重度火烧迹地微地形对土壤微生物特性的影响——以坡度和坡向为例

通过对大兴安岭重度火烧迹地不同坡度和坡向的土壤微生物群落进行调查研究,旨在揭示重度火烧迹地过火6a后森林恢复过程土壤微生物群落的变化规律与影响因素.研究结果表明:平地土壤微生物生物量碳含量(MBC)和土壤微生物生物量碳氮比(MBC/MBN)均高于坡地,其中MBC/MBN达到差异极显著水平.平地土壤微生物的代谢活性AWCD值、对31种4类碳源(糖类、脂类、氨基酸、代谢物)的利用能力和Shannon-Winner多样性指数(H')均极显著低于坡地.西坡土壤微生物AWCD值和H'高于南坡,但AWCD和H'与土壤养分、pH值、EC无显著相关关系,说明坡向可能与土壤微生物代谢活性和多样性的关系并不密切,反映了两坡向土壤微生物群落结构的相似性.坡度由于影响了土壤养分和水分条件,进而影响了土壤微生物的生物量、群落结构、物种多样性和碳源利用能力.火烧迹地恢复初期平地土壤微生物量碳高于坡地,西坡高于南坡;恢复6a后,土壤微生物量碳的差异己不显著,但土壤微生物群落结构、物种多样性以及代谢特性仍具有显著差异,这可能与地形坡度仍然显著影响土壤水分含量的因素有关.     

Neighborhood effects on soil properties,mycorrhizal attributes,tree growth,and nutrient status in afforested zones

A harmonious interspecies relationship is the key to the success of mixed afforestation. This study was conducted to assess the responses of afforestation species to their neighboring trees. We examined five types of stands—monocultures of Chinese pine (Pinus tabuliformis), black locust (Robinia pseudoacacia), sea‐buckthorn (Hippophae rhamnoides), and two mixtures (Chinese pine × black locust mixture and Chinese pine × sea‐buckthorn mixture)—in the Loess Plateau, northwestern China. The height and diameter at breast height of each tree species were measured, and rhizosphere soil, shoot, and root were sampled. In monocultures, black locust was taller than Chinese pine and sea‐buckthorn, while the height of Chinese pine and sea‐buckthorn was similar. In mixtures, Chinese pine grew better with sea‐buckthorn than alone as a result of modified soil properties and plant nutrition, but not with black locust. When Chinese pine was used as neighbors, it affected the level of arbuscular mycorrhizal (AM) colonization of black locust, soil properties and AM fungal spore density of black locust and sea‐buckthorn, but did not significantly affect their growth. Our results suggest that the reciprocal effects between tree species in mixture are not symmetric, and thus planning for efficient mixed afforestation requires knowledge of species‐specific growth rate, nutrient requirements, and species interactions.     

黄土丘陵区两种主要退耕还林树种生态系统碳储量和固碳潜力

黄土丘陵区是中华文明的起源地,而原有植被却遭受严重破坏。因此,自20世纪70年代末开始的三北防护林工程、退耕还林工程和天然林保护工程等大型生态恢复工程,在本区均有大面积分布。这些工程已经对生态恢复起到重要作用,并将对全球碳素循环起到积极作用。以黄土丘陵区的主要造林树种--油松(Pinus tabulaeformis Carr.)和刺槐(Robinia pseudoacacia L.)为研究对象,共设置样方28个,测定森林乔木、灌木、草本生物量及凋落物碳储量;钻取并分析土样516份,获得土壤有机碳储量。结合文献数据和农田碳储量数据,建立0-86年生油松林和0-56年生刺槐纯林生态系统碳储量-林龄序列;在此基础上分析造林对生态系统碳储量和固碳潜力的影响。结果表明,造林后的油松林和刺槐林生态系统的植被、凋落物及土壤碳储量逐渐增加;在没有人为干扰的情况下,19、27、36、86年生油松林生态系统碳储量分别为70.76、143.43、167.30、271.23-332.26 Mg/hm²;8、17、39年生刺槐林生态系统碳储量分别为80.37、94.08、140.77 Mg/hm²。受间伐干扰、45\,52年生油松林生态系统碳储量分别为136.42\,168.56 Mg/hm²,相对于没有人为干扰的油松林,其植被碳储量明显下降,而土壤碳储量保持稳定甚至升高。受乱砍滥伐干扰的71年生油松林和56年生刺槐林的生态系统碳储量分别为118.87\,76.99 Mg/hm²,相对于没有人为干扰的森林,其植被碳储量和土壤碳储量均呈明显下降趋势。种植油松林之后的86a时间内,其生态系统固碳潜力为211.61-272.64 Mg/hm²;而种植刺槐林、在39a时间内的生态系统固碳潜力为81.15 Mg/hm²。     

