间作木薯对橡胶树根际土壤真菌群落结构的影响

研究间作木薯对橡胶树根际土壤真菌群落多样性变化规律,为判断胶园间作木薯的可行性提供理论支撑。以橡胶与木薯间作为处理,橡胶单作为对照,采用传统方法和高通量测序技术分析橡胶树根际土壤理化性状及真菌群落结构。结果表明：（1）间作模式下橡胶树根际土壤的碱解氮、速效磷、速效钾、有机质含量和真菌Shannon指数显著降低,真菌Simpson指数显著提高,pH和Chao1指数虽有降低,但差异未达到显著水平;（2）门分类水平上,2个处理的橡胶树根际土壤真菌群落结构组成相近,共有的3大优势菌门均为Ascomycota、Zygomycota和Basidiomycota。间作木薯降低了橡胶树根际土壤中Zygomycota和Basidiomycota的相对丰度,但提高了Ascomycota相对丰度,达到91.54%;（3）属分类水平上,2个处理中相对丰度比例前10的优势菌属占所有检测出菌属的61.30%~65.59%,间作木薯提高了橡胶根际土壤中Phyllosticta、Gibberella和Lecythophora的相对丰度;（4）土壤碱解N、速效P和速效K含量对橡胶树根际土壤中真菌群落α-多样性产生影响,土壤真菌多样性变化与土壤有机质含量有关。因此,间作木薯增加了植物对土壤矿质营养元素的吸收,导致橡胶树根际土壤肥力下降,进一步降低了橡胶树根际土壤真菌的群落多样性,同时增加了病原真菌的丰度。     

土壤微生物生物地理学：国内进展与国际前沿

土壤微生物生物地理学是研究土壤中微生物空间分布格局及其随时间变化的一门科学,是土壤微生物学和微生物生态学等领域的研究前沿。近年来,尽管土壤微生物生物地理学研究取得了巨大进展,目前仍面临诸多难题与挑战。本文简要回顾了土壤微生物生物地理学的发展历程,重点介绍近年来我国在森林、草地和农田生态系统中土壤微生物生物地理学研究的主要进展。同时进一步阐述了目前土壤微生物生物地理学研究的国际前沿方向,包括微生物群落空间分布及其驱动机制、群落构建过程与共存网络、微生物地理分布与生态系统功能的关联以及预测微生物群落对全球变化的响应。最后,对土壤微生物生物地理学未来的研究方向进行了展望,强调了清晰的微生物物种定义、微生物群落的时间动态、多组学与合成生物学技术以及高精度的预测模型在土壤微生物生物地理学研究中的重要性。     

番茄/茄子嫁接对其根际土壤生物学性状及细菌群落结构的影响

以茄子作为砧木，番茄为接穗进行嫁接，并以番茄自根植株和茄子自根植株作为对照，基于传统及现代高通量测序技术分析根际土壤的生物学性状及细菌群落结构特征，旨在揭示嫁接植株抗性增强的机制。结果表明：番茄/茄子嫁接植株根际土壤中可培养细菌、放线菌数量，微生物生物量、酶活性和细菌丰富度、多样性指数均显著高于茄子和番茄自根植株；另一方面，norank_c_Acidobacteria、硝化螺菌属（Nitrospira）、芽孢杆菌属（Bacillus）、norank_f_Gemmatimonadaceae、norank_o_Gaiellales、norank_f_Xanthobacteraceae、norank_o_SC-I-84、norank_f_Anaerolineaceae、norank_f_Nitrosomonadaceae、鞘脂单胞菌属（Sphingomonas）细菌是嫁接植株与茄子、番茄自根植株根际土壤中的共有优势细菌属；g_unclassified_o_Ignavibacteriales 、 醋酸杆菌属（ g_Acetobacter ）、g_norank_f_Longimicrobiaceae 、g_unclassified_f_Verrucomicrobiaceae、g_norank_p_FBP、g_norank_p_Aminicenantes 属细菌是嫁接植株根际土壤的特有优势细菌属。与自根植株相比，番茄/茄子嫁接植株根际土壤存在更高可培养微生物数量，微生物生物量和相关酶活性，具有更高的土壤养分有效性，同时拥有不同占比的共有优势细菌门属，尤其拥有更为丰富的微生物可操作分类单元（operational taxonomic units，OTU）和特有 OTU 数量，这是嫁接植株抗性增强的主要原因。     

