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1.
We explored the ways in which environmental variation at multiple spatial scales influences the organization of ant species
into local communities. Ground-dwelling ants were sampled in sandhill habitat at 33 locations throughout northern Florida,
USA. Variance partitioning of local, landscape, and regional datasets using partial redundancy analysis indicates that ant
community composition is significantly influenced by environmental variability across all scales of analysis. Habitat generalists
appear to replace habitat specialists at sites with high proportions of matrix habitat in the surrounding landscape. Conversely,
habitat specialists appear to replace habitat generalists at sites with more sandhill habitat in the surrounding landscape
and greater amounts of bare ground locally. Local niche differentiation leading to species-sorting, combined with the effects
of spatially structured dispersal dynamics at landscape scales, may explain this pattern of community structure. Regional
influences on local ant communities were correlated with geographical and environmental gradients at distinct regional scales.
Therefore, local ant communities appear to be simultaneously structured by different processes that occur at separate spatial
scales: local, landscape, and regional scales defined by spatial extent. Our results illustrate the importance of considering
multiscale influences on patterns of organization in ecological communities.
Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users. 相似文献
2.
Landscape sustainability science: ecosystem services and human well-being in changing landscapes 总被引:10,自引:10,他引:0
Jianguo Wu 《Landscape Ecology》2013,28(6):999-1023
The future of humanity depends on whether or not we have a vision to guide our transition toward sustainability, on scales ranging from local landscapes to the planet as a whole. Sustainability science is at the core of this vision, and landscapes and regions represent a pivotal scale domain. The main objectives of this paper are: (1) to elucidate key definitions and concepts of sustainability, including the Brundtland definition, the triple bottom line, weak and strong sustainability, resilience, human well-being, and ecosystem services; (2) to examine key definitions and concepts of landscape sustainability, including those derived from general concepts and those developed for specific landscapes; and (3) to propose a framework for developing a science of landscape sustainability. Landscape sustainability is defined as the capacity of a landscape to consistently provide long-term, landscape-specific ecosystem services essential for maintaining and improving human well-being. Fundamentally, well-being is a journey, not a destination. Landscape sustainability science is a place-based, use-inspired science of understanding and improving the dynamic relationship between ecosystem services and human well-being in changing landscapes under uncertainties arising from internal feedbacks and external disturbances. While landscape sustainability science emphasizes place-based research on landscape and regional scales, significant between landscape interactions and hierarchical linkages to both finer and broader scales (or externalities) must not be ignored. To advance landscape sustainability science, spatially explicit methods are essential, especially experimental approaches that take advantage of designed landscapes and multi-scaled simulation models that couple the dynamics of landscape services (ecosystem services provided by multiple landscape elements in combination as emergent properties) and human well-being. 相似文献
3.
Despite much progress in ecosystem services research, a gap still appears to exist between this research and the implementation of landscape management and development activities on the ground, especially within a developing country context. If ecosystem service science is to be operationalised and used by decision-makers directing local development, an in-depth understanding of the implementation context for landscape planning and management, and of the opportunities and challenges for ecosystem services in this context are needed. Very little is known about these opportunities and constraints, largely because of the absence of methods to explore the complexity of the landscape planning, management and implementation context and the possibilities of integrating scientific information into these processes within a real-world setting. This study aims to address this need for information and methods, by focusing on a region in South Africa with a long history of ecosystem service research and stakeholder engagement, and testing a social science approach to explore opportunities and challenges for integrating ecosystem services in landscape planning processes and policies. Our methodological approach recognises the importance of social processes and legitimacy in decision-making, emphasizing the need to engage with the potential end-users of ecosystem service research in order to ensure the relevance of the research. While we discovered challenges for mainstreaming ecosystem service at a local level, we also found strong opportunities in the multi-sectoral planning processes driving development and in how the concept of ecosystem services is framed and aligned with development priorities, especially those relating to disaster risk reduction. 相似文献
4.
