不同主伐方式对兴安落叶松(Larix gmelinii)根际土壤理化性质及微生物群落的影响

对内蒙古根河大兴安岭林区1987年（恢复后期）、2013年（恢复前期）的皆伐与渐伐样地以及未采伐对照样地兴安落叶松的根际土壤理化性质、微生物群落结构和多样性进行了分析,旨在揭示不同主伐方式对兴安落叶松根际土壤理化性质以及微生物群落的影响。结果表明,主伐后兴安落叶松根际土壤的理化性质以及微生物群落的变化特征与非根际土壤存在区别,且不同主伐方式在不同恢复时期会对兴安落叶松根际土壤理化性质以及微生物群落产生不同的影响：（1）根际与非根际土壤微生物群落中真菌均比细菌更容易受到土壤理化性质的影响,但是单一种理化性质的改变对根际与非根际土壤微生物群落均不能造成显著影响。（2）相较于未采伐对照样地,皆伐样地恢复前期兴安落叶松根际土壤理化性质、微生物群落结构和多样性没有显著变化。皆伐样地恢复后期,兴安落叶松根际土壤理化性质（总碳、总氮、速效氮、pH）发生了显著变化,导致了微生物量碳氮、真菌磷脂脂肪酸（PLFA）含量显著降低、细菌/真菌显著升高,辛普森多样性指数显著降低。（3）渐伐样地恢复前期兴安落叶松根际土壤总碳、总氮、速效氮含量以及含水量均显著降低,总钾、速效磷含量显著上升,根际土壤微生物量碳含量显著降低。恢复后期,兴安落叶松根际土壤总磷含量显著升高,根际土壤微生物量碳的含量已恢复到渐伐前水平。渐伐干扰对根际土壤各微生物类群PLFA含量、微生物群落结构以及多样性没有显著影响。     

闽江河口红树林土壤微生物群落对互花米草入侵的响应

采用磷脂脂肪酸标记法(PLFA)研究外来入侵植物互花米草对闽江河口湿地红树林土壤微生物群落结构的影响,并探讨其主要影响因素。结果表明:从3种不同植被群落土壤(红树林群落MC、红树林-互花米草混生群落MS、互花米草群落SC)共检测到22种PLFA生物标记,MS土壤微生物PLFA生物标记总量明显高于其他植被群落,3种植被群落土壤理化性质和酶活性的变化趋势为:MCMSSC,表明互花米草入侵后土壤微生物量增加,而理化性质和酶活性均有明显下降,红树林湿地土壤质量发生了明显退化。3种植被群落土壤中含量最高的PLFA生物标记是16:0,16:1w7c,9Me15:0w,18:1w12c。土壤中特征微生物相对生物量存在明显差异,细菌分布量最大,其次是真菌和放线菌,原生动物分布量最小。群落多样性指数呈相似规律,MS土壤微生物类群多样性指数均小于MC,表明互花米草入侵后土壤微生物群落多样性指数均有下降。通过主成分分析,基本能区分出3种不同植被群落微生物群落的特征。土壤理化性质、酶活性间存在相关性,有机碳、全氮、蔗糖酶、过氧化氢酶与革兰氏阴性菌、放线菌呈显著或极显著正相关。研究结果表明互花米草入侵在一定程度上具有影响红树林群落土壤营养代谢循环的潜力,特别是关于碳、氮、磷等的循环及酶活性,改变部分有利于自身生长的土壤环境相关的微生物类群含量,竞争有利环境,迅速扩张实现入侵。     

昆阳磷矿不同植被恢复模式对土壤理化性质和细菌群落的影响

土壤微生物在物质循环过程中具有重要作用且对环境变化敏感,是衡量土壤质量的重要指标．在恢复生态学研究中具有重要意义。为探究不同植被恢复模式对土壤理化性质和细菌群落的影响以及土壤细菌群落差异的原因,本研究以云南省昆阳磷矿为研究对象,运用PCR-DGGE技术和理化指标测定分析了三种植被恢复模式（芒草丛、旱冬瓜藏柏麻栎混交林、藏柏旱冬瓜混交林）下土壤细菌群落多样性、物种组成及土壤理化性质。结果表明：（1）植被恢复有助于改善土壤养分,不同植被恢复模式下土壤理化性质以及细菌群落多样性和物种组成均存在差异。（2）土壤细菌多样性与植被恢复模式之间具有显著相关性,但与土壤理化指标均无显著相关性。（3）土壤细菌群落物种组成与土壤碱解氮含量以及植被恢复模式间具有极显著相关性,与其他土壤理化指标间无显著相关性。本研究表明磷矿区不同植被恢复模式下土壤理化性质和细菌群落均具有差异,土壤细菌群落多样性差异的主要原因为植被恢复模式不同,物种组成差异的主要原因为土壤碱解氮含量不同,其次为植被恢复模式不同。     

