轮伐期前后不同密度巨桉(Eucalyptus grandis)人工林土壤动物群落结构特征

在前期巨桉(E.grandis)人工林土壤生物多样性在轮伐期前(4年左右)降低,此后随林龄显著升高的研究基础上,在四川省丹棱县选择轮伐期前即4年和轮伐期后即8年的不同密度(D1:2000, D2:1600, D3:1200株/hm~2)巨桉人工林,研究了其土壤动物群落结构特征。结果显示:1)共捕获土壤动物2904只,隶属于4门8纲22目70科,其中大型土壤动物541只,以蚁科和康叭科为优势类群;中小型土壤动物2363只,以大翼甲螨科、等节虫兆科和线虫为优势类群。2)土壤动物类群数、个体数和密度随林分密度和林龄具有显著差异,4年生林地大型土壤动物个体数随密度降低显著增加,8年生巨桉人工林中小型土壤动物个体数及类群数随密度降低均显著增加;土壤动物个体数及类群数除D1密度时4年高于8年,其余密度均表现为8年高于4年。3)林分密度对土壤动物多样性指数有显著影响,4年生林地大型土壤动物Margalef丰富度指数随密度降低显著增加,8年巨桉人工林中小型土壤动物Shannon-wiener指数及Margalef丰富度指数随密度降低显著升高。4)巨桉人工林大型土壤动物以杂食性为主,枯食性次之,中小型土壤动物以腐食性为主,杂食性次之。5)RDA分析显示,林分密度、土壤含水量和土壤pH为对土壤动物的主要作用环境因子,4年时对奥甲螨科、长角长虫兆科、寄螨科、隐翅甲科、丽甲螨科等类群影响较大;8年时对线虫、蜚蠊科、康叭科、厉螨科、棘虫兆科等类群影响较大。为此,延长轮伐期、降低林分密度可改善巨桉人工林土壤动物生境、增加土壤动物多样性、促进土壤动物群落结构稳定性。     

不同郁闭度控制下马尾松（Pinus massoniana）人工林土壤动物群落特征

采用郁闭度控制方法,形成马尾松人工林郁闭度梯度(0.5,0.6,0.7,0.8,0.9)试验样地,研究不同郁闭度下土壤动物群落特征。运用手捡法、Tullgren法和Baermann法进行土壤动物群落调查。结果显示,1)共捕获土壤动物8 860只,隶属于4门11纲25目111科,其中大型土壤动物589只,以蜚蠊、疣和康叭为优势类群;中小型土壤动物8271只,以等节和丽甲螨为优势类群。2)大型土壤动物以杂食性为主,杂食性在0.9郁闭度显著增加,捕食性显著减少;中小型土壤动物以菌食和腐食性为主,腐食性土壤动物随郁闭度增大逐渐增加,菌食性逐渐减少。中小型捕食性土壤动物在郁闭度0.5—0.7显著增加,0.7—0.9无显著变化。3)大型土壤动物仅5—10 cm土层类群数在0.9郁闭度显著增加;中小型土壤动物总个体数及枯落物层个体数、5—10 cm土层类群数显著增加(0.5—0.7)后减少(0.7—0.9);中小型土壤动物总类群数在郁闭度0.5—0.6显著增加,枯落层类群数在郁闭度0.5—0.8显著增加,0.8—0.9显著减少。4)大型、中小型土壤动物多样性在土层中差异显著。中小型土壤动物Simpson优势度指数随郁闭度增大而减小,Shannon-Wiener多样性指数、Pielou均匀性指数则显著增大,Margalef丰富度指数先显著增高(0.5—0.6)后趋于平稳(0.6—0.9);大型土壤动物Jaccard相似性指数低于中小型。5)CCA分析表明,不同类群土壤动物对环境因子响应不同,郁闭度、含水量、有机质及全P对土壤动物类群影响显著。研究表明,0.7郁闭度马尾松人工林下土壤动物优势度、丰富度适中,林下植被恢复情况较好,该郁闭度可能更有利于土壤动物多样性和群落稳定性。     