Urban green spaces provide important ecological, environmental, and cultural benefits, including biodiversity conservation and human wellbeing. However, a significant portion of urban green space is currently managed as highly manicured grassy lawns that provide limited ecosystem services. Managing urban green spaces as diverse meadows can have a multitude of ecosystem benefits such as biodiversity conservation, stormwater infiltration, and aesthetics. Relatively little is known about the range of ecosystem services or disservices in managing urban green spaces as lawns versus meadows. In this paper, we separately characterize three major categories of ecosystem services and disservices (provisioning, regulation and maintenance, and cultural) delivered by urban lawns and meadows while highlighting several trade-offs and synergies associated with urban lawn and meadow management strategies. Additionally, we suggest specific research priorities to better evaluate ecosystem services and disservices across these urban green spaces. Understanding ecological, environmental, and cultural trade-offs and synergies of managing different urban green spaces is key to maintaining multiple ecosystem services in urban environments. 相似文献
5.
This brief report addresses the theory and methodology of landscape phenology (LP), along with synopsis of a case study conducted
in the northern Wisconsin temperate mixed forest. LP engages questions related to ecosystem phenology, landscape genetics,
and vegetation change science across multiple scales, which have rarely been addressed by existing studies. Intensive in situ
observations, remote sensing data, and spatiotemporal analysis are employed for understanding patterns and processes within
the complexity of seasonal landscape dynamics. A hierarchical upscaling approach is also introduced. Results from the case
study suggest that plot-scale phenology lacks spatial autocorrelation and varies individualistically, with genetic heterogeneity
overriding small microenvironmental gradients. However, at the landscape level, forest phenology responds coherently to weather
fluctuations. The resultant LP index confirms the relative reliability of moderate resolution imaging spectroradiometer (MODIS)-based
land surface phenology (LSP). Due to technological advancement in spatial data acquisition and analysis, LP has the ability
to connect conventional plant phenology studies back to their intricate ecological context, and provides a new approach to
validating coarse-scale monitoring and modeling of LSP and other seasonal ecosystem processes. 相似文献
6.
Management of ecosystems often focuses on specific species chosen for their habitat demand, public appeal, or levels of threat.
We propose a complementary framework for choosing focal species, the mobile link concept, which allows managers to focus on
spatial processes and deal with multi-scale ecological dynamics. Spatial processes are important for three reasons: maintenance,
re-organization, and restoration of ecological values. We illustrate the framework with a case study of the Eurasian Jay,
a mobile link species of importance for the oak forest regeneration in the Stockholm National Urban Park, Sweden, and its
surroundings. The case study concludes with a conceptual model for how the framework can be applied in management. The model
is based on a review of published data complemented with a seed predation experiment and mapping of Jay territories to reduce
the risk of applying non-urban site-specific information in an urban setting. Our case study shows that the mobile link approach
has several advantages: (1) Reducing the vulnerability of ecological functions to disturbances and fluctuations in resources
allocated to management, (2) Reducing management costs by maintaining natural processes, and (3) Maintaining gene flow and
genetic diversity at a landscape level. We argue that management that includes mobile link organisms is an important step
towards the prevention of ecosystem degradation and biodiversity loss in increasingly fragmented landscapes. Identifying and
managing mobile links is a way to align management with the ecologically relevant scales in any landscape. 相似文献
7.
Associations between soil carbon and ecological landscape variables at escalating spatial scales in Florida,USA 总被引:1,自引:1,他引:0
The spatial distribution of soil carbon (C) is controlled by ecological processes that evolve and interact over a range of
spatial scales across the landscape. The relationships between hydrologic and biotic processes and soil C patterns and spatial
behavior are still poorly understood. Our objectives were to (i) identify the appropriate spatial scale to observe soil total
C (TC) in a subtropical landscape with pronounced hydrologic and biotic variation, and (ii) investigate the spatial behavior
and relationships between TC and ecological landscape variables which aggregate various hydrologic and biotic processes. The
study was conducted in Florida, USA, characterized by extreme hydrologic (poorly to excessively drained soils), and vegetation/land
use gradients ranging from natural uplands and wetlands to intensively managed forest, agricultural, and urban systems. We
used semivariogram and landscape indices to compare the spatial dependence structures of TC and 19 ecological landscape variables,
identifying similarities and establishing pattern–process relationships. Soil, hydrologic, and biotic ecological variables
mirrored the spatial behavior of TC at fine (few kilometers), and coarse (hundreds of kilometers) spatial scales. Specifically,
soil available water capacity resembled the spatial dependence structure of TC at escalating scales, supporting a multi-scale
soil hydrology-soil C process–pattern relationship in Florida. Our findings suggest two appropriate scales to observe TC,
one at a short range (autocorrelation range of 5.6 km), representing local soil-landscape variation, and another at a longer
range (119 km), accounting for regional variation. Moreover, our results provide further guidance to measure ecological variables
influencing C dynamics. 相似文献
8.