浅谈大兴区社区蔬菜技术服务

为提升社区居民的生活满意度,进一步探索阳台蔬菜管理技术、种植品种和管理模式,大兴区蔬菜技术推广站开展了基层调研、专业方案设计、观摩培训等社区蔬菜技术服务工作,并取得了较好的效果:服务范围不断扩大、栽培设备及配套技术逐渐完善、社区氛围良好等;并对发展前景进行了展望:未来将会向省空间、智能化、低碳化的多功能蔬菜种植模式发展。     

Contrasting development of soil microbial community structure under no-tilled perennial and tilled cropping during early pedogenesis of a Mollisol

A range of agricultural practices influence soil microbial communities, such as tillage and organic C inputs, however such effects are largely unknown at the initial stage of soil formation. Using an eight-year field experiment established on exposed parent material (PM) of a Mollisol, our objectives were to: (1) to determine the effects of field management and soil depth on soil microbial community structure; (2) to elucidate shifts in microbial community structure in relation to PM, compared to an arable Mollisol (MO) without organic amendment; and (3) to identify the controlling factors of such changes in microbial community structure. The treatments included two no-tilled soils supporting perennial crops, and four tilled soils under the same cropping system, with or without chemical fertilization and crop residue amendment. Principal component (PC) analysis of phospholipid fatty acid (PLFA) profiles demonstrated that microbial community structures were affected by tillage and/or organic and inorganic inputs via PC1 and by land use and/or soil depth via PC2. All the field treatments were separated by PM into two groups via PC1, the tilled and the no-tilled soils, with the tilled soils more developed towards MO. The tilled soils were separated with respect to MO via PC1 associated with the differences in mineral fertilization and the quality of organic amendments, with the soils without organic amendment being more similar to MO. The separations via PC1 were principally driven by bacteria and associated with soil pH and soil C, N and P. The separations via PC2 were driven by fungi, actinomycetes and Gram (−) bacteria, and associated with soil bulk density. The separations via both PC1 and PC2 were associated with soil aggregate stability and exchangeable K, indicating the effects of weathering and soil aggregation. The results suggest that in spite of the importance of mineral fertilization and organic amendments, tillage and land-use type play a significant role in determining the nature of the development of associated soil microbial community structures at the initial stages of soil formation.     

Indicators and trade-offs of ecosystem services in agricultural soils along a landscape heterogeneity gradient

Soil functions can be classified as supporting (nutrient cycling) and provisioning (crop production) ecosystem services (ES). These services consist of multiple and dynamic functions and are typically assessed using indicators, e.g. microbial biomass as an indicator of supporting services. Agricultural intensification negatively affects indicators of soil functions and is therefore considered to deplete soil ES. It has been suggested that incorporating leys into crop rotations can enhance soil ES. We examined this by comparing indicators of supporting soil services – organic carbon, nitrogen, water holding capacity and available phosphorous (carbon storage and nutrient retention); net nitrogen mineralisation rate and microbial biomass (nutrient cycling and retention) – in barley fields, leys and permanent pastures along a landscape heterogeneity gradient (100, 500 and 1000 m radii). In addition, barley yields (provisioning service) were analysed against these indicators to identify trade-offs among soil services. Levels of most indicators did not differ between barley and ley fields and were consistently lower than in permanent pastures. Leys supported greater microbial biomass than barley fields. Landscape heterogeneity had no effect on the indicators or microbial community composition. However, landscape heterogeneity correlated negatively with yield and soil pH, suggesting that soils in heterogeneous landscapes are less fertile and therefore have lower yields. No trade-offs were found between increasing barley yield and the soil indicators. The results suggest that soil ES are determined at the field level, with little influence from the surrounding landscape, and that greater crop yields do not necessarily come at the expense of supporting soil services.     

