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1.
John L. Orrock Gregory R. Curler Brent J. Danielson David R. Coyle 《Landscape Ecology》2011,26(10):1361-1372
The size, shape, and isolation of habitat patches can affect organism behavior and population dynamics, but little is known
about the relative role of shape and connectivity in affecting ecological communities at large spatial scales. Using six sampling
sessions from July 2001 until August 2002, we collected 33,685 arthropods throughout seven 12-ha experimental landscapes consisting
of clear-cut patches surrounded by a matrix of mature pine forest. Patches were explicitly designed to manipulate connectivity
(via habitat corridors) independently of area and edge effects. We found that patch shape, rather than connectivity, affected
ground-dwelling arthropod richness and beta diversity (i.e. turnover of genera among patches). Arthropod communities contained
fewer genera and exhibited less turnover in high-edge connected and high-edge unconnected patches relative to low-edge unconnected
patches of similar area. Connectivity, rather than patch shape, affected the evenness of ground-dwelling arthropod communities;
regardless of patch shape, high-edge connected patches had lower evenness than low- or high-edge unconnected patches. Among
the most abundant arthropod orders, increased richness in low-edge unconnected patches was largely due to increased richness
of Coleoptera, whereas Hymenoptera played an important role in the lower evenness in connected patches and patterns of turnover.
These findings suggest that anthropogenic habitat alteration can have distinct effects on ground-dwelling arthropod communities
that arise due to changes in shape and connectivity. Moreover, this work suggests that corridors, which are common conservation
tools that change both patch shape and connectivity, can have multiple effects on arthropod communities via different mechanisms,
and each effect may alter components of community structure. 相似文献
2.
While biological reserves remain central to biodiversity conservation, the amount of area available for terrestrial reserves
may be inadequate for many taxa. Biodiversity spillover—the promotion of diversity in matrix areas surrounding reserves—might
help address this shortfall in reserve area. However, the mechanistic underpinning of spillover remains uninvestigated. Two
fundamental processes—seed dispersal and establishment—might generate plant biodiversity spillover. Here, we investigate the
role of establishment in promoting spillover by assessing post-dispersal seed predation, a key component of establishment,
in the matrix of a replicated, large-scale habitat fragmentation experiment, where spillover is elevated around patches connected
by landscape corridors. Our results show that matrix seed predation may constrain the distance of this spillover effect by
reducing establishment: seed removal was least at the matrix edge and increased further into the matrix. We found some support
for matrix seed predation underpinning previously reported landscape-level variation in spillover. Of the three species we
investigated, two showed evidence for elevated seed predation in the matrix surrounding the unconnected patches around which
the lowest levels of spillover occur. However, seed predation did not explain connectivity-enhanced spillover, suggesting
that seed dispersal likely drives this pattern. Management activities that increase seed deposition in the matrix may have
beneficial effects via spillover. Our work also illustrates that matrix-mediated gradients in seed predation may be widespread,
but likely vary depending upon matrix composition and the ecological system under consideration. In fragmented landscapes,
this gradient could impact the distribution, abundance, and spread of plant species. 相似文献
3.
The understanding and prediction of the responses of animal populations to habitat fragmentation is a central issue in applied
ecology. The identification of habitat variables associated to patch occupancy is particularly important when habitat quality
is affected by human activities. Here, we analyze the influence of patch and landscape characteristics on patch occupancy
by the subterranean herbivorous rodent Ctenomys porteousi. Patch occupancy was monitored in a network of 63 habitat patches identified by satellite imagery analysis which extends
along almost the whole distributional range for C. porteousi. Suitable habitat for the occurrence of C. porteousi is highly fragmented and represents <10% of the total area in its distributional range. The distribution of C. porteousi in the patch network is affected not only by characteristics of the habitat patches, but also by those of the surrounding
landscape matrix. Significant differences between occupied and empty patches were found in several environmental variables.
Overall, occupied patches were larger, less vegetated, more connected, and had larger neighbor patches than empty patches.