望天树人工林根际土壤理化性质及微生物群落特征

以望天树纯林(WC)、望天树×降香黄檀(WJ)和望天树×尾巨桉(WA)混交林为研究对象,对比分析不同林分中望天树根际土壤理化性质,并利用Biolog-Eco微平板法和磷脂脂肪酸(PLFA)甲酯法研究根际微生物群落特征,探讨不同混交树种对望天树根际土壤微生态环境的改善作用。结果表明: 3种林分望天树根际土壤含水量、pH值、有机质、全氮、全钾含量及蔗糖酶、脲酶和酸性磷酸酶活性均表现为WA显著高于WC和WJ,而WC和WJ差异不显著;硝态氮、铵态氮、速效钾含量表现为WA和WJ差异不显著,二者均显著高于WC;全磷和速效磷含量表现为WJ>WA>WC,林分间差异显著。3种林分望天树根际土壤微生物平均颜色变化率(AWCD) 、Shannon指数、Simpson指数和McIntosh指数及6类碳源底物利用情况均表现为WA>WJ>WC;主成分分析表明,碳水化合物类、氨基酸类和酚酸类化合物是望天树人工林根际土壤微生物主要利用的碳源。3种林分望天树根际土壤微生物总PLFA及细菌、真菌、放线菌的PLFA含量均表现为WA>WJ>WC。相关性分析表明,土壤理化性质(包括含水量、pH值、有机质、全氮、全钾、硝态氮、铵态氮、速效钾含量及蔗糖酶、脲酶和酸性磷酸酶活性)与微生物特征(即代谢活性、功能多样性指数及PLFA含量)均存在显著正相关关系。从土壤理化性质及微生物群落功能和结构特征分析来看,3种林分中望天树×尾巨桉是最有利于改善望天树幼树期根际土壤微生态环境、提高土壤可利用养分的混交模式。     

三江源地区不同建植期人工草地植被特征及其与土壤特征的关系

研究了三江源地区不同建植期人工草地群落生物量、物种组成、多样性指数和土壤理化特征,并用多元逐步回归分析法探讨了土壤理化特征对群落生物量、多样性变化的响应.结果表明:研究区不同建植期人工草地植物群落的种类组成、植物功能群组成和群落数量特征存在显著差异;土壤含水量随着物种多样性指数的增加而增加,土壤容重随着物种多样性的增加而减小;土壤微生物生物量碳与土壤含水量、土壤有机质呈极显著正相关,与土壤容重呈极显著负相关;土壤有机碳含量明显呈"V"字型变化,且与土壤含水量的变化趋势相一致,随土壤容重的增加而减少;群落生物量与土壤养分和土壤含水量之间呈显著正相关,群落地上、地下生物量的增加有利于提高土壤养分含量.     

