Effects of seasonal grazing and precipitation regime on the soil macroinvertebrates of a Mediterranean old-field     

Alejandro Morón-Ríos  Miguel Á. Rodríguez  Lorenzo Pérez-Camacho  Salvador Rebollo 《European Journal of Soil Biology》2010,46(2):91-96

Soil macroinvertebrate communities (SMC) are well known to influence major ecosystem processes, but relatively few investigations have examined the mechanisms and factors involved in SMC regulation. We conducted a factorial experiment with combinations of seasonal grazing by sheep and irrigation (simulating different precipitation regimes) to assess their effects on the SMC of a semiarid Mediterranean old-field. We also analyzed effects on plant species richness, total aboveground biomass, and litter. The data were collected in autumn and spring, the two favorable seasons for SMC and primary production in the region, and season was included as an additional random factor. Main results were: 1) Ungrazed plots accumulated more aboveground plant biomass and litter during spring, providing extra food for soil biota. However, grazing during autumn or spring did not affect SMC characteristics. 2) Reduction of inter-annual precipitation variability in autumn and spring increased the abundance of two decomposer taxa: Oligochaeta and Diplopoda. Additionally, if summer drought was reduced, plant species richness, litter and the abundance of Isopoda were increased. 3) Oligochaeta and Diplopoda increase their abundance in spring, particularly, the most abundant taxon (Oligochaeta). We conclude that inter- and intra-annual variability in precipitation is a key environmental factor for the decomposer soil fauna in Mediterranean ecosystems, modifying the physical characteristics of the soils (humidity, hardness, etc.), as well as affecting the amount or characteristics of plant biomass or litter. The respiration system of the macroinvertebrates (cutaneous, tracheal or branquial) and the capacity to migrate vertically into the soil may determine the decomposers' responses to precipitation.  相似文献   

Microbial communities in the litter of middle taiga bilberry-spruce forests     

T. A. Sizonenko  S. V. Zagirova  F. M. Khabibullina 《Eurasian Soil Science》2010,43(10):1132-1139

The structure of the microbial communities in the litters of middle-taiga bilberry-spruce forests was studied. It was found that ammonifying and oligonitrophilic microorganisms predominate in these communities. Two maximums in the population density of the microorganisms were observed in June and August. The number of microorganisms increased in the direction from the spruce trunks to the periphery of the crowns. The species composition of the micromycetes in the litters under the spruce crowns and within the intercrown spaces differed. The maximum population density of the fungi was found in the litter under the periphery of the spruce crowns, whereas the maximum diversity of the micromycetes was observed within the intercrown spaces. The Trichoderma, Trichosporiella, Penicillium, Paecilomyces, and Chaetomium genera were most abundant in the litters of the bilberry spruce forests. The Penicillium genus had the maximum abundance during the entire growing period, and the amount of Mycelia sterilia increased in the fall. The maximum diversity of the fungi was observed in May and June.  相似文献   

Plant community impacts on the structure of earthworm communities depend on season and change with time     

Nico Eisenhauer  Alexandru Milcu  Holger Bessler  Christof Engels 《Soil biology & biochemistry》2009,41(12):2430-2443

Declining plant diversity potentially threatens essential ecosystem functions driven by the decomposer community, such as litter decomposition and nutrient cycling. Currently, there is no consensus on the interrelationships between plant diversity and decomposer performance and previous studies highlighted the urgent need for long-term experiments.In the Jena Experiment we investigated the long-term impacts of plant community characteristics on the structure of earthworm communities representing key decomposers in temperate grassland. We repeatedly sampled plots varying in plant species richness (1-16 species), plant functional group richness (1-4 groups), and presence of certain plant functional groups (grasses and legumes) three, four, and six years after establishment of the experiment in spring and autumn.The results show that earthworm performance is essentially driven by the presence of certain plant functional groups via a variety of mechanisms. Plant productivity (root biomass) explained most of the detrimental grass impacts (decrease in earthworm performance), while beneficial legume effects likely were linked to high quality inputs of plant residues (increase in earthworm performance). These impacts depended on the functional group of earthworms with the strongest effects on surface feeding anecic earthworms and minor effects on soil feeding endogeic species. Remarkably, effects of plant community characteristics on the composition and age structure of earthworm communities varied between seasons. Moreover, plant diversity effects reported by a former study decreased and detrimental effects of grasses increased with time.The results indicate that plant community characteristics, such as declining diversity, indeed affect the structure of earthworm communities; however, loss of key plant functional groups is likely to be more important than plant species number per se. However, in frequently disturbed ecosystems plant species richness might be important for the recovery and resilience of belowground functions. Moreover, the results accentuate the importance of long-term repeated measurements to fully appreciate the impacts of plant community composition and diversity on ecosystem properties. Single point observations may be misleading and potentially mask the complexity of above-belowground interrelationships.  相似文献   