Why does oriental arborvitae grow better when mixed with black locust: Insight on nutrient cycling?

To identify why tree growth differs by afforestation type is a matter of prime concern in forestry. A study was conducted to determine why oriental arborvitae (Platycladus orientalis) grows better in the presence of black locust (Robinia pseudoacacia) than in monoculture. Different types of stands (i.e., monocultures and mixture of black locust and oriental arborvitae, and native grassland as a control) were selected in the Loess Plateau, China. The height and diameter at breast height of each tree species were measured, and soil, shoot, and root samples were sampled. The arbuscular mycorrhizal (AM) attributes, shoot and root nutrient status, height and diameter of black locust were not influenced by the presence of oriental arborvitae. For oriental arborvitae, however, growing in mixture increased height and diameter and reduced shoot Mn, Ca, and Mg contents, AM fungal spore density, and colonization rate. Major changes in soil properties also occurred, primarily in soil water, NO₃‐N, and available K levels and in soil enzyme activity. The increase in soil water, N, and K availability in the presence of black locust stimulated oriental arborvitae growth, and black locust in the mixed stand seems to suppress the development of AM symbiosis in oriental arborvitae roots, especially the production of AM fungal spores and vesicles, through improving soil water and N levels, thus freeing up carbon to fuel plant growth. Overall, the presence of black locust favored oriental arborvitae growth directly by improving soil water and fertility and indirectly by repressing AM symbiosis in oriental arborvitae roots.     

Nitrification potentials in early successional black locust and in mixed hardwood forest stands in the southern Appalachians,USA

Soil nitrogen mineralisation and nitrification potentials, and soil solution chemistry were measured in black locust (Robinia pseudo-acacia L.), in pine-mixed hardwood stands on an early successional watershed (WS6), and in an older growth oak-hickory forest located on an adjacent, mixed hardwood watershed (WS14) at Coweeta Hydrologic laboratory, in the southern Appalachian mountains, U.S.A. Nitrification potentials were higher in black locust and pine-mixed hardwood early successional stands than in the oak-hickory forest of the older growth watershed. Ammonification rates were the main factor controlling nitrification in the early successional stands. There was no evidence of inhibition of nitrification in soils from the older growth oak-hickory forest site.Within the early successional watershed, black locust sites had net mineralisation and nitrification rates at least twice as high as those in the pine mixed-hardwood stands. Concentrations of exchangeable nitrate in the soil of black locust stands were higher than in pine-mixed hardwoods at 0–15 cm in March and they were also higher at 0–15, 16–30 and 31–45 cm depth in the black locust dominated sites in July. Soil solution nitrate concentrations were higher under black locust than under pine-mixed hardwoods. Areas dominated by the nitrogen fixing black locust had greater nitrogen mineralisation and nitrification rates, resulting in higher potential for leaching losses of nitrate from the soil column in the early successional watershed.     