水东枣园土壤动物与土壤环境的关系

１９９２年１２月－１９９３年２月,对安徽省宣州市东枣园土壤动物进行了调查,共获大、中小型土壤动物５８７５个,分隶属于５门、１１纲、２８目、３５类。螨类、线虫类为优势类群,线蚓类、弹尾类为常见类群,通过７个样地对比得出：枣树种植年代愈久,土壤动物愈丰富,其类群数随土壤养分的增加而增加,随ＰＨ值和土壤容重的增大而减少,且其类群与个体数随土壤深度的增加而递减。     

三种温带森林大型土壤动物群落结构的时空动态

对帽儿山3种典型森林群落大型土壤动物进行了连续6个月的野外调查研究。通过系统分析,共获得大型土壤动物3604只,隶属于3门6纲17目50科。其中正蚓科(Lumbricidae)、线蚓科(Enchytraeidae)和石蜈蚣目(Lithobiomorpha)为优势类群,常见类群11类。结果表明:(1)水平分布上,密度和生物量红松人工林最高,其次为硬阔叶林,蒙古栎林最少;类群数硬阔叶林最多,蒙古栎林最少;香农指数和丰富度指数均为蒙古栎林最高,红松人工林最低;优势度指数与两者相反;均匀度指数蒙古栎林最高,硬阔叶林最低;(2)垂直分布上,个体密度、类群数及生物量均差异显著(P < 0.001)。3个样地大型土壤动物个体密度表聚性明显;类群数红松人工林自凋落物层向下减少,硬阔叶林和蒙古栎林0-10 cm最多;生物量在0-10 cm土层最大;香农指数随深度增加而减小,优势度指数则相反;(3)在时间变化上,5月和10月个体密度和类群数较多,9月生物量最大;香农指数和优势度指数差异显著(P < 0.01),其他指数各月间无明显差异;(4)与土壤环境因子关系上,总有机碳含量与类群数、个体密度及生物量显著正相关,容重与香农指数显著负相关;典型对应分析结果表明,不同类群大型土壤动物与环境相关性不同。     

马尾松人工林郁闭度对大型土壤动物功能群的影响

将土壤动物分为捕食性、腐食性、杂食性、食木性和菌食性5个功能群,研究马尾松人工林各功能群大型土壤动物随郁闭度(0.5、0.6、0.7、0.8、0.9)的变化.结果表明: 1)各郁闭度马尾松人工林大型土壤动物以腐食性个体比例最高,类群上以杂食性和食木性为主.2)马尾松人工林大型捕食性土壤动物个体数、类群数和食木性类群数在0.5～0.6郁闭度下无显著变化,在0.6～0.9郁闭度下显著降低.3)随郁闭度增大,枯落物层捕食性土壤动物个体和类群数显著减少,5～10 cm层腐食性土壤动物个体数呈不规则的波动变化.食木性土壤动物个体数随土层加深而增多,且在枯落层其类群数及5～10 cm层个体和类群数随郁闭度增大而显著减少.4)不同郁闭度下,除食木性土壤动物功能群Pielou均匀度无显著差异外,食木性和腐食性土壤动物各多样性指标均差异显著;捕食性土壤动物仅Simpson优势度指数在0.5～0.8郁闭度下无显著变化,在0.8～0.9郁闭度下显著降低.5)典范对应分析(CCA)显示,不同郁闭度马尾松人工林大型土壤动物功能群主要受土壤容重和含水量的影响.含水量对腐食性土壤动物个体数影响较大,食木性、捕食性土壤动物受土壤容重影响,捕食性土壤动物Simpson优势度指数受土壤pH和全磷影响.大型土壤动物功能群结构在0.7郁闭度下相对稳定,有利于马尾松人工林地力维持和生态功能的发挥.     