海拔变化对凤阳山针阔混交林地土壤微生物群落的影响

风阳山自然保护区是森林生态类型自然保护区,针阔混交林是保护区内的重要森林类型。为明确海拔变化对高山针阔混交林地土壤微生物群落的影响及初步影响机理,了解气候变暖后典型林分土壤微生物群落结构的变化。以黄山松在凤阳山的分布范围800—1800 m为准,选取900、1100、1300、1500、1700 m 5个海拔梯度,在每个海拔梯度的阳坡内选取排水较好、坡度较缓、长势适中的3个标准样地(20 m×20 m),于2016年8月用蛇形法于每块样地取样,用冰盒带回实验室,测定土壤理化性质及微生物群落。采用磷脂脂肪酸(PLFA)图谱分析确定土壤微生物群落组成及其丰度,同时对土壤微生物群落组成进行非度量多维标度(NMDS)排序,对土壤微生物群落组成结构进行分析。结果表明:随着海拔升高,针阔混交林样地内植物种类组成有所变化。土壤养分含量呈先升高后降低的趋势,差异性显著(P0.05);土壤微生物群落丰度之间存在显著差异,革兰氏阴性细菌丰度在高海拔处较大;土壤微生物群落组成非度量多维标度(NMDS)排序显示,随海拔升高,土壤微生物群落组成发生明显改变,可以分为三个类群,各海拔土壤微生物群落结构在两个NMDS轴上均呈现出显著差异(P0.05)。通过对土壤微生物群落丰度与土壤理化性质的冗余分析(RDA),发现土壤p H、容重、含水量、及有效磷含量对对土壤微生物群落丰度有不同程度的影响,土壤革兰氏阳性细菌、放线菌丰度与各土壤因子之间均有显著相关关系;革兰氏阴性细菌受土壤含水量及有效磷的含量影响较大;真菌丰度与土壤p H及有机碳含量之间存在相关关系;厌氧菌及16:1ω5c丰度与土壤因子间相关性较弱。海拔变化所引起的土壤理化性质的改变,是影响土壤微生物群落丰度的因素;6个微生物群落对海拔的适应程度是不同的,革兰氏阴性细菌对高海拔的低温环境适应能力较强。     

铜尾矿废弃地土壤动物多样性特征

土壤动物的恢复、群落演替及其多样性对于铜尾矿废弃地的生态重建具有重要意义.为了解铜尾矿废弃地土壤动物群落多样性特征,在铜陵市铜尾矿区设置4个样地23采样点,共捕获土壤动物4622只个体,隶属5门10纲18目29类.结果表明,铜尾矿自然废弃地与其对照组土壤动物多样性差异明显,自然废弃地土壤动物丰富度指数d、大型土壤动物密度、中小型土壤动物密度、多样性指数H'和D·G指数均小于其对照组且存在显著差异.而复垦废弃地中小型土壤动物密度和D·G指数小于其对照组且存在显著差异,多样性指数H'大于其对照组且差异极显著,其他土壤动物群落指标与其对照组均无显著差异.相似系数q表明,外围林地间土壤动物群落相似性最大,其次是复垦废弃地与外围林地间,自然废弃地与其它3个样地间相似性最小.从垂直分层来看,复垦废弃地土壤动物表聚性强于自然废弃地,尾矿废弃地表聚性强于外围林地.灰色关联分析表明,铜尾矿区土壤理化性质与土壤动物群落结构指标关系密切,其中最重要的因素是土壤含水量和总钾含量,重金属全镉含量也不容忽视,植被因素和土壤全铜含量对土壤动物的影响相对较小.由此可见,土壤含水量、土壤基质的优劣、土壤有机质与营养元素的含量等因素限制了铜尾矿废弃地土壤动物的恢复与重建,而这些因素的改善主要归功于尾矿废弃地的土地复垦和作物种植.所以,尾矿废弃地的复垦与利用有利于土壤动物的恢复与重建.     

喀斯特土壤固氮微生物群落与植被、土壤的关系

固氮微生物作为土壤中重要的功能微生物群之一,其与地上植物群落、土壤环境之间的关系尚不清楚。在桂西北的环江县、都安县和大化县选取喀斯特典型植被类型(草丛、灌丛、次生林)建立样方,通过植被调查、测定土壤理化性质和构建克隆文库的方法,研究了土壤固氮微生物群落的结构与组成,分析了固氮微生物群落与植物群落、土壤理化性质之间的关系。结果表明:研究区典型植被类型土壤中的优势固氮微生物为慢生根瘤菌。Mantel相关性分析表明植物群落与固氮微生物群落显著相关(r=0.6116,P=0.011);结合PCo A分析和Venn图可看出,植物群落组成与结构越相似,土壤固氮微生物群落结构与组成也越相似。CCA分析前两轴的解释率之和仅为22.72%,其中总氮、有效态钾、有效态钙对固氮微生物群落的影响显著,这表明本研究涵盖的土壤理化性质指标并不能完全解释固氮微生物群落的变异,需要补充更多的土壤数据进行更深入的研究。由此可见,在喀斯特生态恢复过程中,不仅要关注地上植被群落的恢复与重建,同时也应重视地下功能微生物群落的恢复与重建。     