沙棘人工林土壤微生物群落结构及酶活性的季节变化

采用时空互代法,研究了林龄和季节对沙棘人工林地土壤微生物群落结构和酶活性的影响.结果表明: 沙棘人工林磷脂脂肪酸总量、细菌脂肪酸总量、真菌脂肪酸总量均随着林龄的增长而增加,且在成熟林时达到最大值.土壤β-葡糖苷酶、纤维素酶、脲酶、蛋白酶、磷酸酶活性均随着林龄的增长逐渐增加,并于成熟林时达到最大值.雨季的土壤酶活性均显著高于旱季.土壤微生物群落结构及酶活性均与土壤pH、全氮、速效磷含量呈显著正相关.表明林龄和季节对沙棘人工林地土壤微生物群落结构和酶活性有显著影响.在黄土高原,营造沙棘人工林能有效提高土壤肥力.     

不同森林恢复方式对我国南方红壤区土壤质量的影响

2008-2009年在我国南方红壤区,研究了3种典型森林恢复方式(自然恢复的天然次生林、人工恢复的本地种马尾松人工林和引进种湿地松人工林)对林地土壤质量的影响.结果表明： 天然次生林的土壤含水量、土壤容重、土壤粒径构成、土壤全碳、全氮、全磷、有机碳、速效氮、速效磷、速效钾含量均优于两种人工林.综合土壤物理性状、化学性状和微生物性状得到土壤质量综合指数.天然次生林土壤的综合质量指数(1.20±0.10)显著高于马尾松人工林(0.59±0.03)和湿地松人工林(0.59±0.06),而两种人工林之间差异不显著.在我国南方红壤区,自然恢复的天然次生林土壤质量优于人工恢复的马尾松林和湿地松林.     

宁南山区不同乔木林地土壤干层分布及干燥化特征

以宁南山区典型坡面不同人工林地为研究对象,分层采集0~600 cm土样,分析杏树(Armeniaca vulgaris)、杨树(Populus simonii)、榆树(Ulmus pumila)、刺槐(Robinia pseudoacacia)和松树(Pinus sylvestris var.mongolica)及农田(对照)土壤含水量垂直剖面分布特征,采用干燥化指数(SID)、土壤水分相对亏缺指数(CSWDI)、干层起始深度(DSLFD)、干层厚度(DSLT)和干层内平均含水量(DSL-SWC)等指标对土壤干燥化强度和干层分布特征进行分析,利用冗余分析(RDA)确定相关环境因子对土壤干燥化和干层的影响,为黄土高原山区植被合理利用水土资源和生态恢复等提供数据支撑。结果表明:(1)杏树、杨树、榆树、刺槐、松树土壤水分均属中等变异,且0~600 cm平均土壤含水量与对照农田相比分别降低了31.17%、24.15%、23.19%、29.67%和18.35%。(2)不同人工林地干层起始深度、干层厚度及垂直剖面土壤水分分布明显不同,杏树、杨树、榆树、刺槐、松树和农田土壤干层起始深度分别为90、160、140、140、160和600 cm,干层厚度分别为510、460、480、480、460和0 cm。(3)杏树、杨树、榆树、刺槐和松树0~600 cm平均土壤干燥化指数分别为63.48%、91.88%、95.17%、73.97%和111.91%,土壤水分相对亏缺指数分别为0.68、0.59、0.52、0.63和0.41,其土壤水分干燥化强度及亏缺程度由高到低依次为杏树>刺槐>杨树>榆树>松树。(4)RDA分析结果表明,乔木类型、黏粒含量和地形条件是影响土壤干燥化的重要因素。     