浙江金华不同城市绿地大型土壤动物群落结构与多样性

2004年10-11月对金华市市区8种城市绿地生境中的大型土壤动物群落进行了调查,共获得大型土壤动物1231只,隶属3门8纲20目。其中优势类群为近孔寡毛目、膜翅目、双尾目和蜘蛛目,常见类群为正蚓目、等足目、柄眼目、鞘翅目、鳞翅目、双翅目和同翅目,其余类群为稀有类群。不同城市绿地生境中的土壤动物的类群组成以及个体数不同。在土壤动物研究中,群落复杂性指数(C)比Shannon-Wiener指数(H′)更能体现群落的复杂性与多样性,且能修正不同类群个体数对多样性的影响。大型土壤动物显示了明显的表聚现象,垂直分布有明显差异,类群数和个体数随深度增加而减少。群落聚类以及排序的结果显示,8种城市绿地生境中的大型土壤动物群落可以分为6大类:草坪类、草地类、新植草坪类、无草本层的人工林类、有草本层的人工林类和灌木林类。     

黑龙江省不同纬度梯度农田大型土壤动物群落分布特征

沿着由高到低的纬度梯度,分别在塔河、带岭、帽儿山的农田生境选择研究样地,采用手捡法调查不同纬度农田生态系统大型土壤动物的群落组成、水平结构、垂直结构和多样性特征,并运用双变量相关分析及典范对应分析阐明土壤动物群落和环境因子的相互关系,旨在揭示黑龙江省不同纬度梯度农田大型土壤动物群落分布特征及其影响因素。调查共捕获大型土壤动物35类2339只,隶属于2门6纲14目35科。其中线蚓科(Enchytraeidae)、正蚓科(Lumbricidae)、步甲科(Carabida)、隐翅虫科(Staphylinidae)为优势类群,其个体数占总个体数的58.84%;常见类群为蚁科(Formicidae)、蜘蛛目(Araneida)和地蜈蚣目(Geophilomorpha)等8类,其个体数占总个体数的32.79%。结果表明:(1)水平分布上:大型土壤动物个体密度和丰富度(即类群数)的水平分布均表现为帽儿山带岭塔河,单因素方差分析表明大型土壤动物的个体密度和丰富度在不同纬度地区无显著差异。Shannon-wiener多样性指数(H')和Pielou均匀度指数(E)均为帽儿山带岭塔河;Simpson优势度指数(C)表现为塔河和带岭最高,帽儿山最少;Margalef丰富度指数(D)则是塔河最多,其次为帽儿山和带岭。(2)垂直分布上:3个不同纬度样地的农田土壤动物个体密度和丰富度在同垂直层次间不存在明显差异(P0.05)。除帽儿山5—10 cm土层土壤动物类群数量较表层增加之外,其他样地大型土壤动物个体密度和丰富度均随土层深度的增加而逐渐降低,表聚性明显。(3)与土壤环境因子关系上:双变量相关分析表明,不同纬度农田大型土壤动物的类群数、个体密度、多样性指数、均匀度指数和优势度指数与土壤p H值、有机质、全氮、全磷和速效磷均没有显著的相关性;典范对应分析(CCA)进一步表明,优势类群和常见类群对环境因子具有较强的适应能力,广泛的分布在3个样地内。研究表明,农田生态系统大型土壤动物的类群数、个体密度和多样性指数随纬度梯度的增加先增加后减少,但不同纬度间均无显著性差异。不同土壤动物类群受到环境变量的影响程度不同,在局地尺度环境因子对土壤动物的影响不容忽视。研究为区域尺度农田生态系统土壤动物空间格局和生物多样性维持机制研究奠定基础。     