Dynamics of zoomicrobial complexes upon decomposition of plant litter in spruce forests of the southern taiga     

A. A. Rakhleeva  T. A. Semenova  B. R. Striganova  V. A. Terekhova 《Eurasian Soil Science》2011,44(1):38-48

Comparative studies of the composition and abundance of soil-dwelling invertebrates (microarthropods, nematodes, and testate amoebas) and micromycetes in the course of leaf and needle litter decomposition were conducted in two types of spruce forests on white-podzolic and brown forest soils in a field experiment. The analysis of the destruction dynamics has revealed a correlation between the rate of the litter mass loss and the abundance of microarthropods and testate amoebas in the decomposing plant residues. The highest amplitude of the seasonal fluctuations in the number of invertebrates was found for the micromycetes and nematodes as compared to that for the testate amoebas and microarthropods. In the complexes of micromycetes and invertebrates, changes in the dominants were revealed at the different stages of the decomposition. The litter’s composition was found to be the main factor affecting the composition and abundance of the zoomicrobial complex of the destroyers. The type of biogeocenosis less influenced the abundance of pedobionts, but it determined their taxonomic composition to a greater extent. A significant inverse correlation was revealed between the number of micromycetes and that of small soil invertebrates.  相似文献   

水利开发对二滩水库浮游植物及水质状况季节性影响     

邓金燕 《水土保持研究》2016,23(1):349-355

2010—2014年连续5 a（春季、夏季、秋季、冬季）对四川二滩水库进行浮游植物及水质定点采样调查,研究水利开发对浮游植物种类组成、数量特征、群落多样性及水质状况的影响。结果表明:（1）水利开发区共检出浮游植物7门251种,绿藻门（Chlorophyta）90种,所占比例为35.86%,对照区共检出浮游植物7门166种,绿藻门68种,所占比例为40.96%,水利开发区和对照区浮游植物种类在夏季和秋季较高,春季和冬季较低;（2）二滩水库水利开发区和对照区浮游植物Shannon-Wiener多样性指数（H）、Pielou均匀度指数（J_P）、Margalef种类丰富度指数（S）在夏季和秋季较高,春季和冬季较低,随季节呈先增加后降低趋势,而浮游植物密度（D）在秋季最低,不同季节浮游植物密度和丰富度指数均表现为水利开发区显著或者极显著高于对照区,多样性指数和均匀度指数均表现为对照区极显著高于水利开发区（p < 0.01）;（3）水利开发区和对照区水温、pH,TN,NH₄⁺-N,TP,高锰酸钾指数,BOD₅和COD_cr浓度呈一致的变化规律,随季节的变化呈先增加后降低趋势,秋季最高,春季和冬季较低,其中水温在夏季最高,透明度随季节变化呈“V”字形规律,在春季最高,秋季最低,而水温和TP浓度在水利开发区和对照区并没有明显差异;不同季节pH,TN,NH₄⁺-N,高锰酸钾指数,BOD₅和COD_cr浓度均表现为水利开发区高于对照区,局部有所波动,在冬季二者的差异不明显,说明了水利开发对二滩水库冬季水质的影响较小;（4）相关性分析表明二滩水库浮游植物群落多样性与水温和TN浓度呈显著或极显著正相关,与pH呈显著负相关,说明pH、水温和TN含量是影响二滩水库浮游植物多样性的主要因素。  相似文献   

The bacterial community inhabiting temperate deciduous forests is vertically stratified and undergoes seasonal dynamics     