长白山温带森林不同演替阶段土壤化学性质及微生物群落结构的变化

土壤微生物是生态系统物质循环和能量流动的驱动者,其群落结构可以用来表征土壤生态过程及其对地上植被变化的响应机制。本研究采用时空替代法在长白山地区选取了阔叶红松林演替序列的5个不同阶段:杨桦幼龄林、杨桦中龄林、杨桦成熟林、阔叶红松成熟林和阔叶红松过熟林,采用磷脂脂肪酸法(PLFA)测定了土壤微生物群落组成和结构,分析了其随地上植被演替过程的变化,同时比较了不同演替阶段土壤化学性质差异。结果表明:随着演替的正向进行,土壤总有机碳、全碳、全氮、全磷含量显著提高,碳氮比逐渐下降。土壤微生物生物量、群落结构及组成发生明显变化:土壤微生物总PLFAs、细菌PLFAs、革兰氏阳性菌PLFAs、革兰氏阴性菌PLFAs含量显著增加;真菌PLFAs(18:2ω6c)先增加后减少,中期阶段的杨桦成熟林土壤真菌PLFA含量最高,同时细菌/真菌最小;革兰氏阳性菌/革兰氏阴性菌(G+/G-)随着演替的进行逐渐增大。土壤微生物生物量与土壤全碳、总有机碳、全氮、全磷含量呈显著正相关,与碳氮比呈显著负相关;冗余分析(RDA)结果显示,全碳、总有机碳、全氮和碳氮比是影响土壤微生物群落结构的主要因素。本研究表明,随着植被演替的正向进行,土壤质量逐渐提高;土壤微生物群落组成明显改变;土壤微生物群落结构与土壤理化性质显著相关。     

西沙群岛主要岛屿不同植被类型对土壤理化性质的影响

为了解海岛植被恢复过程中植物群落对土壤理化性质的影响,对西沙群岛的永兴岛和东岛上不同植被群落的土壤主要理化性质进行测定。结果表明,随着岛屿植被由藤草经灌木向乔木群落的过渡,土壤含水量由5.9%显著升高至14.2%;土壤微生物生物量碳、生物量氮分别由176.2和41.2 mg kg~(-1)显著升高至391.5和98.8 mg kg~(-1);而pH呈下降趋势。这表明随着植被的恢复,海岛土壤质量不断提高,生态系统渐趋稳定。     

Effects of natural vegetative restoration on soil fungal and bacterial communities in bare patches of the southern Taihang Mountains

Understanding the distribution and composition of soil microbes in bare patches is a critical step to improving ecological remediation. The effects of different vegetative restoration types on soil microbes within semi‐arid bare patches remain unclear. Here, we evaluated the distribution of soil fungi and bacteria among different ecological restoration types at the southern Taihang Mountains. Analysis of variance showed that the chemical properties of soil with vegetation cover have higher nutrient quality than those of the exposed soil. The results also suggested that vegetative restoration significantly improved the diversity and the richness of the soil fungal and bacterial communities. Sequencing results showed that Ascomycota and Basidiomycota were the main soil fungal communities, whereas Proteobacteria, Acidobacteria, and Actinobacteria were the main soil bacterial communities. There were significant relationships between the contents of moisture, organic matter and organic carbon and the soil fungal/bacterial communities. Venn and network diagrams indicated that the vegetative restoration types largely influenced the soil fungi and weakly influenced the soil bacteria in the bare patches. This study discusses the importance of vegetative restoration in the ecological remediation of bare patches. These findings provide effective references for soil restorative measures, water conservation, and bare‐spot reduction at the southern Taihang Mountains in future.     

