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1.
1 Organic and conventional management of apple orchards may have a different effect on arthropod communities.
2 We conducted a 3-year study to assess the effect of two strategies of fertilizer treatment (organic versus chemical) and three tree-row management systems (straw mulching, tillage and herbicide) on activity-density and biodiversity of epigeic predators. Ground beetles (Carabidae), rove beetles (Staphylinidae), ants (Formicidae) and spiders (Araneae) were sampled monthly with pitfall traps in the same apple orchard during 2003, 2004 and 2005.
3 A total of 4978 individuals were collected. Carabids (56.8% of the total catches) were the most abundant taxonomic group, followed by spiders (20.7%), ants (14.8%) and rove beetles (7.7%). Tree-row management had a greater influence on predator catches than fertilizer treatment. Total predator catches were lower under the mulch. Mulching also reduced carabid abundance, but increased staphylinid catches.
4 Tree row management also had a significant effect on biodiversity parameters. Species richness did not significantly differ among treatments for ants, spiders or the total catches, but was higher on herbicide-treated plots for carabids and on mulched plots for staphylinids. Shannon–Wiener's diversity index was significantly greater in the mulched and herbicide treated plots for total predators and carabids. For staphylinids, this index was significantly greater on the mulched plots. Fertilizer application strategy only influenced the species richness of rove beetles, which was greater in the chemically-treated plots.
5 The results showed that a change from conventional to organic fertilizer treatment of apple trees may be performed without differential effects on predator activity-density or biodiversity. However, a change from herbicide treatment to mulching or mechanical weed control may be significant, depending on the taxonomic group.  相似文献   

2.
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3.
    
  1. Stump extraction for bio energy is a new forestry activity and before large‐scale implementation occurs, it is important to analyse its consequences. Saproxylic beetles depend on dead trees and stump extraction will reduce the amount of habitat available for this group.
  2. Early warning signs of impending regional species extinctions were looked for in areas where stump harvest has only been conducted for about 3 years. In a paired design (N = 8), the beetle fauna was sampled in stumps on ordinary clear‐cuts and on clear‐cuts from which stumps had been extracted. Sampling in extraction clear‐cuts was possible because 25% of the stump volume was retained. Samples were collected by bark sieving ten Norway spruce, Picea abies, stumps per clear‐cut.
  3. In total, 6959 individuals of 46 species were found. Several early warning signs were seen: stump extraction reduced the number of species per stump and per clear‐cut and reduced the species evenness in individual stumps.
  4. Species at higher trophic levels (predators and fungivores), in particular, suffered negative effects. Stump extraction reduced the number of species of fungivores and facultative predators/fungivores at the clear‐cut level and reduced the relative abundance of predators at the stump level.
  5. These results indicate that if stumps are extracted from a high proportion of the clear‐cuts in a region, the present recommendations of leaving 15–25% of the stump volume will be insufficient for preserving the beetle fauna in the stumps. Further studies are needed to identify levels of stump retention that do not lead to species loss.
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4.
 该文以物种组成较为复杂的青藏高原东部亚高寒草甸为背景,结合最新的群落中性理论,以解释亚高寒草甸草本植物群落的物种分布格局和生物多样性的维持机制。通过对阴坡、阳坡和滩地3个生境进行随机取样调查,用中性模型对所得多样性数据进行拟合,并分别应用置信区间检验、拟合优度检验和多样性指数检验3种方法对拟合效果进行检验。研究结果表明,在拟合优度检验中,3个生境中中性理论预测和实际物种多度分布之间没有显著差异(p>0.05);实际观测值基本全部落入模型预测分布的95%的置信区间之内(仅滩地草本植物群落的63个物种中的1个以及阴坡草本植物群落75个物种中的2个偏离95%的置信区间);对群落多样性的预测也和实际观测没有显著差异,其中丰富度预测拟合得最好(0.49相似文献   