北京门头沟废弃采石矿区地表土壤动物群落多样性

以北京门头沟废弃矿区为例,研究弃矿生态恢复地表土壤动物群落多样性。2006年3月～4月,在设置的样带内,采用陷阱法对石灰矿天然恢复(下段)和人工恢复(上段)区的地表土壤动物群落进行调查。在157个陷阱中,共采集到地表土壤动物2604只(未知类群112只),隶属1门4纲16目1亚目47科。大型土壤动物优势类群有叶蝉科、蚁科,分别占大型土壤动物的22.45%和47.71%;中小型土壤动物优势类群有等节跳科、长角跳科和甲螨亚目,分别占中小型土壤动物的23.27%、35.22%和41.01%。矿区地表动物营养功能群以植食性和捕食性为主。Spearman等级相关分析表明,上、下段之间地表土壤动物个体数差别极显著(rs=0.446,p<0.01)。上段土壤动物个体数、类群丰富度和类群多样性随时间差异均显著(p<0.05);上、下段,部分土壤动物个体数、类群丰富度和类群多样性之间存在显著性差异(p<0.05)。非度量多维标度(Non-matricMultidimentionalScaling,No-metricMDS)分析表明,地表土壤动物个体数量、类群以及营养功能群的分布与恢复方式、土壤养分状况、地表植被状况有关。     

长春市不同土地利用条件下大型土壤动物群落结构与组成

对长春市郊区天然次生林、市区公园绿地、郊区防护林和农田等典型土地利用生境进行大型土壤动物调查,手拣法野外采集大型土壤动物,应用个体密度和类群数量等指标,研究土地利用变化对大型土壤动物群落特征的影响。研究区共捕获大型土壤动物3773只,分别隶属于3门6纲17目102科。研究结果表明：不同土地利用生境大型土壤动物群落个体密度和类群数存在差异,其中郊区农田和防护林土壤动物的类群数和个体密度明显减少;植物群落类型对大型土壤动物群落特征有一定影响;大型土壤动物群落个体密度和类群数主要集中分布在地表0-5cm土壤层,生境地表凋落物的移除对土壤动物群落的类群数和个体密度影响不明显;此外,不同土壤动物类群对土地利用变化的响应也不同。     

吉林省中西部平原区大型土壤动物群落组成与生态分布

对吉林省中西部平原区天然次生林、农田、居民点园地、“三北”防护林和天然割草场等典型土地利用生境进行大型土壤动物调查,野外手拣法采集大型土壤动物,研究大型土壤动物的群落组成与生态分布,了解土地利用差异对大型土壤动物群落特征的影响。共捕获大型土壤动物3门7纲16目101科5842只,优势类群为草蚁属、路舍蚁属和裸线蚓属,占全部总捕获个体数的49．20％。分析结果表明：大型土壤动物类群空间分布的广狭与个体数量的多寡在吉林省中西部平原区呈现出明显的一致性;中部平原区与西部平原区大型土壤动物群落组成存在显著差异;中西部大型土壤动物个体数量差异主要体现在优势类群方面,类群数量差异主要体现在稀有类群方面;土地利用差异明显影响大型土壤动物个体密度和类群数分布,其中农田和居民点园地土壤动物个体密度和类群数明显减少,但对土壤动物的垂直分布没有影响。     

Natural regeneration of Pinus resinosa on burned and unburned sites in Newfoundland

Abstract. Natural regeneration of Pinus resinosa (red pine) seedlings around mature trees was studied in burned and unburned stands. Growth inhibitory effects of the forest organic matter on red pine seedlings was tested by a stair-step experiment using leachate of forest soil monoliths and also by a seed germination bio-assay using forest floor substrates. To test if higher burning temperatures can remove the allelopathic effects of red pine-Kalmia organic matter, a laboratory bio-assay was conducted by germinating red pine seeds on the organic matter burned at 200, 400, 600 and 800°C. Deposition of dry needles and a thick duff layer under red pine stands affected seedling establishment. Red pine seedling establishment increased with the decreasing thickness of duff layer away from the stump of the seed-bearing trees. Wildfire helped in removing the duff layer and increased seedling establishment. A high fuel load within a 0 - 1 m radius around the tree stump caused a deep burn of the organic matter including part of the soil seed reserve. On a burned-over surface, more seedlings established in a band between 1 and 2 m around the stump than inside and outside the band. Primary root growth of red pine was severely inhibited when the seedlings were grown in unburned forest floor organic matter where Kalmia was the principal understory species. Water leachate of a Pinus resinosa-Kalmia soil monolith was inhibitory to red pine seedling growth. In greenhouse conditions, the seedlings grew well in burned-over soil from a Pinus resinosa stand. Burned organic matter from a red pine forest showed an increase in pH with a burning temperature of 600°C. Primary root growth of red pine seedlings was similarly increased with increasing temperature up to 600°C; at higher temperatures the root length of seedlings did not increase any further.     