《Soil biology & biochemistry》2015

Bacterial communities living in forest soils contribute to the decomposition of organic matter and the recycling of nutrients in these ecosystems and form one of the most diverse habitats on Earth. Unfortunately, due to difficulty in culturing soil bacteria, the understanding of their ecology is still limited. In the case of temperate deciduous forests, soil microbial communities face large seasonal variations in environmental conditions, such as temperature or moisture. Moreover, the supply of nutrients also differs due to seasonal processes, such as the allocation of photosynthates into soil by the roots of primary producers or the seasonal input of fresh litter. The aim of this study was to reveal how the bacterial community responds to these seasonal processes in the litter and soil of a Quercus petraea forest. Bacterial communities from litter and from the organic and mineral horizons of soil were analyzed during the four seasons of the year by 16S rRNA gene pyrosequencing. The results revealed that the composition of the bacterial community is horizon specific. The litter horizon had a higher relative abundance of Proteobacteria and Bacteroidetes than soil, while the organic and mineral horizons had a higher abundance of Acidobacteria, Firmicutes and Actinobacteria than litter. Moreover, the bacterial community was significantly affected by seasonality in all horizons. Bacterial communities in the litter showed significant differences between the vegetation season (May and July) and the autumn and winter seasons (October, February). In mineral soil, bacterial community composition was specific in the summer, when it was significantly different from all other seasons, with a larger number of taxa described as rhizosphere and mycorrhizosphere inhabitants. The results indicate that litter decomposition is the main driver of bacterial community composition in litter horizon. In contrast to reports on fungal communities, bacterial community composition in mineral soil responds to the seasonal peaks of rhizodeposition in the summer.  相似文献   

Plant species richness leaves a legacy of enhanced root litter-induced decomposition in soil     

《Soil biology & biochemistry》2015

Increasing plant species richness generally enhances plant biomass production, which may enhance accumulation of carbon (C) in soil. However, the net change in soil C also depends on the effect of plant diversity on C loss through decomposition of organic matter. Plant diversity can affect organic matter decomposition via changes in litter species diversity and composition, and via alteration of abiotic and/or biotic attributes of the soil (soil legacy effect). Previous studies examined the two effects on decomposition rates separately, and do therefore not elucidate the relative importance of the two effects, and their potential interaction. Here we separated the effects of litter mixing and litter identity from the soil legacy effect by conducting a factorial laboratory experiment where two fresh single root litters and their mixture were mixed with soils previously cultivated with single plant species or mixtures of two or four species. We found no evidence for litter-mixing effects. In contrast, root litter-induced CO₂ production was greater in soils from high diversity plots than in soils from monocultures, regardless of the type of root litter added. Soil microbial PLFA biomass and composition at the onset of the experiment was unaffected by plant species richness, whereas soil potential nitrogen (N) mineralization rate increased with plant species richness. Our results indicate that the soil legacy effect may be explained by changes in soil N availability. There was no effect of plant species richness on decomposition of a recalcitrant substrate (compost). This suggests that the soil legacy effect predominantly acted on the decomposition of labile organic matter. We thus demonstrated that plant species richness enhances root litter-induced soil respiration via a soil legacy effect but not via a litter-mixing effect. This implies that the positive impacts of species richness on soil C sequestration may be weakened by accelerated organic matter decomposition.  相似文献   

Do invertebrate decomposers affect the disappearance rate of litter mixtures?     

Martin Schädler  Roland Brandl 《Soil biology & biochemistry》2005,37(2):329-337

We designed an experiment using litter bags with fine and coarse mesh size to analyse interacting effects between invertebrate decomposers and the number of litter species on litter disappearance rates. We used litter of nine broad-leaved tree species to compare disappearance rates of litter from single species with mixtures of two to six species. Species composition of litter and invertebrates interacted strongly in their effects on litter disappearance rate. Contribution of invertebrates to litter disappearance increased with time mainly for litter which disappeared slower in the absence of invertebrates. Disappearance rates were positively correlated with initial N content and negatively correlated to initial C content of litter. These relationships were stronger in the presence of invertebrates, suggesting that their activity is positively related to initial litter chemistry. Number of component litter species, however, had no effect on disappearance rate irrespective of the activity of invertebrates. Using individual rates of disappearance for single species, we calculated the expected rates of disappearance for each of the experimental mixtures of leaf litters. We found that mixtures of several species of leaf litter resulted in significant deviations from the expected values. These deviations showed a significant effect of the number of component litter species. However, this result was caused by a strong negative deviation of one single mixture of six species. The presence of invertebrates resulted in even greater deviations from the expected values, suggesting an important contribution of invertebrates to the effects of litter mixing on litter disappearance rates. Hence, our results underline the importance of idiosyncratic effects of species traits in mixtures. Our results suggest that the influence of invertebrate decomposers interacts with litter chemistry during decomposition, but is not affected by litter species richness per se.  相似文献   