A stepwise procedure on a generalized linear model selected four habitat variables that explain patch occupancy in C. porteousi; it included the effects of habitat quality in the matrix surrounding the patch, average vegetation cover in the patch, minimum
vegetation cover in the matrix surrounding the patch, and the area of the nearest neighbor patch. These results indicate that
patch occupancy in C. porteousi is strongly influenced by the availability and quality of habitat both in the patch and in the surrounding landscape matrix. 相似文献
4.
To assess corridor effects on movement in Peromyscus polionotus (old-field mice), we used a set of three experimental landscapes that contained multiple patches (1.64 ha) of usable, open habitat embedded in a loblolly pine (Pinus taeda) forest matrix. Some patches were connected by corridors and others were isolated (unconnected). We introduced mice to nest boxes in experimental patches and followed them through the landscapes via trapping. We found weak evidence that the presence of corridors decreased the probability that P. polionotus (particularly females) would disperse or disappear from a patch. In the process of live trapping the patches, we also encountered `feral' P. polionotus, Sigmodon hispidus (cotton rats), and Peromyscus gossypinus (cotton mice). The average number of feral animals did not differ between isolated and connected patches. This suggests that corridors do not act as drift fences that `sieve' individuals out of the matrix and into the patches. However, more male than female P. polionotus and S. hispidus were trapped in isolated patches. This intersexual difference did not exist in connected patches. 相似文献
5.
Acknowledgment that the matrix matters in conserving wildlife in human-modified landscapes is increasing. However, the complex
interactions of habitat loss, habitat fragmentation, habitat condition and land use have confounded attempts to disentangle
the relative importance of properties of the landscape mosaic, including the matrix. To this end, we controlled for the amount
of remnant forest habitat and the level of fragmentation to examine mammal species richness in human-modified landscapes of
varying levels of matrix development intensity and patch attributes. We postulated seven alternative models of various patch
habitat, landscape and matrix influences on mammal species richness and then tested these models using generalized linear
mixed-effects models within an information theoretic framework. Matrix attributes were the most important determinants of
terrestrial mammal species richness; matrix development intensity had a strong negative effect and vegetation structural complexity
of the matrix had a strong positive effect. Distance to the nearest remnant forest habitat was relatively unimportant. Matrix
habitat attributes are potentially a more important indicator of isolation of remnant forest patches than measures of distance
to the nearest patch. We conclude that a structurally complex matrix within a human-modified landscape can provide supplementary
habitat resources and increase the probability of movement across the landscape, thereby increasing mammal species richness
in modified landscapes. 相似文献
6.
Nearctic-Neotropical migratory birds are threatened by land-use change throughout their complex annual cycles. While urbanization is an essential driver of land-use change, it is unclear how it affects migrant birds. Although migratory birds are more diverse in non-urban patches of native vegetation than in urban areas, neotropical cities can host diverse assemblages of overwintering migrant birds. Migratory birds in neotropical cities tend to be closely associated with urban green areas (UGAs). However, how their presence and abundance are affected by the habitat elements of UGAs and the urban matrix of neotropical cities is poorly understood. In this study, we compared the migratory bird species richness and abundances among UGAs and the urban matrix of the southern section of the megacity of Mexico City and native vegetation sites outside the city. Our results show that UGAs in neotropical cities provide habitats capable of maintaining complex overwintering migratory bird assemblages with local trees as critical features. We also assess the role that UGAs' characteristics play in determining migrant bird assemblages. We conducted bird censuses and measured habitat traits to determine how migrant bird assemblages are related to the habitat features of our study sites. We measured local, buffer, and spatial habitat features of each UGA. We found 23 overwintering migrant species in the three habitats, with 22 present within UGAs. Both UGAs and urban matrix sites had higher estimated species richness of migrant birds than non-urban native vegetation sites located outside the city. Only local features of UGAs affected migrant birds. While tree abundance in UGAs was positively associated with migratory bird species richness, the proportion of tree coverage was positively related to bird abundance. Our results show that UGAs in neotropical cities can maintain complex overwintering migratory bird assemblages, with trees being the most critical habitat feature. As a result, UGA management focused on maintaining trees and increasing their numbers can improve habitat conditions for migratory birds overwintering in neotropical cities. 相似文献
7.
