机肥(沼肥和腐熟油渣肥)和不施肥(对照),研究不同施肥方法对梨枣的水分含量,总糖、可溶性固形物、还原型抗坏血酸和总抗坏血酸、质构特性以及有机酸的影响。结果表明:肥料对梨枣的水分含量没有显著性影响,显著降低了梨枣的苹果酸,柠檬酸和有机酸总含量。有机肥沼肥和腐熟油渣肥可显著提高梨枣的果皮果肉硬度和咀嚼性以及可溶性固形物、总糖含量、抗坏血酸含量,酒石酸含量却显著降低。无机肥料氮肥、磷肥、钾肥中,钾肥有利于梨枣的可溶性固形物、总糖、抗坏血酸,苹果酸和柠檬酸的含量积累,而酒石酸含量却减少。表明增施有机肥和钾肥有利于山地梨枣品质的提高。     

五种叶面喷施剂对茶树增产效应的对比试验

2011年在飞竹镇梧桐村茶园内,用茶丰素、茶博士、茶叶催芽素、磷酸二氢钾、尿素等五种叶面喷施剂进行对比试验。实验结果表明:五种叶面喷施剂都有一定的增产效果和经济效益,但以茶丰素的作用最佳,茶博士、茶叶催芽素、磷酸二氢钾的作用又优于尿素。     

微生物菌剂对兰州城市生活污泥堆肥效果的影响

以兰州市城市生活鲜污泥和40%干污泥为原料，以玉米秸秆为辅料，添加金宝贝生物发酵剂和阿姆斯生物发酵剂进行堆肥，研究微生物菌剂对堆肥过程中温度、含水率、NH₄₊ N、NO₃^- N和全N的影响。结果表明，除鲜污泥（D 1，CK）处理外，其他各处理堆体温度保持在50 ℃以上均超过7 d，达到堆肥卫生标准，加入微生物菌剂使堆体提前5 d达到50 ℃；其他各处理经过20 d堆置含水率降至45%以下，达到园林绿化使用标准；加入微生物菌剂使堆体全N损失增加0.56%~4.47%，并促进NH₄₊ N的生成和NO₃^- N的积累。