共查询到20条相似文献,搜索用时 15 毫秒
1.
Huston’s Dynamic Equilibrium Hypothesis predicts that the response of biodiversity to disturbance varies with productivity.
Because disturbance is thought to break competitive advantage of dominant species in productive ecosystems, species richness
is predicted to increase with disturbance frequency in productive systems. Recovery of plant biomass following disturbance
is also predicted to be faster in productive systems. Here we provide the first test of Huston’s hypothesis in the context
of setting harvest rates in managed forests for achieving biodiversity objectives. We examined predictions relating to vegetation
and bird response to disturbance and succession in productive and less productive forests in western Oregon and Washington,
USA. We found that measurements of understory cover and shrub diversity were higher in young, productive stands than less
productive stands of similar age. Later-seral forests in productive environments (mean age = 67 years) had less variable and
more complete canopy closure than similar-age forests in less favorable settings. At the stand scale, bird abundance and richness
decreased with canopy closure in highly productive forests whereas bird abundance and richness increased with canopy closure
in less productive forests. At the landscape scale, bird abundance and richness within stands increased with increasing levels
of disturbance in the surrounding landscape within highly productive forests, whereas bird abundance and richness decreased
with increasing disturbance in the surrounding landscape within less productive forests. Our results indicate that bird response
to disturbance varies across levels of productivity and suggest that bird species abundance and associated species richness
will be maximized through relatively more frequent disturbance in highly productive systems. 相似文献
2.
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
3.
Carole P. Elliott David B. Lindenmayer Saul A. Cunningham Andrew G. Young 《Landscape Ecology》2012,27(3):393-404
We investigated the species richness and composition of bird communities in mallee woodland remnants in a highly fragmented
landscape, focusing specifically on honeyeaters and their foraging behaviour. We observed birds around flowering Eremophila glabra ssp. glabra plants in three replicated contexts: (1) the interior of large remnants, (2) linear remnants within ~3 km of a large remnant,
and (3) linear remnants 5–7 km from a large remnant. We found species richness differed among elements, with an increase in
the number of species that tolerate disturbed, open habitat and a decrease in the number of woodland-dependent species in
linear elements. Honeyeater assemblages were similar in species richness and abundance among the elements, but differed in
composition due to a higher number of large-sized honeyeater species in distant elements. Honeyeater movement patterns into
a site and within a site were similar among the elements. Floral visitation varied among honeyeater species and was positively
correlated with their abundance in the far element. Our results demonstrate that bird species respond differently to the spatial
context of remnants in a fragmented landscape; however, the degree of isolation of linear remnants was not important. Linear
remnants appear to be frequently used by honeyeaters, but the changes in community composition among the elements may influence
the quality of pollination, which could have implications for plant reproduction. 相似文献
4.
Habitat for wide-ranging species should be addressed at multiple scales to fully understand factors that limit populations.
The marbled murrelet (Brachyramphus marmoratus), a threatened seabird, forages on the ocean and nests inland in large trees. We developed statistical relationships between
murrelet use (occupancy and abundance) and habitat variables quantified across many spatial scales (statewide to local) and
two time periods in California and southern Oregon, USA. We also addressed (1) if old-growth forest fragmentation was negatively
associated with murrelet use, and (2) if some nesting areas are more important than others due to their proximity to high
quality marine habitat. Most landscapes used for nesting were restricted to low elevation areas with frequent fog. Birds were
most abundant in unfragmented old-growth forests located within a matrix of mature second-growth forest. Murrelets were less
likely to occupy old-growth habitat if it was isolated (> 5 km) from other nesting murrelets. We found a time lag in response
to fragmentation, where at least a few years were required before birds abandoned fragmented forests. Compared to landscapes
with little tono murrelet use, landscapes with many murrelets were closer to the ocean's bays, river mouths, sandy shores,
submarine canyons, and marine waters with consistently high primary productivity. Within local landscapes (≤ 800ha), inland
factors limited bird abundance, but at the broadest landscape scale studied (3200 ha), proximity to marine habitat was most
limiting. Management should focus on protecting or creating large, contiguous old-growth forest stands, especially in low-elevation
areas near productive marine habitat.
This revised version was published online in July 2006 with corrections to the Cover Date. 相似文献
5.