川西亚高山森林土壤动物对杨树和箭竹凋落物分解过程中微生物群落的影响

为了解凋落物分解过程中碎屑食物链土壤动物与微生物的相互联系,本研究以川西亚高山森林杨树和箭竹凋落叶为对象,通过原位控制试验,于2016年4月至2018年4月采用磷脂脂肪酸(PLFAs)生物标记法,研究了土壤动物对两种凋落叶分解过程中微生物丰度、群落结构和多样性的影响.结果表明: 土壤动物的参与显著影响两个树种凋落叶分解过程中微生物PLFAs含量,降低了分解前240天的PLFAs含量,增加了分解360~480 d的PLFAs含量;土壤动物的参与降低了杨树分解过程中的真菌/细菌比值,增加了革兰氏阳性菌(G⁺)/革兰氏阴性菌(G^-)比值,对箭竹分解过程中真菌/细菌和G⁺/G^-比值的影响作用相反;两个树种凋落叶的微生物多样性和均匀性在分解的120 d和480 d维持着较高水平,在分解的360 d和720 d急剧降低,土壤动物的参与显著影响杨树凋落叶的微生物多样性和均匀性,但对箭竹影响不显著;土壤动物对凋落叶微生物PLFAs变化的影响随分解持续时间和树种变化存在差异.亚高山森林凋落物分解过程中土壤动物与微生物群落的相互作用随季节和树种变化具有变异性.     

Recovery of mammal diversity in tropical forests: a functional approach to measuring restoration

Ecological restoration is increasingly applied in tropical forests to mitigate biodiversity loss and recover ecosystem functions. In restoration ecology, functional richness, rather than species richness, often determines community assembly, and measures of functional diversity provide a mechanistic link between diversity and ecological functioning of restored habitat. Vertebrate animals are important for ecosystem functioning. Here, we examine the functional diversity of small‐to‐medium sized mammals to evaluate the diversity and functional recovery of tropical rainforest. We assess how mammal species diversity and composition and functional diversity and composition, vary along a restoration chronosequence from degraded pasture to “old‐growth” tropical rainforest in the Wet Tropics of Australia. Species richness, diversity, evenness, and abundance did not vary, but total mammal biomass and mean species body mass increased with restoration age. Species composition in restoration forests converged on the composition of old‐growth rainforest and diverged from pasture with increasing restoration age. Functional metrics provided a clearer pattern of recovery than traditional species metrics, with most functional metrics significantly increasing with restoration age when taxonomic‐based metrics did not. Functional evenness and dispersion increased significantly with restoration age, suggesting that niche complementarity enhances species' abundances in restored sites. The change in community composition represented a functional shift from invasive, herbivorous, terrestrial habitat generalists and open environment specialists in pasture and young restoration sites, to predominantly endemic, folivorous, arboreal, and fossorial forest species in older restoration sites. This shift has positive implications for conservation and demonstrates the potential of tropical forest restoration to recover rainforest‐like, diverse faunal communities.     

Effects of understory removal on soil respiration and microbial community composition structure in a Chinese fir plantation

Aims Soil respiration (R_s) is the largest fraction of carbon flux in forest ecosystems, but the effects of forest understory removal on R_s in Chinese fir (Cunninghamia lanceolate) plantations is poorly understood. In order to quantify the effects of forest understory removal on R_s and microbial community composition, a field experiment was conducted in a subtropical Chinese fir plantation. Methods Forest understory was removed manually in June 2012. R_s was measured monthly using a LI-COR 8100 infrared gas analyzer from July 2012 through July 2014. Soil temperature and moisture were also measured at 5 cm depth at the time of R_s measurements. Surface soil (0-10 cm) samples were collected in July 2013 and 2014, respectively, and the soil microbial community structures were determined by phospholipid fatty acids (PLFAs) analysis. Important findings R_s decreased by 32.8% over a two-year period following understory removal (UR), with a greater rate of decrease in the first year (42.9%) than in the second year (22.2%). The temperature sensitivity of R_s was affected by UR, and was 2.10 and 1.87 in the control and UR plots, respectively. UR significantly reduced the concentration of fungal PLFAs by 18.3%, but did not affect the concentration of bacterial PLFAs, resulting in an increase in the fungal:bacterial ratio; it significantly increased the concentration of gram-positive bacterial PLFAs by 24.5%, and the ratio of gram-positive to gram-negative bacterial PLFAs after one year of treatment, but decreased the concentration of gram-positive bacterial PLFAs by 9.4% and the ratio of gram-positive to gram-negative bacterial PLFAs after two years of treatment. The results suggested that R_s and microbial community composition were both affected by UR in Chinese fir plantation, and the effects were dependent of the duration following the UR treatment.     

