封育草地与弃耕地土壤碳氮固持及固持速率动态

研究植被恢复对土壤碳氮动态的影响,对了解陆地生态系统碳氮循环,应对全球温室效应具有重要意义。本研究以黄土高原丘陵区封育草地和弃耕地为对象,分别以放牧草地和农田为参照,对比分析了封育14年草地和弃耕地0~300 cm土层土壤有机碳(SOC)和土壤全氮(STN)储量、固持量及固持速率。结果表明,封育草地和弃耕地显著增加SOC储量,并且二者封育14年后SOC储量相同;在0~200 cm土壤中,封育14年草地与弃耕地STN储量相对于对照并无增加,0~300 cm土壤中,封育14年草地STN储量显著高于弃耕地(P<0.05);弃耕地SOC固持及固持速率显著高于封育草地,封育14年弃耕地SOC固持主要发生在0~140 cm表层土壤;0~100 cm土壤弃耕地STN固持及固持速率显著高于封育草地,0~300 cm土壤弃耕地STN固持及固持速率显著低于封育草地。以上结果表明,封育和弃耕均可显著提高土壤碳储量,并未明显提升土壤氮储量,弃耕地有较高的SOC固持量及固持速率。     

祁连山黑河上游不同退化草地有机碳和酶活性分布特征

为揭示草地退化过程中土壤有机碳和酶活性的分布特征及相关性,在祁连山黑河上游俄博岭区域的高山灌丛草甸土上,根据草地退化程度,划分了未退化草地、轻度退化草地、中度退化草地、重度退化草地,采用野外采样室内分析方法,研究了不同退化草地土壤有机碳和酶活性的分布特征。结果表明：4种退化草地0～60 cm土层有机碳的含量、密度、储量,以及土壤酶活性变化顺序为：未退化草地>轻度退化草地>中度退化草地>重度退化草地;4种退化草地（从轻到重）0～10 cm土层有机碳密度是50～60 cm土层有机碳密度的1.78倍、1.98倍、1.87倍和2.00倍,说明土壤有机碳密度在表层具有很强的表聚性;4种退化草地不同土层有机碳的含量、密度和储量,以及土壤酶活性均随着土壤剖面垂直深度的增加而递减;4种退化草地土壤有机碳含量与有机碳密度、土壤酶活性成显著正相关关系。     

连作障碍发生机制研究进展

目的研究不同前作对土壤生物化学性质的影响。方法利用化学和酶学分析及16S多样性测序技术,分析种植7年的不同前作[荞麦(FB)、油菜(FR)、小麦(FW)和绿肥(FG)]烟田土壤的养分、酶活性及细菌群落结构组成。结果(1) FR烟田土壤的有机质、全氮、碱解氮和有效磷含量最高,分别为30.04 g/kg、1.62 g/kg、143.50 mg/kg和88.09 mg/kg,FG烟田次之,但FG烟田速效钾的含量最高(240.10 mg/kg);FG烟田土壤蛋白酶和磷酸酶的活性最高,分别为709.02 μg/(g·d)(酪氨酸)和306.60 μg/(g·h)(对硝基酚),而其脲酶和蔗糖酶的活性仅低于FW烟田,且无显著性差异(P>0.05)。(2)在细菌群落组成上,FB、FG、FW和FR烟田分别检测出770、670、654和597属,归属于Actinobacteria、Proteobacteria、Chloroflexi和Acidobacteria等36门,其中Actionbacteria和Proteobacteria相对丰度最高,分别为26.87%~45.21%和25.82%~30.69%,Treptomyces、Bradyrhizobium、Bacillus和Mycobacterium等拮抗菌和Bradyrhizobium、Rhizobium和Paenibacillus等固氮菌在FB烟田土壤细菌群落的相对丰度最高。结论不同前作对烟田土壤理化性质、酶活性和细菌群落结构的影响不同,绿肥提高了土壤有机质和养分含量以及酶活性;而荞麦改善和提高了烟田土壤细菌种群结构和多样性。     

玉米根系分泌物对烟草黑胫病菌的抑制活性及其抑菌物质分析

目的明确玉米、辣椒单作和间作种植后根围土壤细菌群落的变化与病害发生的关系,解析土壤微生物在玉米和辣椒多样性种植中控制病害的作用。方法比较玉米/辣椒间作和分别单作后根围土壤微生物对玉米小斑病和辣椒疫病发生的影响,并应用Illumina Miseq高通量测序技术比较不同处理根围细菌群落的差异。结果单作玉米的根围土壤微生物能显著抑制辣椒疫病的发生(P<0.05),辣椒单作、玉米/辣椒间作后玉米根围土壤微生物降低玉米小斑病的趋势明显。根围土壤细菌群落分析结果表明：单作玉米根围气单胞菌属、堆囊菌属和固氮螺菌属等的相对丰度显著高于间作玉米和单作辣椒根围(P<0.05);单作辣椒和间作玉米根围土壤中拟杆菌门相对丰度上调,并且其中的拟杆菌属、农研丝杆菌属、鞘氨醇杆菌属和Muribaculum的相对丰度也显著上调(P<0.05)。结论玉米/辣椒间作和间作后有利于帮助彼此降低病害的发生。单作或间作后导致土壤细菌群落的变化是其缓解病害发生的重要机制。     