A large-scale experimental landscape study was conducted to examine the use of corridors and the forest matrix habitat by the hispid cotton rat (Sigmodon hispidus). The role of micro- habitat selection by S. hispidus in influencing routes of movement was also investigated. The experimental landscape consisted of ten 1.64-ha patches (each 128×128 m) established in a loblolly (Pinus teada) forest. Four of the patches were isolated while the other six were connected in pairs by a 32-m wide corridor. Cotton rats (N=96) were simultaneously released into both an isolated and connected patch, and monitored by radiotelemetry for 10 days. We found that the forest matrix was not a barrier to movements of cotton rats. Fifty percent of the cotton rats moved through the matrix. Corridors had no significant effect on the number of animals leaving connected patches (60%) compared to isolated patches (50%). However, corridors were the preferred route to leave a connected patch. Colonization success for cotton rats leaving connected and isolated patches did not significantly differ. Cotton rats exhibited micro-habitat preferences and these preferences differed within patch/corridor and matrix habitats. In patch/corridor habitats, cotton rats selected sites with tall (>1 m) shrubs and high percent cover. In the forest matrix, cotton rats selected sites with abundant cover by vines and low tree canopy cover. Movement patterns of Sigmodon hispidus are not strongly influenced by large-scale landscape spatial structures. Micro-habitat selection, however, does influence movement patterns. These findings have important implications regarding habitat connectivity for small mammals. 相似文献
8.
Landscape-scale Edge Effect in Predation Risk in Forest-farmland Mosaics of Central Europe 总被引:8,自引:1,他引:7
Avian nest predation is known to increase with the degree of forest fragmentation. A common explanation is that farmland allows
for high densities of generalist predators, and predators penetrating into the forest cause higher nest losses at forest-farmland
edges than in forest interiors. In contrast to numerous patch-level studies of forest edge effects conducted earlier, we broadened
the spatial extent to the landscape. We tested the hypothesis of increased predation near farmland over distances of >4 km
from forest–farmland edges into forest interiors in five mountain ranges in Germany, using artificial ground nests. We considered
two landscape settings: (1) Transitions between a forest matrix and a farmland matrix, and (2) farmland patches within a forest
matrix. Nest losses were not significantly higher in vicinity to a farmland matrix, but proximity to a pasture within the
forest matrix strongly increased predation risk. We speculate that these differences resulted from landscape geometry. Farmland
patches and matrix alike are highly attractive to generalist predators, and are regularly visited by red foxes from the forest.
Predators that traverse the forest and take prey along the way, will cause a concentration of predation risk towards a patch
(pasture), but not towards an adjacent matrix (farming lowlands), of feeding habitat. Contrary to previous evidence that edge
effects in nest predation level off after 50 m, nest fate was related to distance to pastures across the entire study extent
of 4.1 km. Our results suggest that landscape context and predator mobility may greatly affect spatial predation patterns. 相似文献
9.
Effects of patch attributes, barriers, and distance between patches on the distribution of a rock-dwelling rodent (Lagidium viscacia) 总被引:1,自引:0,他引:1
We tested whether size of habitat patches and distance between patches are sufficient to predict the distribution of the mountain
vizcacha Lagidium viscacia a large, rock-dwelling rodent of the Patagonian steppe Argentina, or whether information on other patch and landscape characteristics
also is required. A logistic regression model including the distance between rock crevices and depth of crevices, distance
between a patch and the nearest occupied patch, and whether or not there was a river separating it from the nearest occupied
patch was a better predictor of patch occupancy by mountain vizcachas than was a model based only on patch size and distance
between patches. Our results indicate that a simple metapopulation analysis based on size of habitat patches and distance
between patches may not provide an accurate representation of regional population dynamics if patches vary in habitat quality
independently of patch size and features in the matrix alter connectivity.
This revised version was published online in August 2006 with corrections to the Cover Date. 相似文献
10.