5.
为探清我国东南部农区内蚂蚁物种多样性,本研究共设置86个采样单元格,每个单元格内选择农田、草地和人工林3种生境,每种生境设置3个重复样地,每个重复生境设置5个1 m2的重复采样样方,用吸虫器采集样方内的地表蚂蚁。结果表明:在我国东南部农区共采集鉴定地表蚂蚁30 077头,隶属于7亚科49属155种;长江中下游地区共采集蚂蚁5亚科34属93种,其中优势种3个,常见种9个,稀有种81个;华南地区采集蚂蚁7亚科42属124种,其中优势种2个,常见种11个,稀有种111个。红火蚁Solenopsis invicta Buren是华南地区个体数目最多的物种,占个体总数的39.40%;物种数目、个体密度、多样性指数和优势度指数均表现为华南地区>长江中下游地区;不同生境内蚂蚁群落的物种数目、多样性指数和均匀度指数表现为人工林>草地>农田,个体密度和优势度指数人工林生境最低;两个地区3种生境蚂蚁群落间相似性系数0.2437~0.6581,处于极不相似至中等相似水平。结果表明,我国东南部农区蚂蚁种类丰富,在农区的生物多样性保护中具有重要价值;红火蚁在华南地区入侵扩散严重,亟需治理;农区内不同土地利用方式造成的生境差异影响蚂蚁群落的物种组成和多样性;不同区域、不同生境的蚂蚁群落间差异明显。  相似文献   

6.
    
The variability in regional species richness is determined by the balance between speciation, extinction, and migration, but the underlying causes of high species richness in some regions (e.g. tropics, Mediterranean ecosystems) are challenging to explain. Species richness variability may be amplified by biotic feedbacks that promote species richness in some areas, while decreasing elsewhere. Following the example of species abundance, we speculated that species richness per area in arbitrary geographic units (e.g. quarter-degree squares) follows a hollow-shaped curve with the ranks of species richness to yield a species richness rank (SRR) curve. The hollowness of such an SRR curve may indicate biotic feedbacks.  相似文献   

7.
    
  1. Agricultural intensification often leads to loss and fragmentation of natural and semi‐natural habitats. As a consequence, biodiversity in intensively managed agro‐ecosystems is often lower than in agricultural landscapes with greater natural and semi‐natural land cover. Different types of semi‐natural habitat may support specific species assemblages thereby increasing landscape‐level biodiversity, but this has seldom been tested, especially for insects that have different functional roles in agro‐ecosystems.
  2. Here, we quantified these habitat‐specific contributions by surveying species richness and composition of wild bees, true bugs and ground beetles and compared them among different types of semi‐natural habitats within two differently structured agricultural landscapes in Switzerland.
  3. We found high shares of habitat specific species and habitat types within landscapes to differ up to fourfold in their specificity (i.e. their contribution to the total landscape species richness). Using statistical null models for habitat specificity and multiplicative beta diversity, we identified habitats that contributed more or less than expected by chance to the overall species diversity at the landscape level.
  4. The observed degree of complementarity among habitats highlights the importance of habitat diversity for insect species richness and potentially ecosystem functioning in agricultural landscapes. By helping to understand better the habitat‐specific contributions to insect diversity in agricultural areas, our results will facilitate targeted conservation measures and sustainable landscape planning. Yet, qualitative differences in habitat specificity and separation of habitat‐specific communities observed between landscapes should be explored further in future studies of multiple landscapes.
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8.
Development of farming practices has caused drastic changes in European agricultural landscapes during the past 50 years. As a consequence of these changes, insect diversity is widely expected to decline. We performed a comparative analysis with long‐term data of three insect groups: Auchenorrhyncha, Heteroptera and Orthoptera. In 2009, we revisited nine grassland sites in northern Germany that were originally sampled in 1951 using the same techniques and during a similar time frame. We found that the insect community exhibited no consistent trends between years. Species richness of Auchenorrhyncha and Heteroptera increased on plot level as well as on landscape level but remained unchanged for Orthoptera. Abundance of Auchenorrhyncha and Orthoptera significantly decreased, while Heteroptera increased. There is a strong trend towards homogeneity in community composition for Heteroptera and a weak one for Auchenorrhyncha. The frequency and abundance of species preferring disturbed and/or eutrophic habitats increased, whereas the number of species preferring low‐productive habitats declined. This trend is especially pronounced in Auchenorrhyncha. Generalistic species were more abundant in relative proportions as well as in absolute numbers. We hypothesize that these trends arise from alterations of Central European landscapes because of agricultural intensification over the last several decades.  相似文献   

9.
Intensively sampled species abundance distributions (SADs) show left‐skew on a log scale. That is, there are too many rare species to fit a lognormal distribution. I propose that this log‐left‐skew might be a sampling artefact. Monte Carlo simulations show that taking progressively larger samples from a log‐unskewed distribution (such as the lognormal) causes log‐skew to decrease asymptotically (move towards ?∞) until it reaches the level of the underlying distribution (zero in this case). In contrast, accumulating certain types of repeated small samples results in a log‐skew that becomes progressively more log‐left‐skewed to a level well beyond the underlying distribution. These repeated samples correspond to samples from the same site over many years or from many sites in 1 year. Data from empirical datasets show that log‐skew generally goes from positive (right‐skewed) to negative (left‐skewed) as the number of temporally or spatially replicated samples increases. This suggests caution when interpreting log‐left‐skew as a pattern that needs biological interpretation.  相似文献   

10.
    
