东北黑土nirS型反硝化细菌群落和网络结构对长期施用化肥的响应

【目的】探明长期施用氮磷钾化肥对东北黑土农田土壤nirS型反硝化细菌群落和网络结构的影响,为更加合理的肥料配施提供理论依据。【方法】基于农业农村部黑龙江耕地保育与农业环境科学观测实验站平台,选取不施肥(NoF)、氮肥(N)、磷肥(P)、钾肥(K)、氮钾肥(NK)、氮磷肥(NP)、磷钾肥(PK)、氮磷钾肥(NPK)8个施肥处理,借助荧光定量PCR、Illumina MiSeq高通量测序和分子生态网络技术,分析东北黑土nirS型反硝化细菌丰度、群落及网络结构,及影响反硝化细菌群落变异的主要环境因子。【结果】1)长期施用氮肥均在显著增加nirS基因拷贝数的同时,降低了nirS型反硝化细菌的群落多样性,而磷、钾肥对其影响并不显著。2)Proteobacteria是所有处理中的优势反硝化细菌门,相对丰度为16.96%~27.34%,且氮肥的施用促进了隶属于该菌门中Bradyrhizobium的生长。3)PCoA分析结果显示,8个施肥处理nirS型反硝化细菌群落主要分成施氮肥和不施氮肥两组,说明长期氮肥的施用显著改变了东北黑土反硝化细菌的群落结构。结合Mantel test的结果可知,土壤pH是影响nirS型反硝化细菌群落改变的主要因素。4)分别构建施氮肥和不施氮肥的反硝化细菌分子生态网络,发现施氮肥和不施氮肥网络结构存在很大差异,长期施用氮肥明显简化了nirS型反硝化细菌的网络结构,同时使其网络结构稳定性降低,易受外界环境扰动。【结论】尽管施用化学氮肥有利于土壤养分的增加,但其土壤nirS型反硝化细菌群落及网络结构发生了较大改变,而磷、钾肥的施用对反硝化细菌群落无显著影响。本试验结果为进一步研究东北黑土区农田土壤反硝化微生物对不同施肥管理的响应机制提供了重要科学依据。     

厌氧氨氧化工艺在废水脱氮领域中的应用进展

厌氧氨氧化是一种全新的生物脱氮工艺。对于处理低碳氮比废水,与传统方法相比,它具有节省氧耗、无需外加有机碳源、污泥产量低等优点。近年来,随着基础研究的逐渐深入,各国学者开始将研究视角转向厌氧氨氧化工艺的实际应用。本文对该工艺在消化污泥上清液、垃圾渗滤液等实际废水脱氮研究中的进展进行了综述,并指出了目前存在的问题和今后的研究方向。     

夏大豆亩产262.1kg生理指标研究

研究了夏大豆中油－８９Ｄ亩产２６２．１ｋｇ各项生理指标：叶面积系数，开花期、结荚期、鼓粒期分别为３．９８、５．８０、４．９１；总光合势１８．２万ｍ＾２·日，平均净光合生产率４．８１ｇ／ｍ＾２·日，氮磷总积累量分别为２２．２８ｋｇ和３．１３ｋｇ，每生产１００ｋｇ籽粒需吸收氮８．５０ｋｇ，磷１．１９ｋｇ，总干物质积累８７６．４７ｋｇ，粒茎比０．５１，经济系数０．３０。     

Conservation implications of isotopic variation in nails and blood with wetland quality in three species of Australian freshwater turtle

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在293细胞中瞬时表达A/Chicken/Henan/1001/2010（H9N2）NS1基因蛋白,并对表达蛋白活性进行测定。试验利用PCR技术从NS1-T载体质粒上扩增NS1基因,将其克隆至pCAGGS载体,构建重组质粒NS1-pCAGGS;经酶切和测序鉴定正确后,重组质粒NS1-pCAGGS与脂质体按照一定比例混合后转染293细胞,用间接免疫荧光方法对瞬时表达细胞进行荧光信号反应。结果显示,禽流感NS1基因可以很好地在293细胞中瞬时表达,具有良好的反应原性。     

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短期培养下抑制剂烯丙基硫脲对土壤硝化作用及微生物的影响

硝化抑制剂烯丙基硫脲（ATU）对土壤硝化作用及温室效应的影响及机理尚不清楚。本研究采集典型旱地土壤,进行21天室内微宇宙培养,探究了氮肥与不同剂量ATU（分别为氮素用量的1%, 5%, 10%, 15%和20%）配施对土壤硝化作用及N2O和CO2排放通量的影响,并通过实时荧光定量PCR和高通量测序16S rRNA基因技术监测硝化微生物群落变化,同时与传统硝化抑制剂双氰胺（DCD）进行了保氮减排效果的对比。结果表明,与未施加氮肥的对照相比（CK）,单施氮肥（N）显著提高了土壤硝化强度并促进了N2O排放。DCD能显著抑制硝态氮和N2O的积累,抑制效率分别为68.6%和93.3%。而低浓度ATU对土壤硝化作用无影响,仅在高浓度具有抑制效应,且抑制效率最高仅为14.7%。所有ATU处理N2O排放量均显著降低,降幅为60.3～68.2%,仍远高于DCD处理。处理间N2O和CO2的综合温室效应强弱顺序为N>ATU+N>DCD+N≈CK,且不同ATU施用量处理之间差异不显著。相关分析发现氨氧化细菌（AOB）,而不是氨氧化古菌（AOA）和全程氨氧化细菌（Comammox）,与土壤硝态氮积累和N2O排放显著正相关,与土壤pH显著负相关。高通量测序结果表明Nitrosovibrio tenuis类型AOB对氮肥诱导的硝化过程起主导作用。除此之外,ATU和DCD还能显著提高Cupriavidus,并降低Patulibacter、Aeromicrobium、Actinomycetospora、Defluviicoccus和Acidipila等微生物属在群落中的相对丰度。该研究为深化土壤碳氮循环理论,合理使用硝化抑制剂以及减缓温室气体排放提供科学依据。