Piotr Skórka Piotr Nowicki Magdalena Lenda Magdalena Witek Ewa B. Śliwińska Josef Settele Michal Woyciechowski 《Landscape Ecology》2013,28(3):533-546
Understanding individual movements in heterogeneous environments is central to predicting how landscape changes affect animal populations. An important but poorly understood phenomenon is behavioural response to habitat boundaries and the way animals cross inhospitable matrix surrounding habitat patches. Here, we analyze movement decisions, flight behaviour, and activity of the endangered scarce large blue Phengaris (Maculinea) teleius, focusing on the differences among the patterns observed in patch interior, at patch boundaries and within matrix. The probability of crossing an external patch boundary, regardless of the land use in the adjacent area, was considerably lower than crossing a ‘control line’ within patch interior. Movement distances, flight durations and net squared displacement were largest in matrix, while similarly smaller at patch boundaries and in patch interior. The distribution of angles between successive movements was clearly clustered around 0° (indicating flight in a straight line) in matrix and at patch boundaries, but not in patch interior. There were no differences in time spent on foraging, resting and ovipositing between patch interior and boundaries, but the first two activities rarely, and oviposition never, happened in matrix. Our results suggest that although P. teleius adults do not avoid using the resources located in the boundaries of habitat patches, they often return to the interior of the patches when crossing their boundaries. However, having entered the matrix the butterflies perform relatively long and straight flights. The estimated probability of emigration and net squared distance implies that the dispersal between local populations is common in this species in the studied area. 相似文献
11.
García-Romero Arturo Vergara Pablo M. Granados-Peláez Carlos Santibañez-Andrade Gabriela 《Landscape Ecology》2019,34(1):51-62
Context
Although the edge effect is known to be an important factor influencing the recruitment of trees in temperate forests, little is known of its synergistic relationships with landscape and fragment attributes.
ObjectivesWe investigated how the edge effect on regeneration of oaks (Quercus spp.) varies with respect to fragment geometry, connectivity and landscape composition.
MethodsWe recorded oak sapling density along edge-interior gradients in 29 forest fragments at the periphery of Mexico City and examined the data with Generalized Additive Models.
ResultsA nonlinear and landscape-mediated edge effect was supported by data, including the interactions of the edge distance with patch connectivity, shape and size. Saplings were more abundant at a distance of ca. 50 m from the edge of small, large and connected patches, but large patches also exhibited reduced recruitment towards the interior of the patch. Conversely, sapling density in simple-shaped or connected patches was lower at the edge, exhibiting linear and concave-down increase trends towards the interior of patches, respectively.
ConclusionsBoundary conditions could be interacting with interior forest conditions, making regeneration more frequent at 50 m from the edge. Shady and cooler sites in large patches may be inhibiting oak regeneration. The activity of acorn-dispersing animals and oak predators may increase in unconnected patches, thus increasing the likelihood of edge effects. These results provide insights into the restoration of temperate forest patches in heterogeneous fragmented landscapes.
相似文献12.
Large termitaria act as refugia for tall trees,deadwood and cavity-using birds in a miombo woodland 总被引:1,自引:1,他引:0
Grant S. Joseph Graeme S. Cumming David H. M. Cumming Zacheus Mahlangu Res Altwegg Colleen L. Seymour 《Landscape Ecology》2011,26(3):439-448
Landscape heterogeneity can play an important role in providing refugia and sustaining biodiversity in disturbed landscapes.
Large Macrotermes (Isoptera) termite mounds in miombo woodlands form nutrient rich islands that sustain a different suite of woody plant species
relative to the woodland matrix. We investigated the role of termitaria in providing habitat for cavity-using birds in miombo
woodlands that had been greatly impacted by elephants and fire, by comparing the availability of habitat favored by cavity-using
birds (tall trees, trees with deadwood, and cavities) on and off mounds, and then testing its effect on species richness and
abundance of cavity-using birds. We surveyed 48 termitaria paired with 48 woodland matrix sites in the breeding season; and
54 matrix-termitarium pairs in the non-breeding season in Chizarira National Park, Zimbabwe. Generalized linear mixed-effects
models showed that termitaria harboured significantly higher densities (ha−1) of habitat components considered important for cavity nesting birds. Density of trees >6 m in height and incidence of trees
with deadwood was nearly 10 times greater on mounds than in the matrix, and the density of cavities was nine times higher
on mounds compared to the matrix. A model selection procedure showed that termitaria provided refugia for cavity-using birds
and contributed to the resilience of bird communities through high on-mound densities of trees with deadwood. Large termitaria
thus appear to play an important role in maintaining functionally important components of the avifauna in heavily impacted
Miombo woodlands. 相似文献
13.