Yunhui Liu Christoph Rothenwöhrer Christoph Scherber Péter Batáry Zoltán Elek Juliane Steckel Stefan Erasmi Teja Tscharntke Catrin Westphal 《Landscape Ecology》2014,29(3):529-540
Current biodiversity conservation policies have so far had limited success because they are mainly targeted to the scale of individual fields with little concern on different responses of organism groups at larger spatial scales. We investigated the relative impacts of multi-scale factors, including local land use intensity, landscape context and region, on functional groups of beetles (Coleoptera). In 2008, beetles were suction-sampled from 95 managed grasslands in three regions, ranging from Southern to Northern Germany. The results showed that region was the most important factor affecting the abundance of herbivores and the abundance and species composition of predators and decomposers. Herbivores were not affected by landscape context and land use intensity. The species composition of the predator communities changed with land use intensity, but only in interaction with landscape context. Interestingly, decomposer abundance was negatively related to land use intensity in low-diversity landscapes, whereas in high-diversity landscapes the relation was positive, possibly due to enhanced spillover effects in complex landscapes. We conclude that (i) management at multiple scales, from local sites to landscapes and regions, is essential for managing biodiversity, (ii) beetle predators and decomposers are more affected than herbivores, supporting the hypothesis that higher trophic levels are more sensitive to environmental change, and (iii) sustaining biological control and decomposition services in managed grassland needs a diverse landscape, while effects of local land use intensity may depend on landscape context. 相似文献
9.
Growing a resilient landscape depends heavily on finding an appropriate match between the scales of demands on ecosystems by human societies and the scales at which ecosystems are capable of meeting these demands. While the dynamics of environmental change and ecosystem service provision form the basis of many landscape ecology studies, enhancing landscape resilience is, in many ways, a problem of establishing relevant institutions that act at appropriate scales to modify and moderate demand for ecosystem services and the resulting exploitation of ecosystems. It is also of central importance for landscape sustainability that institutions are flexible enough to adapt to changes in the external environment. The model provided by natural ecosystems suggests that it is only by encouraging and testing a diversity of approaches that we will be able to build landscapes that are resilient to future change. We advocate an approach to landscape planning that involves growing learning institutions on the one hand, and on the other, developing solutions to current problems through deliberate experimentation coupled with social learning processes. 相似文献
10.
Spatial organisation of landscapes and its function in semi-arid woodlands,Australia 总被引:4,自引:0,他引:4
The spatial organisation of three major landscape types within the semi-arid woodlands of eastern Australia was studied by a detailed analysis of gradient-oriented transects (gradsects). The aim was to characterise the spatial organisation of each landscape, and to account for that organisation in functional terms related to the differential concentration of scarce resources by identifiable processes. Terrain, vegetation and soils data were collected along each gradsect. Boundary analysis was used to identify the types of landscape units at a range of scales. Soil analyses were used to determine the degree of differential concentration of nutrients within these units, and to infer the role of fluvial and aeolian processes in maintaining them. All three major landscape systems were found to be highly organised systems with distinctive resource-rich units or patches separated by more open, resource-poor zones. At the largest scale, distinct groves of trees were separated by open intergroves. At smaller-scales, individual trees, large shrubs, clumps of shrubs, fallen logs and clumps of grasses constituted discrete patches dispersed across the landscape. Our soil analyses confirmed that these patches act as sinks by filtering and concentrating nutrients lost from source areas (e.g., intergroves). We suggest that fluvial runoff-runon and aeolian saltation-deposition are the physical processes involved in these concentration effects, and in building and maintaining patches; biological activities also maintain patches. This organisation of patches as dispersed resource filters (at different scales) has the overall function of conserving limited resources within semi-arid landscape systems. Understanding the role of landscape patchiness in conserving scarce resources has important implications for managing these landscapes for sustainable land use, and for the rehabilitation of landscapes already degraded. 相似文献
11.