Non-additive effects of mixing different sources of dissolved organic matter on its biodegradation     

《Soil biology & biochemistry》2014

To examine the potential impact of plant species richness on ecosystems, we studied non-additive effects of different plant litters on the biodegradation rate of dissolved organic matter (DOM) when mixing plant leaf-derived DOM derived from different plant species. A full factorial biodegradation experiment (31 possible singular and multiple combinations of five litter type-derived DOM sources) was conducted using plant litters from the five most abundant plant species in a subtropical watershed ecosystem, from which dissolved organic carbon (DOC) disappearance was measured. Loss of DOC over time was considered biodegradable DOC. We tested whether DOM diversity, measured as source species richness and composition, would affect biodegradation rates. Overall, we found significant non-additive (synergistic) effects of DOM diversity on biodegradation rates of DOM, which were explained both by plant species richness and composition. Across all treatments, a significantly higher biodegradation rate was correlated with the presence of DOM from higher nitrogen (N) containing plant litters; conversely, the presence of lower N decreased these rates. The N content and chemical characteristic of DOM might influence the magnitude of the synergistic effect. Our results suggest that loss of plant litter species diversity would not affect DOC biodegradation rate, provided that at least two species are conserved. However, the variability in DOC biodegradation rate across the treatments decreased with increased DOM diversity at three incubation time points. Our results also indicate that in an ecosystem with low plant biodiversity, loss of key species such as Lophostemon confertus could reduce the synergistic effects on DOC biodegradation rate.  相似文献   

Temporal dynamics of microbial communities on decomposing leaf litter of 10 plant species in relation to decomposition rate     

《Soil biology & biochemistry》2012

Few empirical studies have examined how microbial communities on decomposing litters change in relation to litter chemistry or how microbial community composition is related to the rate of decomposition. We examined the relationships among microbial community composition, litter chemistry, and decomposition rates in a common garden experiment of the decomposition of leaf litters of 10 plant species. Microbial community composition, as measured by phospholipid fatty acids (PLFA), and 7 litter chemistry variables (%N, C:N, four carbon fractions, and lignin:N) were examined at 1, 2, and 8 months into decomposition. Both microbial and litter chemistry variables were reduced to a single axis each through nonmetric multidimensional scaling (NMS) to examine the relationship between microbes, litter chemistry, and decomposition rates. Although microbial communities were separated according initial litter chemistry and lability, individual measures of litter chemistry had limited ability to predict microbial community composition during decomposition. Decomposition rate constants were explained by litter chemistry of initial, 1-, 2- and, 8-month old litters (60–72% of the variance), and by microbial community composition at the 8-month collection date (67%). The results suggest that initial litter chemistry determines the rate of decomposition and microbial community composition early in decomposition while the composition of the microbial community plays a more important role in determining decomposition rate later in decomposition.  相似文献   

Microbial mineralization of atrazine and 2,4-dichlorophenoxyacetic acid in riparian pasture and forest soils     

J. A. Entry  W. H. Emmingham  P. K. Donelly 《Biology and Fertility of Soils》1994,18(2):89-94

Microbial biomass and mineralization of atrazine [2-chloro-4(ethylamino)-6(isopropylamino)s-triazine] and 2,4-D (2,4-dichlorphenoxyacetic acid) were examined in the top 10 cm of riparian pasture soils and in the litter layer and top 10 cm of mineral soils of riparian forest ecosystems. The riparian forest litter had higher levels of active and total fungal biomass than forest or pasture mineral soils in winter, spring, and fall. Active bacterial biomass was higher in forest litter than in forest and pasture mineral soils in spring and autumn, and higher in forest mineral soils than in pasture soils in summer. Total bacterial biomass was higher in forest mineral soils than in pasture soils during all seasons. In spring, it was also higher in forest litter than in pasture soils. Atrazie and 2,4-D mineralization in pasture soils was exceeded by that in forest litter in spring and autumn and by that in forest mineral soils in summer and autumn. There was no correlation between either active or total fungal and bacterial biomass with pesticide degradation.  相似文献   