Oviposition patterns of the pine weevil Hylobius abietis

Spatial and temporal distributions of eggs laid by the pine weevil Hylobius abietis (L.) (Coleoptera: Curculionidae) were studied by taking root and soil samples around pine stumps on a clear-cutting in central Sweden. In addition, first-instar larvae migrating in the soil were sampled using traps baited with host-odour. Eggs were found in the soil rather than in the bark of stump roots, which previously has been regarded as the usual oviposition site. Based on an oviposition experiment and additional field observations we conclude that eggs are laid in the bark of roots only when the surrounding material is likely to dry out. We suggest two explanations for why weevils oviposit mainly in the soil, although they are known to show stereotypic behaviour when inserting eggs in stump roots: (1) egg predation by other arthropods or by conspecifics is avoided, and (2) newly hatched pine weevil larvae are better than ovipositing females at locating suitable sites for larval feeding.     

Changes in populations of soil microorganisms,nematodes, and enzyme activity associated with application of powdered pine bark

Evaluation of enzyme activities in combination with taxonomic analyses may help define the mechanisms involved in microbial decomposition of orgaic amendments and biological control of soilborne pathogens. In this study, powdered pine bark was added to nematode-infested soil at rates of 0, 5, 10, 15, 20, 25, 30, 35, 40, 45, and 50 g kg^–1. Total fungal populations did not differ among treatments immediately after application of pine bark. After 7 days, fungal populations were positively correlated with increasing levels of pine bark. This increase was sustained through 14 and 21 days.Penicillium chrysogenum andPaecilomves variotii were the predominant fungal species isolated from soil amended with pine bark. Total bacterial populations did not change with addition of pine bark at 0, 7, and 14 days after treatment. At 21 and 63 days, total bacterial populations declined in soil receiving the highest rates of pine bark. Addition of pine bark powder to soil caused a shift in predominant bacterial genera fromBacillus spp. in nonamended soil, toPseudomonas spp. in amended soil. Soil enzyme activities were positively correlated with pine bark rate at all sampling times. Trehalase activity was positively correlated with total fungal populations and with predominant fungal species, but was not related to bacterial populations. The number of non-parasitic (non-stylet bearing) nematodes andMeloidogyne arenaria in soil and roots were not correlated with pine bark rate. However,Heterodera glycines juveniles in roots, and the number of cysts g^–1 root, declined with increasing levels of pine bark.Journal Series Series No. 18-933598 Alabama Agricultural Experiment Station     

Temperature and vegetation effects on soil organic carbon quality along a forested mean annual temperature gradient in North America

Both climate and plant species are hypothesized to influence soil organic carbon (SOC) quality, but accurate prediction of how SOC process rates respond to global change will require an improved understanding of how SOC quality varies with mean annual temperature (MAT) and forest type. We investigated SOC quality in paired hardwood and pine stands growing in coarse textured soils located along a 22 °C gradient in MAT. To do this, we conducted 80‐day incubation experiments at 10 and 30 °C to quantify SOC decomposition rates, which we used to kinetically define SOC quality. We used these experiments to test the hypotheses that SOC quality decreases with MAT, and that SOC quality is higher under pine than hardwood tree species. We found that both SOC quantity and quality decreased with increasing MAT. During the 30 °C incubation, temperature sensitivity (Q₁₀) values were strongly and positively related to SOC decomposition rates, indicating that substrate supply can influence temperature responsiveness of SOC decomposition rates. For a limited number of dates, Q₁₀ was negatively related to MAT. Soil chemical properties could not explain observed patterns in soil quality. Soil pH and cation exchange capacity (CEC) both declined with increasing MAT, and soil C quality was positively related to pH but negatively related to CEC. Clay mineralogy of soils also could not explain patterns of SOC quality as complex (2 : 1), high CEC clay minerals occurred in cold climate soils while warm climate soils were dominated by simpler (1 : 1), low CEC clay minerals. While hardwood sites contained more SOC than pine sites, with differences declining with MAT, clay content was also higher in hardwood soils. In contrast, there was no difference in SOC quality between pine and hardwood soils. Overall, these findings indicate that SOC quantity and quality may both decrease in response to global warming, despite long‐term changes in soil chemistry and mineralogy that favor decomposition.     