土壤处理对西洋参根际线虫数量动态的影响及对防治茎线虫根腐病的效果

 Root rot of American ginseng (Panax quinquefolium) caused by Ditylenchus destructor is a novel disease found recently in Beijing area. The effects of three soil treatments (fumigating with chloropicrin, chloropicrin + lvfeng organic manure and nematicide fosthiazate) on the number of rhizospheric nematodes, survived plants, root yield and root rot of 3-year ginseng plant were compared. The effects were also investigated at the second year after treatment. The results indicated that the number of parasitic nematodes in rhizosphere of treated soil reached the peak value in late June to early July as the soil temperature raised in the growing season. Compared with the regular treatment, the number of plant parasitic nematodes was reduced while non-plant parasitic nematodes increased. The number of non-plant parasitic nematodes in the soil treated with chloropicrin + lvfeng organic manure was 2 times than that treated with chloropicrin only. The ratio of non-parasitic to parasitic nematodes of three treatments was higher than the control. Percent of survived plants was 94.8%-96.4% and diseased root was decreased obviously. The control efficacy was more than 89% at the first year after treatment. The survived plants and plot yield of ginseng increased significantly and the control efficacy was around 40% at the second year. The best of the three treatments was by chloropicrin + organic manure.     

施肥对热带雨林下种植砂仁土壤氮矿化和硝化作用的影响

采用封顶埋管法(Close-TopIncubation)研究了施肥后西双版纳热带雨林下种植砂仁土壤的氮素净氨化、净硝化和净矿化速率。结果表明,种植砂仁的热带雨林土壤有机氮的净氨化、硝化和矿化速率明显受外来无机氮的影响,施入铵态氮肥后,土壤中的氨化速率明显提高(P<0.01),由对照土壤的-0.66(mg·kg-1·30d-1)增加至施肥处理土壤的1.65(mg·kg-1·30d-1),但硝化速率和矿化速率却显著降低(P<0.01),分别由对照土壤的6.79(mg·kg-1·30d-1)和6.13(mg·kg-1·30d-1)减少至施肥处理土壤的2.60(mg·kg-1·30d-1)和4.25(mg·kg-1·30d-1),导致了土壤中NH4+-N的积累。     

覆盖对烟田土壤酶活性及烤烟叶片荧光特性的影响

通过对烤烟大田3种不同覆盖方式的覆盖效应比较表明:覆盖明显增强了土壤过氧化氢酶和蔗糖酶活性,对脲酶活性有一定抑制作用;在烤烟生长前期,液膜覆盖处理土壤过氧化氢酶活性较对照和地膜覆盖处理分别平均提高5.72%、23.19%,且覆盖处理间差异达0.05显著水平;覆盖处理的蔗糖酶较对照平均提高0.8%,但3个处理间差异均不显...     

优化施肥对春小麦产量、氮素利用及氮平衡的影响

2009 ～ 2010年,在宁夏引黄灌区分别以宁春11号和宁春16号小麦为供试作物,利用田间试验研究了优化施肥(OPT)和习惯施肥(CON)对春小麦产量、氮素吸收利用和土壤硝态氮累积的影响,表观评估了土壤—小麦体系氮素平衡.结果表明,相对于CK处理,OPT和CON都显著提高春小麦籽粒产量地上部生物量,并促进籽粒N和地上...     

不同植被恢复模式下呼伦贝尔沙地土壤反硝化细菌nirK基因组成结构和多样性研究

本研究选取呼伦贝尔沙地5种植被恢复模式(单播冰草、单播羊柴、单播柠条、冰草+柠条和冰草+柠条+羊柴+披碱草)为研究对象,以完全退化的沙地为对照,采用分子生物学技术分析了土壤反硝化细菌nirK基因组成结构和多样性,并探讨了与土壤理化因子的相关性。结果表明,土壤反硝化细菌nirK基因组成存在明显差异。单播羊柴模式土壤反硝化细菌nirK基因多样性指数最高,其次为单播冰草和单播柠条,而两种混播模式最低,这5种植被恢复模式均显著高于对照裸地。序列和系统发育分析结果表明,所获得的nirK基因片段与NCBI数据库中的nirK基因的相似度在81%99%之间,分别归属于苍白杆菌属、根瘤菌属及不可培养的细菌,其中与不可培养细菌相关的片段占到总数的50%以上。典范对应和相关分析结果表明,速效磷、pH、全氮、全磷和含水量对反硝化细菌的影响均达到显著水平,且5种理化因子间均具有极显著相关性,说明这5种理化因子相互关联,共同对反硝化细菌nirK基因组成变化起到决定作用。     

Integrating multiple electromagnetic data to map spatiotemporal variability of soil salinity in Kairouan region,Central Tunisia

Soil salinization is a major problem affecting soils and threatening agricultural sustainability in arid and semi-arid regions,which makes it necessary to establish an efficient strategy to manage soil salinity and confront economic challenges that arise from it.Saline soil recovery involving drainage of shallow saline groundwater and the removal of soil salts by natural rainfall or by irrigation are good strategies for the reclamation of salty soil.To develop suitable management strategies for salty soil reclamation,it is essential to improve soil salinity assessment pro cess/mechanism and to adopt new approaches and techniques.T his study mapped a recovered area of 7200 m2 to assess and verify variations in soil salinity in space and time in K airouan region in Central Tunisia,taking into account the thickness of soil materials.Two electromagnetic conductivity meters(EM38 and EM31)were used to measure the electrical conductivity of saturated soil-paste extract(ECe)and apparent electrical conductivity(E Ca).Multiple linear regression was established between ECe and ECa,and it was revealed that ECa-EM38 is optimal for E Ce prediction in the surface soils.Salinity maps demonstrated that the spatial structure of soil salinity in the region of interest was relatively unchanged but varied temporally.Variation in salinity at the soil surface was greater than that at a depth.These findings can not only be used to track soil salinity variations and their significance in the field but also help to identify the spatial and temporal features of soil salinity,thus improving the efficiency of soil management.