In fragmented landscapes, plant species persistence depends on functional connectivity in terms of pollen flow to maintain
genetic diversity within populations, and seed dispersal to re-colonize habitat patches following local extinction. Connectivity
in plants is commonly modeled as a function of the physical distance between patches, without testing alternative dispersal
vectors. In addition, pre- and post-dispersal processes such as seed production and establishment are likely to affect patch
colonization rates. Here, we test alternative models of potential functional connectivity with different assumptions on source
patch effects (patch area and species occupancy) and dispersal (relating to distance among patches, matrix composition, and
sheep grazing routes) against empirical patch colonization rates at the community level (actual functional connectivity),
accounting for post-dispersal effects in terms of structural elements providing regeneration niches for establishment. Our
analyses are based on two surveys in 1989 and in 2009 of 48 habitat specialist plants in 62 previously abandoned calcareous
grassland patches in the Southern Franconian Alb in Bavaria, Germany. The best connectivity model S
i
, as identified by multi-model inference, combined distance along sheep grazing routes including consistently and intermittently
grazed patches with mean species occupancy in 1989 as a proxy for pre-dispersal effects. Community-level patch colonization
rates depended to equal degrees on connectivity and post-dispersal process. Our study highlights that actual functional connectivity
of calcareous grassland communities cannot be approximated by structural connectivity based on physical distance alone, and
modeling of functional connectivity needs to consider pre- and post-dispersal processes. 相似文献
14.
Edge geometry influences patch-level habitat use by an edge specialist in south-eastern Australia 总被引:1,自引:1,他引:0
We investigated patterns in habitat use by the noisy miner (Manorina melanocephala) along farmland-woodland edges of large patches of remnant vegetation (>300 ha) in the highly fragmented box-ironbark woodlands
and forests of central Victoria, Australia. Noisy miners exclude small birds from their territories, and are considered a
significant threat to woodland bird communities in the study region. Seventeen different characteristics of edge habitat were
recorded, together with the detection or non-detection of noisy miners along 129 500-m segments of patch edge. Habitat characteristics
ranged from patch-level factors related to patch-edge geometry to site-level floristic factors. Backward (stepwise) logistic
regression analyses were used to identify habitat characteristics that were associated with the occupancy of a site by noisy
miners. After accounting for the effects of spatial autocorrelation on the occurrence of noisy miners along edges, we identified
projections of remnant vegetation from the patch edge into the agricultural matrix (e.g., corners of patches, peninsulas of
vegetation) and clumps of trees in the agricultural matrix within 100 m of the edge as significant predictors of the occupancy
of edges by noisy miners. This relationship was also confirmed in two other geographically and floristically distinct habitats
within Victoria. The use of edges with projections by noisy miners may confer advantages in interspecific territorial defence.
In light of these results, we advocate revegetation strategies that attempt to enclose projections within 100 m of the edge,
with fencing placed out to this new boundary, to reduce the likelihood of colonisation and domination of an edge by noisy
miners. Our study highlights the need for greater consideration to be given to the patterns in habitat use by aggressive edge
specialists, particularly in relation to patch-edge geometry and other human-induced components of landscapes. 相似文献
15.