黄土区小流域植被类型对沟坡地土壤水分循环的影响

沟坡作为黄土丘陵区小流域水土流失最为活跃的区域,探究不同下垫面植被类型下的土壤水分循环特征对于沟坡地植被恢复具有重要意义。基于氢氧同位素示踪技术,通过野外水样采集和室内同位素分析旨在揭示植被类型对沟坡地土壤水分循环的影响机制。结果表明:(1)各水体氢氧同位素均遵循:降水刺槐林地土壤水草地土壤水地表水地下水,降水的变异系数最大,地表水和地下水的变异系数较小。(2)草地土壤水主要以降水补给为主,所占比例为59.12%,刺槐林地土壤水则以深层土壤水的上升补给为主,所占比例为60.97%。短阵性暴雨条件下,草地土壤水运移速率较刺槐林地高约1 cm/d,且主要发生在0—50 cm土层。(3)土壤水的垂向运移为地下水的主要补给形式,草地土壤水对地下水的补给比例为51.64%,约比刺槐林地高0.52%。表明植被类型对土壤水分循环特征具有一定的影响,刺槐林对深层土壤水分利用强度较大,可能加剧深层土壤干层化,而草地更有利于降水入渗以及地下水补给,该研究可为小流域沟坡的生态修复和综合治理提供科学依据。     

林下植被剔除对杉木林土壤呼吸和微生物群落结构的影响

以湖南会同地区26年生杉木(Cunninghamia lanceolata)人工林为研究对象, 探讨剔除林下植被对土壤呼吸和微生物群落结构的影响。2012年6月将林下植被剔除后, 2012年7月-2014年7月每月测定一次土壤呼吸速率、5 cm土壤温度和含水量, 并分别于2013年7月和2014年7月测定了土壤微生物群落结构和土壤养分数据。研究结果表明: 杉木人工林土壤呼吸具有明显的季节变化规律, 且与5 cm深处的土壤温度呈极显著的正相关关系。林下植被剔除两年内土壤呼吸平均下降了32.8%, 2012年7月-2013年6月下降了42.9%, 2013年7月-2014年7月下降了22.2%。根据土壤呼吸与温度拟合的指数方程所计算出的土壤呼吸的温度敏感性Q₁₀值在对照区为2.10, 林下植被剔除区为1.87, 说明在杉木人工林系统中林下植被剔除2年降低了土壤呼吸的温度敏感性。此外, 林下植被剔除也改变了土壤微生物群落结构。林下植被剔除1年后, 土壤细菌的浓度没有发生改变, 但真菌的浓度降低, 导致真菌与细菌的浓度比值下降。此外, 革兰氏阳性细菌(G⁺)的浓度及其与革兰氏阴性菌(G^-)的比值升高。林下植被剔除2年后, G⁺浓度和G⁺与G^-的浓度比值降低。该研究表明林下植被剔除可以降低土壤呼吸, 从而减少土壤向大气中释放碳; 同时可改变土壤微生物群落结构, 而且其效应受作用时间的影响。     

大青山赤松林和黑松林生态适应研究

针对山东省大青山省级自然保护区典型植物群落,设置21个样方,分析主要乔木种群和群落特征.结果表明:1)大青山样方内共发现维管植物111种,其中乔木29种、灌木14种、草本植物68种,群落植物种类少,物种多样性低.2)29种乔木根据径级结构划分为13种扩展种、2种隐退种,5种稳定侵入种、6种随机侵入种和3种随机隐退种.主要乔木种群径级结构型为2种:黑松种群、栓皮栎种群、麻栎种群、小叶朴种群、黄檀种群、君迁子种群和槲树种群为增长型;刺槐种群和赤松种群为稳定型.大青山群落乔木整体上为增长型群落.3)大青山乔木层物种丰富度指数、Shannon-Wiener多样性指数和Simpson多样性指数从高到低依次为赤松林、黑松林、刺槐林,而Pielou均匀度指数从高到低依次为黑松林、赤松林、刺槐林,显示赤松更适合作为大青山造林树种.     