黄土高原土壤水分-有机碳-微生物耦合作用研究进展

黄土高原植被恢复后土壤水分、有机碳和微生物群落发生了非同步性演变。土壤微生物是各种生命活动的载体,在土壤水-碳耦合过程中参与了一系列的氧化与还原反应,因此,土壤微生物在水-碳耦合关键过程中起着重要的调节作用,三者存在着密切的耦合关系。尽管关于植被恢复后土壤水分和有机碳变化的研究已开展较多,但是由于土壤微生物活动和群落结构复杂性和易变性,这给土壤微生物介导的水-碳耦合研究带来了相当大的困难。迄今为止,黄土高原植被恢复后土壤水、碳、微生物三者之间的耦合关系缺乏总体性的融合,大多数研究只能假设各个生物化学过程是相对独立的,对土壤水、碳、微生物耦合的认知仍存在局限性。由此,首先对黄土高原植被恢复进程、土壤水分过程和有机碳变化分别进行了综述,结合已有的理论和证据进一步概括了黄土高原土壤有机碳、微生物群落对降水格局的响应。最后整合植被、土壤和微生物界面等关键生态过程,总结了黄土高原土壤水-碳-微生物耦合界面过程,采用HYDRUS-2D模型(水文过程模型)和ORCHIDEE模型(生态系统碳模型),并融入土壤微生物种群生长动态,基于稳定碳、水同位素技术和DNA探针技术,初步构建了黄土高原土壤水-碳-微...     

Links between plant community composition,soil organic matter quality and microbial communities in contrasting tundra habitats

Plant communities, soil organic matter and microbial communities are predicted to be interlinked and to exhibit concordant patterns along major environmental gradients. We investigated the relationships between plant functional type composition, soil organic matter quality and decomposer community composition, and how these are related to major environmental variation in non-acid and acid soils derived from calcareous versus siliceous bedrocks, respectively. We analysed vegetation, organic matter and microbial community compositions from five non-acidic and five acidic heath sites in alpine tundra in northern Europe. Sequential organic matter fractionation was used to characterize organic matter quality and phospholipid fatty acid analysis to detect major variation in decomposer communities. Non-acidic and acidic heaths differed substantially in vegetation composition, and these disparities were associated with congruent shifts in soil organic matter and microbial communities. A high proportion of forbs in the vegetation was positively associated with low C:N and high soluble N:phenolics ratios in soil organic matter, and a high proportion of bacteria in the microbial community. On the contrary, dwarf shrub-rich vegetation was associated with high C:N and low soluble N:phenolics ratios, and a high proportion of fungi in the microbial community. Our study demonstrates a strong link between the plant community composition, soil organic matter quality, and microbial community composition, and that differences in one compartment are paralleled by changes in others. Variation in the forb-shrub gradient of vegetation may largely dictate variations in the chemical quality of organic matter and decomposer communities in tundra ecosystems. Soil pH, through its direct and indirect effects on plant and microbial communities, seems to function as an ultimate environmental driver that gives rise to and amplifies the interactions between above- and belowground systems. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

十八河铜尾矿库坝面细菌群落时空动态及其驱动力

群落多样性的维持机制是群落生态学研究的热点问题.尾矿库作为人工原生裸地,土壤重金属含量较高,随着恢复年限的延长,土壤理化性质发生变化,是研究土壤微生物群落多样性驱动机制的理想场地.本研究在调查十八河尾矿库土壤因子、植物群落多样性和土壤细菌群落多样性的基础上,探究了局域小尺度下细菌群落结构和多样性的驱动机制.结果表明: 尾矿库土壤养分含量随恢复年限的延长显著提高,并具有一定的季节变化,不同恢复年限土壤养分含量的季节动态存在差异.细菌群落的Shannon多样性和丰富度指数随恢复年限呈显著增加趋势,群落稳定性逐步提高;而其季节变化受到植物群落的影响,在不同恢复年限下具有一定的差异.RDA分析显示,环境因子对土壤细菌群落多样性有决定作用.结构方程模型分析表明,土壤养分(TC、TN、NO₃^--N、NO₂^--N)含量、植物群落多样性和土壤酶活性共同驱动该铜尾矿库土壤细菌群落的构建过程.     