Landscape features that promote animal movement contribute to functional habitat connectivity. Factors that affect the use of landscape features, such as predation risk, may alter functional connectivity. We identify factors important to functional habitat connectivity by quantifying movement patterns of the Santa Rosa beach mouse (Peromyscus polionotus leucocephalus) in relation to landscape features and by examining how ambient perceived predation risk, which is altered by moon phase, interacts with landscape features. We use track paths across the sand to relate the probability that beach mice cross gaps between vegetation patches to gap width, patch quality, landscape context and moon phase. Overall activity levels were lower during full versus new moon nights, demonstrating that beach mice respond negatively to moonlight. Gap crossing was more likely during new moon nights (25 % of gaps crossed vs. 7 % during full moon nights), and across narrower gaps (<8.38 m) that led to larger vegetation patches (>11.75 m2). This study suggests that vegetation recovery is necessary for functional connectivity in post-hurricane landscapes commonly inhabited by beach mice and provides initial guidelines for restoring landscape connectivity. More broadly, this study highlights the importance of considering predation risk when quantifying landscape connectivity, as landscape features that facilitate connectivity when predation risk is low may be ineffective if predation risk increases over time or across space. 相似文献
16.
Matrix quality affects probability of persistence in habitat patches in landscape simulation models while empirical studies
show that both urban and agricultural land uses affect forest birds. However, due to the fact that forest bird abundance and
species richness can be strongly influenced by local habitat factors, it is difficult to analyze matrix effects without confounding
effects from such factors. Given this, our objectives were to (1) relate human-dominated land uses to forest bird abundance
and species richness without confounding effects from other factors; (2) determine the scale at which forest birds respond
to the matrix; and (3) identify whether certain bird migratory strategies or habitat associations vary in richness or abundance
as a function of urban and agriculture land uses. Birds were surveyed at a single point count site 100 m from the edge of
23 deciduous forest patches near Ottawa, Ontario. Land uses surrounding each patch were measured within increasingly large
circles from 200 to 5000 m radius around the bird survey site. Regression results suggest that effects of urban and agricultural
land uses on forest birds (1) are not uniformly positive or negative, (2) can occur at different spatial scales, and (3) differentially
affect certain groups of species. In general, agriculture appeared to affect species at a broad spatial scale (within 5 km),
while urban land use had an impact at both a narrower spatial scale (within 1.8 km) and at the broad scale. Neotropical and
short distance migrant birds seemed to be the most sensitive to land use intensification within the matrix. Limiting urban
land use within approximately 200–1800 m of forest patches would be beneficial for Neotropical migrant birds, which are species
of growing conservation concern in temperate North America. 相似文献
17.
Island biogeographers have predicted that in oceanic systems, oblong islands oriented perpendicular to the dispersal paths of organisms should intercept more species and individuals than (1) circular islands of the same size, and (2) oblong islands of equal area oriented parallel to the direction of travel. Landscape ecologists expect similar relations with habitat patches in a terrestrial matrix. Yet in neither situation is there adequate empirical information to permit conclusions about the prevalence of such effects. To test the hypothesis that intercept-related patch variables influence community structure on the landscape scale, we studied relations between the richness and abundance of cavity-nesting birds and patch shape, size, and orientation relative to a northerly migration path. The influences of other patch features on nest abundances were removed analytically. Multiple regression indicated that the mean and total number of nesting species, and nest abundances for migrants were significantly associated with patch orientation or a patch area x orientation interaction, but not patch shape. Nest abundances for permanent residents were not associated with patch shape or orientation, although area effects, possibly reflecting dispersal interception, were evident. These results are consistent with the hypothesis that stochastic interception of migrating or dispersing organisms influences patch community structure. In addition to richness and abundance effects apparent in this analysis, the sex ratio, age structure, growth rate, social structure, and genetic features of patch populations may also be influenced. The interception of moving organisms by patches may thus be a key factor influencing population and community persistence in reserves. If so, landscape structure could be manipulated to maximize the interception of dispersing or migrating organisms, or minimize it if the effects are undesirable. 相似文献
18.