Soil macroinvertebrate fauna of a Mediterranean arid system: Composition and temporal changes in the assemblage     

Enrique Doblas-Miranda  Francisco Sánchez-Piñero  Adela González-Megías 《Soil biology & biochemistry》2007,39(8):1916-1925

Temporal variability is a key factor to understand the structure of belowground communities. Seasonal and annual variations are especially relevant in unpredictable desert ecosystems, where macroinvertebrates are poorly known, despite constituting an important group of soil organisms. In the present study, we analyse the composition and temporal (seasonal and annual) variations of soil macroinvertebrates in an arid area of southern Spain. During two years, macroinvertebrates were sampled in litter and belowground levels by means of soil cores. Results show that the assemblage was dominated by arthropods, especially Formicidae and Coleoptera. The assemblage differed between litter and belowground levels. In litter, detritivores dominated the community, while belowground fauna showed a similar proportion of detritivores and herbivores and a low percentage of predators. Litter and belowground assemblages showed seasonal variations in richness, abundance, biomass and composition, although variations were more marked in litter than belowground. Patterns of seasonal variation also differed between the two study years for both litter and belowground invertebrates. The seasonal and annual variability of the assemblage has potentially important implications for community dynamics in the study system, since the changes in species composition and trophic structure of soil invertebrate assemblages may affect species interactions and food web dynamics over time. Therefore, integrating temporal variability is likely to be crucial to understand soil community dynamics and food webs, especially in heterogeneous, variable systems as deserts.  相似文献   

Influence of local illumination and plant composition on the spatial and seasonal distribution of litter-dwelling arthropods in a tropical rainforest   总被引：1，自引：0，他引：1  

Enrique Medianero  Gabriela Castao-Meneses  Alexey Tishechkin  Yves Basset  Hctor Barrios  Frode degaard  Andrew R. Cline  Johannes Bail 《Pedobiologia》2007,51(2):131-145

Using pitfall traps, we evaluated the spatial and seasonal variance in arthropod abundance, species richness, higher taxonomic and species composition, and guild structure within the ground litter of seven sites in a relatively undisturbed rainforest in Panama. We examined each of these five arthropod-dependent variables at two spatial scales (a few meters and a few hundred meters) and one temporal scale (a few months encompassing dry and wet periods), against environmental variables including local illumination and plant composition. Trap catches (9458 arthropods collected during 630 trap-days) were high compared to similar studies in temperate forests. We observed spatial and seasonal differences in abundance, species richness and composition of litter-dwelling arthropods. Often these differences appeared weakly related to geographical coordinates. They reflected forest structure (basal area) and local plant composition, and less so illumination patterns or seasonal changes in radiation. Seasonal variance was high and may relate to surrogate variables accounting for seasonal changes in litter moisture. The composition of higher taxa and species was often predicted by different independent variables at the three scales studied. Guild structure was difficult to predict. Our study lead us to expect that litter-dwelling arthropods may be more seasonal than soil microarthropods in tropical rainforests; and that tropical litter-dwelling arthropods may also be more spatially variable and seasonal than their temperate counterparts. We also recommend that conservation studies using pitfall traps in tropical rainforests should focus on: (1) taxonomic resolution to understand the functional complexity of soil organisms; (2) spatial replication to address subtle changes in plant composition throughout the study area; and (3) seasonal replicates to be commensurate with seasonal changes in litter moisture.  相似文献   

Microarthropods as regulators of the communities of microscopic fungi and biological activity in the litter of a mixed forest     

A. V. Kurakov  M. A. Davydova  B. A. Byzov 《Eurasian Soil Science》2006,39(8):838-847

The role of microarthropods as probable regulators of the communities of microscopic fungi and the activity of respiration and nitrogen fixation in the falloff of a mixed forest was studied in laboratory experiments. Changes in the composition of fungi were already seen two weeks after introduction of microarthropods to the falloff. The diversity of micromycetes and uniformity of species by relative abundance was higher in their presence. This was the result of the more rapid (than without microarthropods) decrease in the abundance of dominating fungi, which were represented in the fresh fall by dark-colored species. It was demonstrated in the experiments with pure cultures of fungi that Folsomia candida, a representative of the complex of microarthropods, preferred to consume the most abundant species in the falloff and litter. The microarthropods caused an increase in the intensity of respiration (1–3 days) and nitrogen fixation (1 month) after their introduction to the falloff. The trend toward a higher intensity of these processes remained during the next four months of incubation of the falloff with the animals.  相似文献   