马尾松人工林伐桩储量与分解特征

伐桩在人工林生态系统地力维持、碳吸存、生物多样性保育、水土保持等方面具有十分重要的意义, 但对其储量及其分解特征的研究并不多见。因此, 该文作者基于马尾松(Pinus massoniana)人工林采伐档案, 2013年7月以1999-2013年间采伐残留的伐桩为研究对象, 调查了1-15年伐桩系统的木桩(SW)、树皮(B)、根桩(SR), 以及不同径级根系(R1: 0 mm <径级≤10 mm; R2: 10 mm <径级≤25 mm; R3: 25 mm <径级≤100 mm; R4: 径级> 100 mm)的储量与分解特征。研究结果表明: 马尾松人工林整个伐桩系统储量介于5-58 t·hm^-2之间, 根桩储量最大, 木桩储量次之, 树皮储量最小, 根桩、木桩和树皮的储量均随着分解时间而降低。伐桩密度随分解时间而降低, 但木桩、根桩和粗根径级均显著影响密度的变化。木桩、树皮和根桩的分解常数分别为0.061、0.027、0.036, R1、R2、R3、R4根系的分解常数分别为0.079、0.042、0.047、0.119。由此可见, 马尾松人工林伐桩系统具有较高的储量, 但分解较慢, 且不同组分的降解速率具有显著差异。     

Response of soil microbial communities to changes in a forest ecosystem brought about by pine wilt disease

Japan has suffered a lot from forestry losses due to pine wilt disease caused by pinewood nematode infestations. Studies were conducted regarding its causative agent and the effects of natural vegetation succession after pine wilt disease, but its effects on microorganisms were not given equal attention. This study determined the effects of pine wilt disease on light conditions, soil microbial biomass, litter decomposition, microbial abundance and the physical and chemical properties of the soil. Results showed that in a forest currently affected by pine wilt disease, there was higher light penetration, greater microbial biomass carbon, and a faster rate of litter decomposition. Microbial abundance was shown to be reduced in pine wilt affected areas. There were close correlations between the biological and physicochemical properties of the soil, but the reason for the decrease in microbial abundance is not yet well understood, and thus requires further study.     

Effects of mixing pine and broadleaved tree/shrub litter on decomposition and N dynamics in laboratory microcosms

This study was carried out to compare the ecological function of exotic pine (Pinus radiata—Pr) and native pine (Pinus tabulaeformis—Pt) in terms of litter decomposition and its related N dynamics and to evaluate if the presence of broad-leaved tree species (Cercidiphyllum japonicum—Cj) or shrub species (Ostryopsis davidiana—Od) litter would promote the decomposition of pine needles and N cycling. Mass remaining, N release of the four single-species litters and mixed-species (Pt + Cj; Pr + Cj; Pt + Od; Pr + Od) litters and soil N dynamics were measured at microcosm scale during an 84-day incubation period. The Pt and Pr litter, with poorer substrate quality, indicated slower decomposition rates than did the Cj and Od litter. Due to their high C/N ratios, the N mass of Pt and Pr litter continuously increased during the early stage of decomposition, which showed that Pt and Pr litter immobilized exogenous N by microbes. No significant differences of soil inorganic, dissolved organic and microbial biomass N were found between the Pt and Pr microcosm at each sampling. The results showed that the exotic Pr performed similar ecological function to the native Pt in terms of litter decomposition and N dynamics during the early stage. The presence of Cj or Od litter increased the decomposition rates of pine needle litter and also dramatically increased soil N availability. So it is feasible for plantation managers to consider the use of Cj as an ameliorative species or to retain Od in pine plantations to promote the decomposition of pine litter and increase nutrient circulation. The results also suggested that different species litters induced different soil dissolved organic nitrogen (DON). As a major soluble N pool in soil, DON developed a different changing tendency over time compared with inorganic N, and should be included into soil N dynamic under the condition of our study.     