Soil Nitrogen Conditions Approach Preinvasion Levels following Restoration of Nitrogen-Fixing Black Locust (Robinia pseudoacacia) Stands in a Pine–Oak Ecosystem

Restoring native plant communities on sites formerly occupied by invasive nitrogen‐fixing species poses unique problems due to elevated soil nitrogen availability. Mitigation practices that reduce available nitrogen may ameliorate this problem. We evaluated the effects of tree removal followed by soil preparation or mulching on native plant growth and soil nitrogen transformations in a pine–oak system formerly occupied by exotic nitrogen‐fixing Black locust (Robinia pseudoacacia) trees. Greenhouse growth experiments with native grasses, Andropogon gerardii and Sorghastrum nutans, showed elevated relative growth rates in soils from Black locust compared with pine–oak stands. Field soil nutrient concentrations and rates of net nitrification and total net N‐mineralization were compared 2 and 4 years since Black locust removal and in control sites. Although soil nitrogen concentrations and total net N‐mineralization rates in the restored sites were reduced to levels that were similar to paired pine–oak stands after only 2 years, net nitrification rates remained 3–34 times higher in the restored sites. Other nutrient ion concentrations (Ca, Mg) and organic matter content were reduced, whereas phosphorus levels remained elevated in restored sites. Thus, 2–4 years following Black locust tree removal and soil horizon mixing achieved through site preparation, the concentrations of many soil nutrients returned to preinvasion levels. However, net nitrification rates remained elevated; cover cropping or carbon addition during restoration of sites invaded by nitrogen fixers could increase nitrogen immobilization and/or reduce nitrate availability, making sites more amenable to native plant establishment.     

土壤纤毛虫群落对不同退还模式生态恢复的响应

为了探究土壤纤毛虫群落对不同退还模式生态恢复的响应及利用其群落特征来评价退还效果,于2014年4月至2015年7月在甘肃省天祝藏族自治县朵什乡退耕还林区选取了3个不同退还林型样点(云杉、沙棘混交林A1,云杉林A2,沙棘林B1)和2个对照耕地样点(小麦地A0,豌豆地B0)为研究样地,采用"非淹没培养皿法"、活体观察法和培养直接计数法对土壤纤毛虫群落特征进行了研究,同时测定了各样点土壤的相关环境因子,并分析了不同恢复模式下土壤纤毛虫群落特征与植被群落参数、土壤环境因子间的相关性。研究共鉴定到125种土壤纤毛虫,隶属于9纲19目29科34属。结果显示:退还样点和对照样点的土壤纤毛虫群落结构特征存在明显差异(P0.05),退还样点间的物种相似性减小,群落组成复杂化;退还样点土壤纤毛虫物种数、密度、物种多样性指数、均匀度指数和丰富度指数均明显增高(P0.05),且各样点间表现为A1B1A2B0A0;各样点优势类群的演替趋势,由对照样点的肾形目演替为退还样点的散毛目。相关性分析和冗余分析结果表明,退耕还林后,对纤毛虫群落结构稳定影响最主要的是有机质、含水量和全氮的含量,不同林型间土壤纤毛虫群落组成差异较大,表明土壤纤毛虫群落结构可作为对退耕还林生态恢复的评价指标。     