ARBUSCULAR MYCORRHIZAL FUNGI IN REVEGETATED MINED DUNES     

R. G. de Souza  D. K. A. da Silva  C. M. A. de Mello  B. T. Goto  F. S. B. da Silva  E. V. S. B. Sampaio  L. C. Maia 《Land Degradation \u0026amp; Development》2013,24(2):147-155

This study aimed to thoroughly investigate communities of arbuscular mycorrhizal fungi (AMF) in six coastal, mined, reconstituted and revegetated dune areas in Northeast Brazil. AMF spore density and species richness as well as the numbers of infective AMF propagules and glomalin‐related soil protein (GRSP) were analyzed. Four areas had been restored for 16, 12, 8 and 4 years, and after being mined, reconstituted and re‐vegetated, the fifth was mined and reconstituted but not yet re‐vegetated, and the sixth had a native and undisturbed coastal forest vegetation. The soil samples were sampled in the dry and wet seasons of 2005. The number of infective propagules was significantly higher in the dry than in wet season, except in the un‐vegetated dune area, which had less than 0·2 propagules cm⁻³ soil. AMF spore density and especially GRSP contents changed little between the seasons. GRSP contents were positively correlated to Al and Fe soil levels and were highest in the restinga forest. In total, 29 AMF species were identified, and glomoid and gigasporoid species predominated in all areas. AMF species richness and viable propagules of AMF were lowest in the un‐vegetated dune area. Remarkably, higher species richness (28) was found in the re‐vegetated areas, compared with the forest area that had only 10 species. The numbers of infective propagules tended to be also lower in the forest than in the re‐vegetated sites. In conclusion, re‐vegetation appears to favour the AMF communities in terms of infective propagule numbers and AMF species richness. Copyright © 2011 John Wiley & Sons, Ltd.  相似文献   

How water-level drawdown modifies litter-decomposing fungal and actinobacterial communities in boreal peatlands     

《Soil biology & biochemistry》2012

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Differences in the diversity of oribatid mite communities in forests and agrosystems lands     

Julio Arroyo  Juan Carlos Iturrondobeitia   《European Journal of Soil Biology》2006,42(4):259-269

A field study was conducted in the province of Burgos (Castile, NW of Spain) to assess the role and influence of the different anthropic use of soil on the oribatid mite communities (Acari, Oribatida).Soil samples from 20 representative soil sites of the Castilian upland steppes, with cultured, pastureland or forest soil uses, were taken in spring and autumn 2000. Thereafter, soil samples were analysed in terms of their mesofaunal biodiversity, measured using the real and relative diversity of the oribatid mite communities.Collected individuals were identified to species level, being altogether 111 Oribatid species. Results from communities' ordination analysis showed clear gradients based on community variables. One of these was defined by plots with high values of diversity and species richness which correspond to the less anthropic natural soils, mainly oak forest. In contrast, the most anthropic agrosystems soils, including extensive cereal crops, most of them receiving only mineral fertilisation or having human management, were placed in opposite gradients. Differences in biodiversity between crop lands and natural soils were also confirmed by ANOVA. The seasonality, measured in terms of difference between spring and autumn plots, played a minimum role in explaining differences of diversity. Nevertheless autumn diversity values were slightly higher than those of spring, except for crops.  相似文献   

Seasons differently impact the structure of mineral weathering bacterial communities in beech and spruce stands     