The factors responsible for widespread declines of grassland birds in the United States are not well understood. This study,
conducted in the short-grass prairie of eastern Wyoming, was designed to investigate the relationship between variation in
habitat amount, landscape heterogeneity, prey resources, and spatial variation in grassland bird species richness. We estimated
bird richness over a 5-year period (1994–1998) from 29 Breeding Bird Survey locations. Estimated bird richness was modeled
as a function of landscape structure surrounding survey routes using satellite-based imagery (1996) and grasshopper density
and richness, a potentially important prey of grassland birds. Model specification progressed from simple to complex explanations
for spatial variation in bird richness. An information-theoretic approach was used to rank and select candidate models. Our
best model included measurements of habitat amount, habitat arrangement, landscape matrix, and prey diversity. Grassland bird
richness was positively associated with grassland habitat; was negatively associated with habitat dispersion; positively associated
with edge habitats; negatively associated with landscape matrix attributes that may restrict movement of grassland bird; and
positively related to grasshopper richness. Collectively, 62% of the spatial variation in grassland bird richness was accounted
for by the model (adj-R2 = 0.514). These results suggest that the distribution of grassland bird species is influenced by a complex mixture of factors
that include habitat area affects, landscape pattern and composition, and the availability of prey. 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.
Jay E. Howell Clinton T. Moore Michael J. Conroy Richard G. Hamrick Robert J. Cooper Reggie E. Thackston John P. Carroll 《Landscape Ecology》2009,24(3):405-418
Large-scale habitat enhancement programs for birds are becoming more widespread, however, most lack monitoring to resolve
uncertainties and enhance program impact over time. Georgia’s Bobwhite Quail Initiative (BQI) is a competitive, proposal-based
system that provides incentives to landowners to establish habitat for northern bobwhites (Colinus virginianus). Using data from monitoring conducted in the program’s first years (1999–2001), we developed alternative hierarchical models
to predict bobwhite abundance in response to program habitat modifications on local and regional scales. Effects of habitat
and habitat management on bobwhite population response varied among geographical scales, but high measurement variability
rendered the specific nature of these scaled effects equivocal. Under some models, BQI had positive impact at both local farm
scales (1, 9 km2), particularly when practice acres were clustered, whereas other credible models indicated that bird response did not depend
on spatial arrangement of practices. Thus, uncertainty about landscape-level effects of management presents a challenge to
program managers who must decide which proposals to accept. We demonstrate that optimal selection decisions can be made despite
this uncertainty and that uncertainty can be reduced over time, with consequent improvement in management efficacy. However,
such an adaptive approach to BQI program implementation would require the reestablishment of monitoring of bobwhite abundance,
an effort for which funding was discontinued in 2002. For landscape-level conservation programs generally, our approach demonstrates
the value in assessing multiple scales of impact of habitat modification programs, and it reveals the utility of addressing
management uncertainty through multiple decision models and system monitoring. 相似文献
8.
Populations of many grassland bird species such as Grasshopper Sparrow (Ammodramus savannarum), Henslow’s Sparrow (A. henslowii), and Bobolink (Dolichonyx oryzivorus) have experienced considerable declines over the last century. To foster multi-species grassland bird conservation in the
Upper Great Lakes (UGL) states of Michigan, Minnesota, and Wisconsin, we quantified geographic patterns within three sub-regional
zones (e.g., North, Central, and South) of the UGL. Patterns of interest included the distribution and abundance of openland
cover type (including managed pasture-hayland), the distribution, phenology, habitat affinity, and long-term population trends
of ten grassland bird species, and (in particular) the geographic patterns in hayfield mowing and the temporal changes in
hayfield cover. Approximately 10, 38, and 53% of the UGL openland was proportioned in the North, Central, and South zones,
respectively. The distribution of hayland also varied by zone: North, 17%; Central, 46%; and South, 37%. In the central portion
of the UGL where the greatest area is devoted to hay production, alfalfa—more intensively managed than mixed-grass hay—predominates.
Although we found significance differences (P < 0.05) in hayfield mowing intensity between zones (with the majority of land under relatively low-intensity mowing found
in the North Zone, particularly the Upper Peninsula of Michigan) no strong relationships were found between hayfield mowing
patterns, other land cover-land use variables, and bird population trends at finer scales of study. Nonetheless, we suggest
that the geographic patterns illustrated here provide useful information for grassland bird conservation planning across the
UGL. 相似文献
9.
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
10.
Fine-scale landscape change can alter dispersal patterns of animals, thus influencing connectivity or gene flow within a population.