In densely urbanized areas, small pockets of vegetated areas such as street verges, vacant lots, and walls can be rich in biodiversity. In spite of their small size, these ‘informal urban greenspaces’ can provide critical ecosystem services to urban residents. Maintaining and enhancing the provisioning of ecosystem services requires a systematic understanding of biodiversity patterns and drivers in informal urban green spaces. The ‘environmental filtering’ (a process of certain species selected by specific environmental conditions) concept in community ecology theory may serve as a useful tool for this goal. We tested a multi-scale filtering framework by examining the spontaneous plant diversity patterns (from 83 surveyed sites) on the vertical surfaces of the ancient city wall of Nanjing, China. We found that the variables representing local-habitat filtering (e.g., wall substrates and aspect) and landscape filtering (including spatial configuration of urban land cover, and nighttime light intensity surrounding the local habitats) can jointly explain substantial fractions of variations in taxonomic diversity (up to ca. 60%) and functional diversity (up to ca. 40%). The explanatory power was stronger in the repaired wall habitats than in the unrepaired counterparts, in line with the prediction that environmental filtering is more pronounced during the early stages of community assembly. While the strength of landscape filtering showed clear scale-dependency, its relative importance consistently outweighs local-habitat filtering across all study scales of 200–1600 m, suggesting that configuration of neighboring landscape context can play an important role in shaping local-scale biodiversity of informal urban green spaces. Our results have useful implications for the study, design, and management of informal urban green spaces. Well-tailored multi-scale filtering frameworks may contribute to understanding urban biodiversity patterns in a systematic way. 相似文献
12.
Detecting hot and cold spots in a seagrass landscape using local indicators of spatial association 总被引:1,自引:0,他引:1
Eelgrass (Zostera marina) is an important feature of coastal ecosystems in Atlantic Canada, providing a suite of valuable ecosystem services. These services, and its sensitivity to stressors, have prompted efforts to characterize the spatial and temporal dynamics of eelgrass landscapes in order to facilitate management and monitoring of coastal ecosystem health. Current methods for broad-scale mapping of eelgrass rely on aerial remote sensing and may not be appropriate in certain types of landscapes, particularly in turbid waters and areas lacking distinct boundaries. This study takes a novel approach to the quantification and analysis of seagrass landscape structure at multiple spatial scales using acoustic data and local spatial statistics. Data from a single-beam acoustic survey in Richibucto, New Brunswick, Canada were analyzed with geostatistical techniques and the Getis-Ord G i * local spatial statistic in order to detect statistically significant zones of high and low cover in an estuarine seagrass bed. Results showed distinct and significant patterns in seagrass cover at multiple spatial scales within a region of apparently continuous spatial cover. Boundaries between areas of high and low cover were also detected. This study demonstrates how acoustic data and local spatial statistics can be used to quantify landscape pattern and to further the application of landscape techniques in the marine environment. 相似文献
13.
Adrienne Grêt-Regamey Sven-Erik Rabe Ricardo Crespo Sven Lautenbach Andrea Ryffel Barbara Schlup 《Landscape Ecology》2014,29(2):201-212
Marginal land use changes can abruptly result in non-marginal and irreversible changes in ecosystem functioning and the economic values that the ecosystem generates. This challenges the traditional ecosystem services (ESS) mapping approach, which has often made the assumption that ESS can be mapped uniquely to land use and land cover data. Using a functional fragmentation measure, we show how landscape pattern changes might lead to changes in the delivery of ESS. We map changes in ESS of dry calcareous grasslands under different land use change scenarios in a case study region in Switzerland. We selected three ESS known to be related to species diversity including carbon sequestration and pollination as regulating values and recreational experience as cultural value, and compared them to the value of two production services including food and timber production. Results show that the current unceasing fragmentation is particularly critical for the value of ESS provided by species-rich habitats. The article concludes that assessing landscape patterns is key for maintaining valuable ESS in the face of human use and fluctuating environment. 相似文献
14.