黄土丘陵区人工灌木林恢复过程中的土壤微生物生物量演变

采用时空互代法,以黄土丘陵区生态恢复过程中不同年限的人工柠条和沙棘林为研究对象,选取坡耕地和天然侧柏林为对照,分析了植被恢复过程中土壤微生物生物量、呼吸强度、代谢商(qCO₂)及土壤理化性质的演变特征.结果表明：生态恢复过程中人工柠条林土壤理化性质得到明显改善,微生物生物量随恢复年限的增加变化显著,柠条栽植7 a后微生物生物量碳较坡耕地显著增加,随后每5～7 a的变化均达到显著水平;微生物生物量氮和微生物生物量磷在前13 a无显著变化,20~30 a处于基本稳定期,较坡耕地显著增加,但明显低于天然侧柏林;呼吸强度随恢复年限的增加逐渐升高,20~25 a达到最大值,随后开始下降,30 a时达到最低值;qCO₂在恢复初期较坡耕地显著升高,随后迅速降低,30 a后回落至坡耕地之下,但仍显著高于天然侧柏林;不同灌木林对土壤质量的改善作用不同,恢复年限相同的沙棘林土壤微生物生物量、呼吸强度明显高于柠条林,但qCO₂无显著差异.相关性分析显示,微生物生物量碳、氮、磷、qCO₂与土壤养分和恢复年限显著相关.黄土丘陵区人工灌木林可通过生物的自肥作用恢复土壤肥力和增加微生物生物量,但要恢复到破坏前该地区顶级群落时的土壤微生物生物量和理化指标,必须加强林地管理,促进植物群落的拓殖与更替,且此过程相对于生态破坏过程要漫长的多.     

秦岭地区不同林分土壤微生物群落代谢特征

利用BIOLOG微孔板法研究了秦岭山脉的锐齿栎(Quercus aliena var.acutidentata)、油松(Pinus tabuliformis)、华山松(Pinus armandii)、松栎混交、云杉(Picea asperata)6个林地5种典型林分土壤微生物群落代谢特征。发现:(1)5种典型林分中,华山松的平均颜色变化率(AWCD)最高,然后是锐齿栎1云杉油松锐齿栎2松栎混交。位于不同林场的锐齿栎林地土壤AWCD值差异较大;(2)土壤微生物功能多样性指数与平均颜色变化率表现一致,6种林分之间差异显著,且不同的林分土壤微生物对6种碳源利用差异较大。(3)主成分分析显示各土壤微生物功能多样性具有显著差异,其综合因子得分为华山松锐齿栎1油松云杉锐齿栎2松栎混交。(4)冗余分析表明土壤p H、有机质、全氮、碱解氮、速效磷和速效钾的综合作用对土壤微生物群落功能多样性有显著影响,其中速效磷和p H与土壤微生物功能多样性最密切。     

外来物种刺槐对土壤微生物功能多样性的影响

以延河流域不同植被区内人工刺槐(Robinia pseudoacacia)群落和乡土植物群落的土壤微生物为研究对象,利用Biolog微平板技术对土壤微生物功能多样性进行测定,分析人工引种刺槐在不同环境梯度(3个植被区)下对土壤微生物功能多样性的影响。结果表明:刺槐对不同环境梯度下的土壤微生物的影响明显不同。从草原区到森林区,刺槐林之间土壤微生物群落的平均颜色变化率(AWCD)和土壤微生物功能多样性指数均没有显著变化;但与乡土植物群落比较,草原区、森林草原区和森林区土壤AWCD分别表现为刺槐乡土植物、刺槐乡土植物、刺槐乡土植物;在草原区和森林草原区刺槐林土壤微生物群落的群落丰富度指数(S)、Shannon-Wiener指数(H)、Simpson指数(D)、Mc Intosh指数(U)均大于乡土植物,森林区刺槐林群落丰富度指数(S)、Shannon指数(H)、Simpson指数(D)均小于乡土植物;刺槐林和乡土植物群落下土壤微生物碳源利用存在差异,主要体现在对糖类、氨基酸类的利用上。PCA分析显示主成分1贡献较大的碳源有24种,在主成分分离中起主要贡献作用的是糖类、氨基酸类和羧酸类。土壤碳氮含量能影响土壤微生物功能多样性指数,土壤含水量和温湿度能够影响碳源的利用类型。刺槐对土壤微生物功能多样性的影响存在区域差异,在评价刺槐对土壤生态过程与功能的影响时必须要考虑这种空间差异性。