C. Collignon  S. Uroz  M-P. Turpault 《Soil biology & biochemistry》2011,43(10):2012-2022

Bacterial communities play an essential role in the sustainability of forest ecosystems by releasing from soil minerals the nutritive cations required not only for their own nutrition but also for that of trees. If it is admitted that the nutritional needs of trees vary during seasons, the seasonal dynamics of the mineral weathering bacterial communities colonizing the tree rhizosphere remain unknown. In this study, we characterized the mineral weathering efficacy of bacterial strains, from the rhizosphere and the adjacent bulk soil at four different seasons under two different tree species, the evergreen spruce and the deciduous beech, using a microplate assay that measures the quantity of iron released from biotite. We showed that the functional and taxonomic structures of the mineral weathering bacterial communities varied significantly with the tree species as well as with the season. Notably, the Burkholderia strains from the beech stand appeared more efficient to weather biotite that the one from the spruce stand. The mineral weathering efficacy of the bulk soil isolates did not vary during seasons under the beech stand whereas it was significantly higher for the spring and summer isolates from the spruce stand. The weathering efficacy of the rhizosphere isolates was significantly higher for the autumn isolates compared to the isolates sampled in the other seasons under the beech stand and in summer compared to the other seasons under spruce. These results suggest that seasonal differences do occur in forest soil bacterial communities and that evergreen and deciduous trees do not follow the same dynamic.  相似文献   

茂兰喀斯特森林自然保护区凋落叶分解动态     

窦百强  容丽  俞国松  李恒 《水土保持通报》2019,39(2):94-100

[目的]研究喀斯特森林生态系统凋落叶分解特征,为喀斯特森林区石漠化防治及水土保持提供科学依据。[方法]采用1 mm网孔孔径分解袋,对茂兰喀斯特森林自然保护区不同树种凋落叶(落叶和常绿叶)在不同坡位的分解状况进行为期18个月的观测研究。研究茂兰喀斯特森林自然保护区凋落叶失重率和干重残留率动态变化、分解速率及养分释放特征。[结果]凋落叶分解过程呈现"快—慢—快"的周期变化,春夏季分解速度快于秋冬季,落叶树种凋落叶分解速度快于常绿树种凋落叶,不同坡位凋落叶的分解速度表现为:下坡中坡上坡。利用Olson模型对凋落叶分解50%和95%所需时间进行估测,发现落叶树种凋落叶分解50%和95%所需时间分别为0.95～1.66 a和4.13～7.19 a,常绿树种凋落叶分解50%和95%所需时间分别为1.14～1.69 a和4.92～7.30 a,二者无显著性差异。凋落叶分解速率低于中亚热带东部常绿阔叶林和常绿落叶阔叶混交林,但比同区域喀斯特次生林与人工林高。落叶树种凋落叶和常绿树种凋落叶的N元素释放模式为富集—释放模式,C含量随分解时间的波动差异显著,总体在不断减少,而C/N比呈逐步下降的趋势。[结论]由于不同树种凋落叶初始养分含量和叶片理化结构的差异,落叶比常绿叶具有更快的分解速率和养分释放速率,对促进喀斯特森林生态系统物质循环起着积极作用。  相似文献   

Enchytraeid and nematode numbers in urban,polluted Scots pine (Pinus sylvestris) stands in relation to other soil biological parameters     

R. Ohtonen  A. Ohtonen  H. Luotonen  A. M. Markkola 《Biology and Fertility of Soils》1992,13(1):50-54

Summary We examined the number of enchytraeids and nematodes in the mor humus layer of polluted Scots pine (Pinus sylvestris L.) stands, located on a sulphur gradient from 1.2 to 2.8 mg g^-1 in mor humus and up to a distance of 40 km from the centre of Oulu, an industrialized city in northern Finland, in autumn 1989 and spring 1990. The number of enchytraeids, dominated by one species, Cognettia sphagnetorum, showed a clear positive correlation with the soil respiration rate and the diversity and production of mycorrhizal fungi, and all these were negatively related with S and N concentrations in the soil, as measured in 1987 and 1988. This negative correlation may have been caused by an alteration in food supply of enchytraeids, owing to changes in litter quality and the amount and species composition of fungi and mycorrhizae. Nematode numbers showed a positive correlation with the activity of dehydrogenase enzymes mineral N, and soil pH. The feeding characteristics of nematodes as a group need further study. The numbers of both enchytraeids and nematodes were higher in the autumn than in the spring and in the case of nematodes this variation was related to soil moisture.The work was carried out in the Department of Botany, University of Oulu, Linnanmaa, SF-90570 Oulu, Finland, and in Forestry Canada, Petawawa National Forestry Institute, Chalk River, Ontario, K0J 1J0, Canada  相似文献