Spatial and temporal analysis of landscape patterns 总被引:89,自引:0,他引:89
Monica G. Turner 《Landscape Ecology》1990,4(1):21-30
A variety of ecological questions now require the study of large regions and the understanding of spatial heterogeneity. Methods
for spatial-temporal analyses are becoming increasingly important for ecological studies. A grid cell based spatial analysis
program (SPAN) is described and results of landscape pattern analysis using SPAN are presentedd. Several ecological topics
in which geographic information systems (GIS) can play an important role (landscape pattern analysis, neutral models of pattern
and process, and extrapolation across spatial scales) are reviewed. To study the relationship between observed landscape patterns
and ecological processes, a neutral model approach is recommended. For example, the expected pattern (i.e., neutral model) of the spread of disturbance across a landscape can be generated and then tested using actual landscape data
that are stored in a GIS. Observed spatial or temporal patterns in ecological data may also be influenced by scale. Creating
a spatial data base frequently requires integrating data at different scales. Spatial is shown to influence landscape pattern
analyses, but extrapolation of data across spatial scales may be possible if the grain and extent of the data are specified.
The continued development and testing of new methods for spatial-temporal analysis will contribute to a general understanding
of landscape dynamics. 相似文献
15.
The importance of land use in affecting a range of ecosystem services (ES) provided from rural landscapes is increasingly recognised, creating an imperative for tools to assist in managing impacts of land use on ES provision. Many stakeholders, at a range of scales, are involved, including policy makers and implementers, land users and people receiving the services. Here, we develop a new and comprehensive typology of ES maps by expanding the basic stock-flow-receptor concept to create a set of map categories that embraces requirements for management of ES provision. We then use this typology as a framework for assessment of approaches to mapping ES. Most approaches have considered natural capital stocks of few services, at large scales (>1,000 km2) and coarse resolution (>100 m2). Emphasis has been on areas of ES generation, with little attention to flows, limiting the extent to which reception of services, interactions amongst services, and impacts on different stakeholders are considered. Most approaches focused on a bounded watershed or administrative unit, with little attention to landscape evolution, or to the definition of system boundaries that encompass flows from source to reception for different services. Although uncertainty is inherent in both input data and the services that are mapped, this is rarely acknowledged, quantified or presented. These features of current mapping approaches constrain their usefulness for informing the management of ES provision from rural landscapes. Key areas for future development are (1) maps at scales and resolutions that connect field scale management options to local landscape impacts; (2) mapping flows, and defining landscape boundaries, that include complete pathways, from source to reception; (3) calculating and presenting information on synergies and trade-offs amongst services; and (4) incorporating stakeholder knowledge and perspectives in the generation and interpretation of maps to bound and communicate uncertainty and improve their legitimacy. 相似文献
16.
Landscape-scale controls over 20th century fire occurrence in two large Rocky Mountain (USA) wilderness areas 总被引:1,自引:0,他引:1
Topography, vegetation, and climate act together to determine thespatial patterns of fires at landscape scales. Knowledge oflandscape-fire-climate relations at these broad scales (1,000s hato 100,000s ha) is limited and is largely based on inferences andextrapolations from fire histories reconstructed from finer scales. In thisstudy, we used long time series of fire perimeter data (fire atlases) and datafor topography, vegetation, and climate to evaluate relationships between large20thcentury fires and landscape characteristics in two contrastingareas: the 486,673-ha Gila/Aldo Leopold Wilderness Complex (GALWC)in New Mexico, USA, and the 785,090-ha Selway-BitterrootWilderness Complex (SBWC) in Idaho and Montana, USA. There were importantsimilarities and differences in gradients of topography, vegetation, andclimatefor areas with different fire frequencies, both within and between study areas.These unique and general relationships, when compared between study areas,highlight important characteristics of fire regimes in the Northern andSouthernRocky Mountains of the Western United States.Results suggest that amount and horizontal continuity of herbaceous fuels limitthe frequency and spread of surface fires in the GALWC, while the moisturestatus of large fuels and crown fuels limits the frequency of moderate-to-highseverity fires in the SBWC. These empirically described spatial and temporalrelationships between fire, landscape attributes, and climate increaseunderstanding of interactions among broad-scale ecosystem processes. Resultsalso provide a historical baseline for fire management planning over broadspatial and temporal scales in each wilderness complex.This revised version was published online in May 2005 with corrections to the Cover Date. 相似文献
17.