Aims Comparisons of the trait–abundance relationships from various habitat types are critical for community ecology, which can offer us insights about the mechanisms underlying the local community assembly, such as the relative role of neutral vs. niche processes in shaping community structure. Here, we explored the responses of trait–abundance relationships to nitrogen (N), phosphorus (P) and potassium (K) fertilization in an alpine meadow.Methods Five fertilization treatments (an unfertilized control and additions of N, P, K and NPK respectively) were implemented using randomized block design in an alpine Tibetan meadow. Species relative abundance (SRA), plant above-ground biomass and species richness were measured in each plot. For 24 common species, we measured species functional traits: saturated height, specific leaf area (SLA) and leaf dry matter content (LDMC) in each treatment but seed size only in the unfertilized control. Standard major axis (SMA) regression and phylogenetically independent contrasts (PICs) analysis were used to analyse species trait–abundance relationships in response to different fertilization treatments.Important findings Positive correlations between SRA and saturated height were raised following N, P and NPK fertilizations, which indicated an increase in light competition in these plots. In P fertilized plots, SRA was also positively correlated with LDMC because tall grasses with a nutrients conservation strategy often have a relative competitive advantage in capturing limited light and soil nutrients. In K fertilized plots, neither the trait–abundance relationships nor above-ground biomass or species richness significantly differed from that in the control, which suggests that K was not a limiting resource in our study site. These significant correlations between species traits and relative abundance in fertilized treatment suggest that trait-based selection plays an important role in determining species abundance within local communities in alpine meadows.  相似文献   

11.
    
  1. It is not known if grassy margins contribute to the conservation of biodiversity if situated along organically managed cereal fields as the contrast in environmental conditions between fields and margins may be too small in absence of pesticide applications.
  2. Communities of spiders, ground beetles, true bugs and aphids were sampled in 2 years along transects from the centre of organically managed cereal fields into adjacent grassy margins. Based on species richness, abundances, ecological and body size traits of species and taxonomic distinctness between species, communities were compared between organically managed cereal fields and their grassy margins.
  3. The species richness, abundance and variation in taxonomic distinctness of true bugs were significantly higher in grassy margins. For spiders and ground beetles, these metrics were either higher in cereal fields or did not differ significantly. At the species level, spiders living under stones or in soil crevices, as well as phytophagous ground beetles and true bugs that overwinter as eggs benefited from grassy margins. True bug communities in cereal fields were dominated by a few abundant species, whereas communities in margins were rather dominated by a few large species.
  4. Our comprehensive analyses highlight the importance of accounting for species identities and biology in biodiversity studies. The traits that characterised arthropod species that benefited from margins are not characteristic for pest species. Grassy margins along organic fields therefore represent an important agri‐environmental scheme for the conservation of several arthropod taxa and margins should not be removed to increase the crop production area in organically managed cereal fields.
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12.
There is a long tradition in ecology of evaluating the relative contribution of the regional species pool and local interactions on the structure of local communities. Similarly, a growing number of studies assess the phylogenetic structure of communities, relative to that in the regional species pool, to examine the interplay between broad-scale evolutionary and fine-scale ecological processes. Finally, a renewed interest in the influence of species source pools on communities has shown that the definition of the source pool influences interpretations of patterns of community structure. We use a continent-wide dataset of local ant communities and implement ecologically explicit source pool definitions to examine the relative importance of regional species pools and local interactions for shaping community structure. Then we assess which factors underlie systematic variation in the structure of communities along climatic gradients. We find that the average phylogenetic relatedness of species in ant communities decreases from tropical to temperate regions, but the strength of this relationship depends on the level of ecological realism in the definition of source pools. We conclude that the evolution of climatic niches influences the phylogenetic structure of regional source pools and that the influence of regional source pools on local community structure is strong.  相似文献   

13.
    