Tick density and population dynamics are important factors in the ecological processes involved in pathogen circulation in
a habitat. These characteristics of tick populations are closely linked to habitat suitability, which reflects the limiting
ecological factors and landscape features affecting tick populations; however, little work has been done on the regional assessment
of habitat suitability. In this study, a regional model for the distribution and abundance of the tick Ixodes ricinus in central Spain is developed. An occurrence and an abundance model were constructed; climate and vegetation variables were
found to be the main predictors of both occurrence and density in a relatively homogeneous matrix of habitat patches, whereas
topographical variables were found to have small contributions and were therefore discarded. The residuals of the abundance
model showed good correlation with the isolation of each patch. The predictive power of the abundance model was greatly enhanced
by inclusion of the traversability (a measure of the permeability of each patch to the propagules of the metapopulation) and
recruitment (an index of the relative importance of each patch to the traffic through the entire habitat network). The removal
from the landscape of the patches whose recruitment values were in the top 10% has a critical effect on tick density, an effect
not observed when patches are removed at random. These results indicate that permanent tick populations can be sustained only
in landscapes containing a minimum network of viable sites. Graph theory and measurements of patch isolation should prove
to be important elements in the forecasting of tick abundance and the management of the features underlying the landscape
ecology of tick populations and pathogen circulation in the field. 相似文献
19.
We evaluated the effects of aspen patch area and orientation (relative to North and an elevational gradient) on the early
breeding season abundance and species richness of migratory and resident birds in the northern ungulate winter range of the
Yellowstone ecosystem, USA. Using an information-theoretic model selection approach, we found patch area and basal area of
aspen to be the most important covariates for long distance migrants, and patch orientation relative to elevational gradient
the most important covariate for residents/short-distance migrants. Basal area of live aspen and aspen snags was marginally
important for both migratory strategies, likely because aspen snags are an important habitat for most cavity-nesting species.
Landscape ecological theory postulates passive interception of dispersing or migrating organisms by patches of suitable habitat.
Our results suggest that residents/short-distance migrants are intercepted by patches that are oriented perpendicular to the
elevational gradient of our study region resulting in greater abundances and species richness in those patches. However, long-distance
migrants appear to use aspen patches without regard to orientation, but rather to patch area. 相似文献
20.
Streambed landscapes: evidence that stream invertebrates respond to the type and spatial arrangement of patches 总被引:9,自引:1,他引:8
Palmer Margaret A. Swan Christopher M. Nelson Karen Silver Pamela Alvestad Rachel 《Landscape Ecology》2000,15(6):563-576
The availability and spatial arrangement of habitat patches are known to strongly influence fauna in terrestrial ecosystems. The importance of patch arrangement is not well-studied within running-water systems where flow-induced movements of patches and of fauna could decouple habitat characteristics and faunal habitat preferences. Using small, stream-dwelling invertebrates, we asked if fauna in such systems can distinguish among patch types and if patch arrangement at their `landscape scale' (i.e., within a streambed across which they move and forage) can be linked to faunal abundance. We quantified the spatial distribution of sand and leaf patches at multiple sites on a streambed at regular intervals over a 1
yr period, estimated faunal abundance in the two patch types, and experimentally determined if faunal colonization varied among leaf patches that were similar structurally but differed in their potential microbial food resources. We show that despite their small size and limited swimming abilities, these stream invertebrates did respond to patch type, that specific characteristics of an individual patch influenced faunal colonization, and that the spatial arrangement of patches on the streambed was linked to field abundances. Larval chironomids and adult copepods were more abundant in leaves than in sand and preferentially colonized leaf patches made with rapidly decomposing leaves that harbored higher microbial (bacteria and fungi) abundances over leaf patches with more refractory leaves and lower microbial abundances. Further, statistical models that included spatially-explicit data on patch arrangement (e.g., patch contagion, distance between patches) explained significantly more variation in faunal abundance, than models that included only nonspatial information (e.g., date, time since last flood). Despite the fact that these fauna live in a highly dynamic environment with variable flow rates during the year, unstable patch configurations, and seasonal changes in total abundance, our findings suggest a need for aquatic ecologists to test the hypothesis that small-scale landscape attributes within streams (e.g., leaf patch aggregation) may be important to faunal dynamics. If patch aggregation has negative consequences for stream biota, streambed `landscapes' may be fundamentally different from many terrestrial landscapes due to the inherent connectivity provided by the water and the over-riding importance of patch edges. Regardless of these differences, our findings suggest that the spatial configuration of patches in a landscape may have consequences for fauna even in highly dynamic systems, in which patches move and fauna periodically experience high levels of passive dispersal. 相似文献