Robert L. HopkinsII 《Landscape Ecology》2009,24(7):943-955
The distributions of freshwater mussels are controlled by landscape factors operating at multiple spatial scales. Changes
in land use/land cover (LULC) have been implicated in severe population declines and range contractions of freshwater mussels
across North America. Despite widespread recognition of multiscale influences few studies have addressed these issues when
developing distribution models. Furthermore, most studies have disregarded the role of landscape pattern in regulating aquatic
species distributions, focusing only on landscape composition. In this study, the distribution of Rabbitsfoot (Quadrula cylindrica) in the upper Green River system (Ohio River drainage) is modeled with environmental variables from multiple scales: subcatchment,
riparian buffer, and reach buffer. Four types of landscape environment metrics are used, including: LULC pattern, LULC composition,
soil composition, and geology composition. The study shows that LULC pattern metrics are very useful in modeling the distribution
of Rabbitsfoot. Together with LULC compositional metrics, pattern metrics permit a more detailed analysis of functional linkages
between aquatic species distributions and landscape structure. Moreover, the inclusion of multiple spatial scales is necessary
to accurately model the hierarchical processes in stream systems. Geomorphic features play important roles in regulating species
distributions at intermediate and large scales while LULC variables appear more influential at proximal scales. 相似文献
18.
Neutral models for the analysis of broad-scale landscape pattern 总被引:47,自引:19,他引:28
Robert H. Gardner Bruce T. Milne Monica G. Turnei Robert V. O'Neill 《Landscape Ecology》1987,1(1):19-28
The relationship between a landscape process and observed patterns can be rigorously tested only if the expected pattern in the absence of the process is known. We used methods derived from percolation theory to construct neutral landscape models,i.e., models lacking effects due to topography, contagion, disturbance history, and related ecological processes. This paper analyzes the patterns generated by these models, and compares the results with observed landscape patterns. The analysis shows that number, size, and shape of patches changes as a function of p, the fraction of the landscape occupied by the habitat type of interest, and m, the linear dimension of the map. The adaptation of percolation theory to finite scales provides a baseline for statistical comparison with landscape data. When USGS land use data (LUDA) maps are compared to random maps produced by percolation models, significant differences in the number, size distribution, and the area/perimeter (fractal dimension) indices of patches were found. These results make it possible to define the appropriate scales at which disturbance and landscape processes interact to affect landscape patterns. 相似文献
19.
Jian Yang Thomas E. Dilts Lea A. Condon P. Lee Turner Peter J. Weisberg 《Landscape Ecology》2011,26(3):381-395
Riparian vegetation is distinct from adjacent upland terrestrial vegetation and its distribution is affected by various environmental
controls operating at the longitudinal scale (along the river) or transverse scale (perpendicular to the river). Although
several studies have shown how the relative importance of transverse or longitudinal influences varies with the scale of observation,
few have examined how the influences of the two scales vary with the level of ecological organization. We modeled vegetation-environment
relationships at three hierarchically nested levels of ecological organization: species, plant community, and vegetation type.
Our hierarchically structured analyses differentiated the spatial extent of riparian zones from adjacent upland vegetation,
the distribution of plant community types within the riparian zone, and the distribution of plant species within community
types. Longitudinal gradients associated with climate and elevation exerted stronger effects at the species level than at
the community level. Transverse gradients related to lateral surface water flux and groundwater availability distinguished
riparian and upland vegetation types, although longitudinal gradients of variation better predicted species composition within
either riparian or upland communities. We concur with other studies of riparian landscape ecology that the relative predictive
power of environmental controls for modeling patterns of biodiversity is confounded with the spatial extent of the study area
and sampling scheme. A hierarchical approach to spatial modeling of vegetation-environment relationships will yield substantial
insights on riparian landscape patterns. 相似文献
20.
Wetland vegetation distribution modelling for the identification of constraining environmental variables 总被引:1,自引:0,他引:1
Wetland ecosystems are of primary concern for nature conservation and restoration. Adequate conservation and restoration strategies
emerge from a scientific comprehension of wetland properties and processes. Hereby, the understanding of plant species and
vegetation patterns in relation to environmental gradients is an important issue. The modelling approaches in this study statistically
relate vegetation patterns to measured environmental gradients in a lowland wetland ecosystem. Measured environmental gradients
included groundwater quantity and quality aspects, soil properties and vegetation management. Among this variety, the objective
was to identify the key environmental gradients constraining the vegetation, using recently developed methodologies within
the modelling approaches. Comparison of results indicated that different environmental gradients were considered to be important
by different methodologies. 相似文献