A central aim of community ecology is to understand how local species diversity is shaped. Agricultural activities are reshaping and filtering soil biodiversity and communities; however, ecological processes that structure agricultural communities have often overlooked the role of the regional species pool, mainly owing to the lack of large datasets across several regions. Here, we conducted a soil survey of 941 plots of agricultural and adjacent natural ecosystems (e.g., forest, wetland, grassland, and desert) in 38 regions across diverse climatic and soil gradients to evaluate whether the regional species pool of soil microbes from adjacent natural ecosystems is important in shaping agricultural soil microbial diversity and completeness. Using a framework of multiscales community assembly, we revealed that the regional species pool was an important predictor of agricultural bacterial diversity and explained a unique variation that cannot be predicted by historical legacy, large-scale environmental factors, and local community assembly processes. Moreover, the species pool effects were associated with microbial dormancy potential, where taxa with higher dormancy potential exhibited stronger species pool effects. Bacterial diversity in regions with higher agricultural intensity was more influenced by species pool effects than that in regions with low intensity, indicating that the maintenance of agricultural biodiversity in high-intensity regions strongly depends on species present in the surrounding landscape. Models for community completeness indicated the positive effect of regional species pool, further implying the community unsaturation and increased potential in bacterial diversity of agricultural ecosystems. Overall, our study reveals the indubitable role of regional species pool from adjacent natural ecosystems in predicting bacterial diversity, which has useful implication for biodiversity management and conservation in agricultural systems.  相似文献   

14.
本研究采用样地调查法研究了祁连山国家公园青海片区的蚂蚁物种多样性.在祁连山国家公园青海片区记录蚂蚁2亚科、6属、13种,发现1个中国新记录种:沃尔切胸蚁Temnthorax volgensis(Ruzsky),发现7个青海新记录种.光亮黑蚁 Formica candida Smith、满凹头蚁 Formica manc...  相似文献   

15.
为了全面揭示云南蚂蚁多样性规律,采用样地调查法研究了滇东南地区的蚂蚁物种多样性。结果表明:在滇东南地区5个垂直带共采获蚂蚁7亚科57属202种;各样地蚂蚁群落主要指标为:物种数目6~49种(平均24种),个体密度0.7~5 943.6头/m~2(平均560.5头/m~2),多样性指数0.1693~2.6382(平均1.6574),均匀度指数0.0771~0.8022(平均0.5468),优势度指数0.0012~0.9031(平均0.2733);蚂蚁群落间相似性系数0.0333~0.3810,处于极不相似至中等不相似水平。结论认为,滇东南地区栖息着丰富的蚂蚁种类,在生态系统功能和生物多样性保护中具有重要价值。垂直带上蚂蚁物种的丰富度和多样性主要受气温制约,具体表现为纬度和海拔对蚂蚁群落的影响。该地区蚂蚁群落主要指标普遍表现出多域效应现象,除了地形和森林结构因素外,主要受到人类干扰影响,应当结合天然林保护工程对该地区蚂蚁群落加以保护,以便充分发挥其生态功能。  相似文献   

16.
    
Climate change is expected to cause geographic redistributions of species. To the extent that species within assemblages have different niche requirements, assemblages may no longer remain intact and dis‐ and reassemble at current or new geographic locations. We explored how climate change projected by 2100 may transform the world's avian assemblages (characterized at a 110 km spatial grain) by modeling environmental niche‐based changes to their dietary guild structure under 0, 500, and 2000 km‐dispersal distances. We examined guild structure changes at coarse (primary, high‐level, and mixed consumers) and fine (frugivores, nectarivores, insectivores, herbivores, granivores, scavengers, omnivores, and carnivores) ecological resolutions to determine whether or not geographic co‐occurrence patterns among guilds were associated with the magnitude to which guilds are functionally resolved. Dietary guilds vary considerably in their global geographic prevalence, and under broad‐scale niche‐based redistribution of species, these are projected to change very heterogeneously. A nondispersal assumption results in the smallest projected changes to guild assemblages, but with significant losses for some regions and guilds, such as South American insectivores. Longer dispersal distances are projected to cause greater degrees of disassembly, and lead to greater homogenization of guild composition, especially in northern Asia and Africa. This arises because projected range gains and losses result in geographically heterogeneous patterns of guild compensation. Projected decreases especially of primary and mixed consumers most often are compensated by increases in high‐level consumers, with increasing uncertainty about these outcomes as dispersal distance and degree of guild functional resolution increase. Further exploration into the consequences of these significant broad‐scale ecological functional changes at the community or ecosystem level should be increasingly on the agenda for conservation science.  相似文献   