湖北省宜都野生楠木资源调查

【目的】了解湖北省宜都市的野生楠木资源分布状况、种群结构及其群落特征。【方法】采用样方法分别在宜都市的王家畈镇、聂家河镇和潘家湾乡对楠木资源分布集中地段进行野外实地调查,并记录其生境条件和群落特征。【结果】调查区内发现野生楠木类植物计264株,楠属植物3种,分别为竹叶楠Phoebe faberi、桢楠P.zhennan、湘楠P.hunanensis;润楠属植物4种,分别为润楠Machilus pingii、宜昌润楠M.ichangensis、华润楠M.chinensis、刨花润楠M.pauhoi,其中华润楠、刨花润楠初步确定为宜都市新分布记录种。楠木较多分布在山地比较潮湿的阴坡,坡度为30°~40°,坡位为中坡位和下坡位,海拔在710 m左右,群落类型为常绿或落叶阔叶林的生境条件下,其楠木类植物群落的维管束植物共有71种,隶属41科60属,以樟科和蔷薇科植物比较多,被子植物中双子叶植物占有绝对的优势,高位芽植物在群落中的比重最大。【结论】该调查区内的润楠属植物种群年龄结构相比楠属更合理,大致呈稳定型,而楠属植物种群年龄结构大致呈衰退型。探讨了样地野生楠木数量及群落结构特征,为其天然林保护及种质资源保存提供理论依据,同时对城市景观树种的配置有着重要意义。     

我国喀斯特断陷盆地石漠化区植物群落构建机制研究

喀斯特断陷盆地是我国石漠化综合治理8大喀斯特类型中治理成效最低、治理难度最大的区域，面临石漠化严重、干旱频发、植被恢复难等突出问题。文中针对水分是影响喀斯特断陷盆地石漠化治理与植被恢复成效最关键的限制因素，综合分析了国内外水分梯度差异与植物群落构建机制研究动态与发展趋势；提出利用日趋成熟的水分脆弱性评价方法，通过建立基于耦合暴露度、敏感性及适应性的水资源脆弱性评价指标体系，以满足遥感影像分辨率和植物群落调查样地大小的评价单元进行水分脆弱性评估；在建立物种库—功能性状—生境特征数据库的基础上，提出基于功能性状差异进行喀斯特断陷盆地植物群落机制构建的研究方案。提出的研究方案有望解决喀斯特断陷盆地石漠化区水分梯度特征与分布格局、自然植物群落组配规律及其生境特征、水分梯度与生境要素对植物群落特征及功能性状组成的影响规律等关键科学问题，可为不同脆弱生态区植被恢复群落构建机制研究提供重要参考和借鉴。     

Comparison of the microbial communities of alpacas and sheep fed diets with three different ratios of corn stalk to concentrate

The objective of this study was to investigate the characteristics of ruminal microbial communities of alpacas (Lama pacos) and sheep (Ovis aries) fed three diets with varying ratios of roughage (corn stalk) to concentrate, 3:7 (LS), 5:5 (MS) and 7:3 (HS). Six alpacas (one-year-old and weighing 29.5 ± 7.1 kg) and six sheep (one-year-old and weighing 27.9 ± 2.7 kg) were used in this study, in a replicated 3 × 3 Latin square experiment. Total protozoa concentration was determined under the microscope; total fungi and methanogens were assessed using quantitative polymerase chain reaction and expressed as a percentage of total bacterial 16S rRNA gene copies; bacterial communities were investigated by targeted 16S rRNA gene (V3–V4 region) sequencing. The percentage of fungi was significantly higher in alpacas than in sheep under the LS diet, while the concentration of protozoa was significantly lower in alpacas under HS, MS and LS diets. The alpha diversity including Shannon, Chao l and ACE indices of bacterial communities was higher in alpacas than in sheep, under the LS diet. A total of 299 genera belonging to 22 phyla were observed in the forestomach of alpaca and sheep, with Bacteroidetes and Firmicutes dominating both animal species. Phyla Armatimonadetes and Fusobacteria, as well as 64 genera, were detected only in alpacas, whereas phyla Acidobacteria and Nitrospira, as well as 44 genera, were found only in sheep. The abundance of cellulolytic bacteria, including Butyrivibrio and Pseudobutyrivibrio, was higher in alpacas than in sheep under all three diets. These differences in the forestomach microbial communities partly explained why alpacas displayed a higher poor-quality roughage digestibility, and a lower methane production. Results also revealed that the adverse effects of high-concentrate diets (70%) were lesser in alpacas than in sheep.