Factors influencing the composition of bacterial communities found at abandoned copper-tailings dumps

AIMS: To study the effect that copper residues exert on bacterial communities and the ability of bacteria to colonize different microhabitats in abandoned tailing dumps. METHODS AND RESULTS: We used the terminal-restriction fragment length polymorphism technique, a culture-independent molecular approach based on PCR amplification of ribosomal genes, to compare the structure of the bacterial communities from samples taken at two nearby located abandoned tailing dumps found in the Mediterranean-climate area of central Chile. Our results show that elevated available copper content in tailings has a strong effect on the bacterial community composition, but that other factors like pH and organic matter content also play an important role in the structure of these communities. We also found that the number of abundant bacteria in these samples was significantly lower than in soils not exposed to metal pollution. CONCLUSIONS: In addition to bioavailable copper, bacterial communities found in copper-tailings dumps are also affected by several other environmental factors. SIGNIFICANCE AND IMPACT OF THE STUDY: This first report on environmental factors influencing microbial communities in copper-tailings dumps will help to devise appropriate restoration procedures in this type of polluted habitat.     

人工油松林（Pinus tabulaeformis）恢复过程中土壤微生物生物量C、N的变化特征

采用时空替代法,选取15a（PF15）、25a（PF25）、30a（PF30）的人工油松林作为样地,并选取灌丛作为参考植被,研究了植被恢复过程中土壤微生物生物量C、N以及土壤养分的变化特征,同时探讨了它们之间的相互关系。研究结果表明随着恢复的进行,土壤质量得到了改善,主要表现为有机碳、全氮、粘粒含量、土壤含水量的上升和pH值、容重的下降。土壤微生物生物量C、N分别在155.00~885.64mg/kg和33.73~237.40mg/kg的范围内变化。土壤微生物生物量C、N在植被恢复的初期显著低于灌丛,而后随着恢复的进行逐步增长。土壤微生物生物量C、N与植被恢复时间的相关性没有达到统计学上的显著水平,但是土壤微生物生物量C与土壤有机碳、全氮、全磷呈显著正相关,这表明植被恢复过程中土壤微生物生物量与土壤养分状况关系密切,植被恢复通过改善土壤养分状况间接地影响土壤微生物生物量的变化。Cmic/TOC在1.38%~4.75%的范围内变化。Cmic/TOC随着植被恢复不断下降,Cmic/TOC与植被恢复时间和土壤有机碳呈显著负相关,这表明植被恢复过程中,惰性有机质积累导致供应土壤微生物的活性有机质减少,Cmic/TOC同时受土壤有机质的数量和质量影响。     

Soil-covered strategy for ecological restoration alters the bacterial community structure and predictive energy metabolic functions in mine tailings profiles

Native soil amendment has been widely used to stabilize mine tailings and speed up the development of soil biogeochemical functions before revegetation; however, it remains poorly understood about the response of microbial communities to ecological restoration of mine tailings with soil-covered strategy. In this study, microbial communities along a 60-cm profile were investigated in mine tailings during ecological restoration of two revegetation strategies (directly revegetation and native soil covered) with different plant species. The mine tailings were covered by native soils as thick as 40 cm for more than 10 years, and the total nitrogen, total organic carbon, water content, and heavy metal (Fe, Cu, and Zn) contents in the 0–40 cm intervals of profiles were changed. In addition, increased microbial diversity and changed microbial community structure were also found in the 10–40 cm intervals of profiles in soil-covered area. Soil-covered strategy rather than plant species and soil depth was the main factor influencing the bacterial community, which explained the largest portion (29.96%) of the observed variation. Compared directly to revegetation, soil-covered strategy exhibited the higher relative abundance of Acidobacteria and Deltaproteobacteria and the lower relative abundance of Bacteroidetes, Gemmatimonadetes, Betaproteobacteria, and Gammaproteobacteria. PICRUSt analysis further demonstrated that soil-covered caused energy metabolic functional changes in carbon, nitrogen, and sulfur metabolism. Given all these, the soil-covered strategy may be used to fast-track the establishment of native microbial communities and is conducive to the rehabilitation of biogeochemical processes for establishing native plant species.

     

Evaluating the ecological performance of wetland restoration in the Yellow River Delta,China

Long-term monitoring is essential to evaluate the effects of wetland restoration projects. A monitoring program before and after restoration has been carried out in the study area located in the Yellow River Delta since 2001. Water quality, soil salinity, soil organic matter, plant community, and bird species were chosen as indicators in this program. During the past seven years, the restored wetland showed increasing efficiency in reducing water pollution levels. Soil quality was constantly improved through salinity reduction and soil organic matter accumulation. The vegetation community quickly re-established after the restoration was initiated in 2002. The restored vegetation communities provide favorable habitat conditions for birds and thirty-seven bird species were observed in October 2007. Based on Canonical Correspondence Analysis (CCA), plant species and vegetation community are mainly influenced by soil salinity and water depth. These indicate that conducting freshwater to the project area is an efficient measure for vegetation restoration. While monitoring results show that the restoration project had positive effects on the wetland ecosystem over the past seven years, two issues remain for future study: (1) the contribution of harvesting vegetation to stabilizing nutrient removal rate and the accumulation of soil organic matter in the soil; and (2) the effects of excessive propagation of Phragmites australis on spatial heterogeneity and plant diversity.     