17.
采用7种播种方式(3种单播和4种混播)和3种刈割留茬高度裂区试验,测定了青藏高原高寒地区人工建植3年的垂穗披碱草(Elymus nutans)、中华羊茅(Festuca sinensis)和羊茅(Festuca ovina)草地地上生物量、物种丰富度以及杂草生物量,以分析刈割对青藏高原人工草地初级生产力和物种丰富度的影响。结果显示:(1)在草地建植第2年,不刈割与刈割留茬60和20 mm的草地初级生产力均有显著差异;留茬60和20 mm刈割使单播草地的平均初级生产力分别降低20%和27%,使混播草地的平均初级生产力分别降低29%和37%。(2)草地建植第3年,不刈割、留茬60和20 mm 3个处理间的草地生产力均差异极显著;留茬60和20 mm刈割使单播草地的平均生产力分别降低19%和36%,使混播草地的平均生产力分别降低4%和18%。研究表明,刈割显著降低了人工草地的初级生产力,同时显著增加了垂穗披碱草单播草地的物种丰富度和杂草生物量以及3种牧草混播草地物种丰富度,其他播种草地的物种丰富度和杂草生物量与不刈割草地均无显著差异。  相似文献   

18.
    
Aim To use a fine‐grained global model of ant diversity to identify the limits of our knowledge of diversity in the context of climate change. Location Global. Methods We applied generalized linear modelling to a global database of local ant assemblages to predict the species density of ants globally. Predictors evaluated included simple climate variables, combined temperature × precipitation variables, biogeographic region, elevation, and interactions between select variables. Areas of the planet identified as beyond the reliable prediction ability of the model were those having climatic conditions more extreme than what was represented in the ant database. Results Temperature was the most important single predictor of ant species density, and a mix of climatic variables, biogeographic region and interactions between climate and region yielded the best overall model. Broadly, geographic patterns of ant diversity match those of other taxa, with high species density in the wet tropics and in some, but not all, parts of the dry tropics. Uncertainty in model predictions appears to derive from the low amount of standardized sampling of ants in Asia, in Africa and in the most extreme (e.g. hottest) climates. Model residuals increase as a function of temperature. This suggests that our understanding of the drivers of ant diversity at high temperatures is incomplete, especially in hot and arid climates. In other words, our ignorance of how ant diversity relates to environment is greatest in those regions where most species occur – hot climates, both wet and dry. Main conclusions Our results have two important implications. First, temperature is necessary, but not sufficient, to explain fully the patterns of ant diversity. Second, our ability to predict ant diversity is weakest exactly where we need to know the most, the warmest regions of a warming world. This includes significant parts of the tropics and some of the most biologically diverse areas in the world.  相似文献   

19.
    
The underlying drivers of β‐diversity along latitudinal gradients have been unclear. Previous studies have focused on β‐diversities calculated at a local scale and shed limited light on regional β‐diversity. We tested the much‐debated effects of range size vs. environmental filtering on the β‐gradient using data from the US Forest Inventory Analysis Program. We showed that the drivers of the β‐gradient were scale dependent. At the local scale species spatial patterns contributed little to the β‐gradient, whereas at the regional scale spatial patterns dominated the gradient and a U‐shape latitudinal relationship for the standardised β‐diversity deviation was revealed. The relationship can be explained by spatial variation in climate and soil texture, thus supporting the environmental filtering hypothesis. But it is inconsistent with Rapoport's rule about the effect of range size on β‐gradient. These results resolve the debate on whether species spatial distributions contribute to β‐gradient and attest the importance of environmental filtering in determining regional β‐diversity.  相似文献   

20.
    
  1. Recent appreciation of the multidimensional nature of biodiversity has prompted biologists to examine the taxonomic, functional, and phylogenetic attributes of natural communities. Simultaneous consideration of such multiple diversity dimensions provides valuable insights into various community assembly processes.
  2. We studied the alpha and beta components of ant diversity on a simple island landscape dominated by adjacent but abiotically distinct evergreen (humid & dense canopy) and littoral (dry & sparse canopy) forest habitats. We sought to (i) describe and examine interrelationships of ant diversity dimensions, and (ii) identify potential processes structuring ant communities by comparing the diversity patterns of observed and randomly generated communities.
  3. We found that the drier littoral habitat had lower ant species richness and non‐random community composition, but had similar functional diversity as evergreen forests. This result is in contrast with previous studies comparing intact and human‐altered habitats that reported severe loss of ant functional diversity with reduced richness. In our study, the functional similarity between habitats was maintained because communities in littoral forests were functionally overdispersed than expected by chance. We suggest that competition and/or thermal tolerance of ants may drive overdispersion of littoral ant communities.
  4. At the small spatial scale of our island, phylogenetic diversity was a poor predictor of habitat differences despite significant phylogenetic signal in functional traits and non‐random functional diversity patterns. Our work highlights the need for a broad range of studies comparing multidimensional diversity in adjacent habitats that would provide a baseline for interpreting community‐level changes due to anthropogenic pressures.
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