温度、水分和森林演替对中亚热带丘陵红壤氮素矿化影响的模拟实验

研究了温度、水分和演替阶段及其交互作用对中亚热带丘陵红壤区森林土壤氮素矿化过程及其矿化速率的影响.结果表明：温度和演替阶段对土壤氨化速率影响显著,其中12 ℃<24℃<36 ℃,灌丛林和马尾松(Pinus massoniana)林低于常绿阔叶林(P＜0.05);而水分的影响不显著.水分和演替阶段对土壤硝化速率有显著影响,土壤半饱和含水量高于自然含水量及饱和含水量,且马尾松林高于灌丛林(P＜0.05);而温度的影响不显著.温度、水分和演替阶段对土壤氮净矿化速率的影响均显著,其中12 ℃<24 ℃<36 ℃,土壤半饱和含水量高于自然含水量和饱和含水量,灌丛林<马尾松林<常绿阔叶林(P＜0.05).温度升高有利于提高土壤氨化速率和净矿化速率,温度过高则抑制土壤硝化速率;土壤含水量适中有利于土壤氮素矿化过程;顺行演替将提高土壤供氮能力,且抑制过强的硝化作用.     

土壤湿度对东北3种主要树种凋落物分解的影响

结合丰林国家自然保护区原始阔叶红松林1998-2017年表层(0～10 cm)土壤湿度监测数据,评估了全球变化背景下土壤湿度变化对东北主要森林树种红松、臭冷杉和白桦凋落物分解的影响.结果表明: 在同一土壤湿度水平下,凋落物分解速率随着凋落物质量的增加而增大,即表现为白桦>臭冷杉>红松.凋落物的分解速率随着土壤湿度的降低而减小.白桦、臭冷杉和红松3种凋落物的土壤湿度敏感性指数(M₁₀)分别为0.782、0.789和0.827,土壤湿度水平每降低10%,初始分解速率分别减小21.8%、21.1%和17.3%.高质量凋落物(高氮含量、低碳氮比、低木质素含量)的分解速率对土壤湿度变化的响应更敏感.凋落物分解速率在不同凋落物类型间的差异随着土壤湿度的降低而缩小.近20年间,原始阔叶红松林土壤湿度呈显著减少趋势,对凋落物分解表现为抑制作用.在全球变化背景下,随着气温的升高,土壤湿度将继续降低,对凋落物的抑制作用会进一步增强,并将部分抵消因温度升高所带来的凋落物分解速率增大的压力.     

The effect of planting Pinus pinaster Ait. on populations of soil microarthropods and on litter decomposition at Gnangara,Western Australia

Litter decomposition rates and the population densities of soil microarthropods were measured in three Pinus pinaster stands thirty-one, twenty-three and eighteen years old, and on an area of native vegetation on sandy soil at Gnangara, W.A. Litter decomposition was faster in the soil than within the litter layer and was slowest at the litter surface. Decomposition was rapid in cool wet seasons and slow in hot, dry summers. Microarthropod population densities were similar on all sites (77–100 × 10³/m²) but species diversity was greatest under native vegetation and least under the youngest pine stand. The impoverished soil micro-fauna of the pine stands is unable to decompose pine or sclerophyll litter as fast as the full complement of soil microfauna in native vegetation.