库布齐沙地两种植被恢复类型根际土壤微生物和土壤化学性质比较研究

油蒿(Artemisia ordosica)与中间锦鸡儿(Caragana intermedia)是库布齐沙地分布广泛的优良固沙植被类型,在植被恢复过程中受到关注。以库布齐沙地自然恢复的油蒿群落与人工种植的中间锦鸡儿群落为研究对象,以流动沙地为对照,采用野外调查、室内生化实验与统计分析相结合的方法,分析两种植被恢复类型根际与非根际土壤微生物、土壤化学性质的差异,研究土壤微生物与土壤化学性质间的相关关系,并运用综合指数法评价两种植被恢复类型对土壤生态系统的恢复效果,为库布齐沙地植被恢复与重建提供科学依据。主要结论如下:(1)与流沙对照相比,两种植被恢复类型根际、非根际土壤微生物数量、微生物生物量碳、氮含量均有不同程度的提高,其中,自然恢复的油蒿群落根际土壤微生物总数、细菌数量、微生物量碳和氮含量均显著高于中间锦鸡儿根际,真菌和放线菌数量分布表现为中间锦鸡儿油蒿;(2)两种植被恢复类型根际、非根际土壤有机质、全氮、全磷、速效氮、速效钾含量均比流动沙地有不同程度地提高,其中,油蒿根际、非根际土壤有机质、全氮、速效氮含量显著高于中间锦鸡儿;(3)影响油蒿和中间锦鸡儿群落土壤微生物数量、生物量碳和氮的土壤因子是有机质、p H值、全氮、速效氮、速效钾、速效磷,其中,对两种植被恢复类型土壤微生物数量和生物量有正向促进作用的主要因子是土壤有机质、速效钾和全氮含量;(4)运用综合指数法计算出基于14个土壤指标的土壤质量综合指数(SQI),SQI值排序为:油蒿根际中间锦鸡儿根际油蒿非根际中间锦鸡儿非根际流沙对照。自然恢复的油蒿群落对土壤质量的改良效果显著优于人工种植的中间锦鸡儿群落,是库布齐沙地生态恢复的适合途径之一。     

植被恢复对西南喀斯特地区土壤气候韧性的提升作用

土壤质量提升是生态系统应对气候变化能力增强的关键。为探究气候变化背景下不同植被恢复方式对喀斯特地区土壤质量的影响,基于黔桂喀斯特地区气候梯度样带84个样方土壤物理、化学和生物性质综合分析,分别以耕地和次生林作为退化和顶级恢复对照,探讨了自然恢复(灌木林)和人工恢复(人工林)的土壤质量提升效应及其对气候变化的响应。结果表明:(1)植被恢复不仅显著提高了土壤细菌、真菌、放线菌等微生物丰度以及有机碳、全氮、速效氮等养分含量,也对土壤质地有一定改善;(2)自然恢复和人工恢复均提高了土壤质量,两种恢复方式之间土壤质量指数无显著差异,但与次生林依然存在差距。灌木林和人工林的土壤质量仅约为次生林土壤质量的62%-66%;(3)耕地土壤质量随年均温和年平均降雨量的增加而下降,次生林的土壤质量随年平均降雨量的增加而上升,植被恢复对土壤质量的提升率与年均温和年平均降雨量呈正相关关系。阐明了在一定范围的气候变化下进行植被恢复可以显著提升喀斯特地区土壤的气候韧性,揭示了喀斯特地区植被恢复对土壤质量的提升主要是由于提高了土壤碳氮养分含量及改善了土壤微生物群落结构,这为全球气候变化背景下喀斯特退化土地生态恢复和管理提供了理论依据。