Furthermore, dispersal patterns of different species may be influenced by the landscape in varying ways. Our research first
aimed to examine whether the spatial genetic structure within populations of closely related bird species differs in response
to the same landscape. Second, we examined whether individual-level movement characteristics are a mechanistic driver of these
differences. We generated a priori predictions of how landscape features will influence dispersal (particularly the response
of individuals to habitat boundaries both natural and human-induced) based on a movement model developed by Fahrig (Funct
Ecol 21:1003–1015, 2007). This model allowed us to predict genetic relatedness patterns in populations of two passerine bird species with different
life-history traits from Queensland, Australia (yellow-throated scrubwren Sericornis citreogularis, a habitat specialist; white-browed scrubwren Sericornis frontalis, a habitat generalist). We quantified our predictions using cost-distance modelling and compared these to observed pairwise
genetic distances (a
r
) between individuals as calculated from microsatellite markers. Mantel tests showed that our a priori models correlated with
genetic distance. Euclidean distance was most closely correlated to genetic distance for the generalist species (r = 0.093, P = 0.002), and landscape models that included the avoidance of unsuitable habitat were best for the specialist species (r = 0.107, P = 0.001). Our study showed that predictable movement characteristics may be the mechanism driving differences in genetic
relatedness patterns within populations of different bird species. 相似文献
11.
Rural depopulation and recent landscape changes in a Mediterranean region: Consequences to the breeding avifauna 总被引:8,自引:0,他引:8
We studied the vegetational and avifaunistic changes following rural depopulation in an area covering 2,600 ha north of Montpellier
(Southern France). The study area is covered by a mosaic of Mediterranean habitats that includes cultivation, grasslands,
shrublands, and woodlands and is representative of the natural features present and of the human usage practiced so far in
this part of the Mediterranean.
We sampled the vegetation and the bird fauna in the same 193 census plots in 1978 and in 1992. At both the habitat and landscape
scales the cover of woody plants increased significantly. Open habitats tend to disappear. As a consequence the abundance
of open-habitat bird species decreased significantly whereas the abundance of forest birds increased significantly. These
changes favor a pool of forest species widespread in western Europe and reduce habitat availability for open habitat and shrubland
species. Many of the latter are Mediterranean species whose distribution in Western Europe could become reduced under current
landscape dynamics. Our observation of more woodlands and their typical birds and of less open habitats and their associated
avifauna is not consistent with the traditional worry shown by the public and the managers about the regression of forests
and woodlands in the Northern Mediterranean as a consequence of fire. 相似文献
12.
Aafke M. Schipper Kees Koffijberg Marije van Weperen Guido Atsma Ad M. J. Ragas A. Jan Hendriks Rob S. E. W. Leuven 《Landscape Ecology》2011,26(3):397-410
Understanding the driving forces behind the distribution of threatened species is critical to set priorities for conservation
measures and spatial planning. We examined the distribution of a globally threatened bird, the corncrake (Crex crex), in the lowland floodplains of the Rhine River, which provide an important breeding habitat for the species. We related
corncrake distribution to landscape characteristics (area, shape, texture, diversity) at three spatial scales: distinct floodplain
units (“floodplain scale”), circular zones around individual observations (“home range scale”), and individual patches (“patch
scale”) using logistic regression. Potential intrinsic spatial patterns in the corncrake data were accounted for by including
geographic coordinates and an autocovariate as predictors in the regression analysis. The autocovariate was the most important
predictor of corncrake occurrence, probably reflecting the strong conspecific attraction that is characteristic of the species.
Significant landscape predictors mainly pertained to area characteristics at the patch scale and the home range scale; the
probability of corncrake occurrence increased with potential habitat area, patch area, and nature reserve area. The median
potential habitat patch size associated with corncrake occurrence was 11.3 ha; 90% of the corncrake records were associated
with patches at least 2.2 ha in size. These results indicate that the corncrake is an area-sensitive species, possibly governed
by the males’ tendency to reside near other males while maintaining distinct territories. Our results imply that corncrake
habitat conservation schemes should focus on the preservation of sufficient potential habitat area and that existing management
measures, like delayed mowing, should be implemented in relatively large, preferably contiguous areas. 相似文献
13.
Changes in ecosystem structure caused by urbanization produce a reduction in photosynthetic productivity, which can lead to reductions in resource availability for birds. Here, we analyzed the relation between photosynthetic productivity and bird assemblages in a subtropical urban ecosystem, in North-Western Argentina. We used Generalized Linear Models to assess the responses of bird abundance, richness and diversity to photosynthetic productivity, vegetation cover and distance to main natural forest. We found higher bird richness and diversity with increasing photosynthetic productivity and vegetation cover, and with decreasing distance to forests; while total bird abundance was positively related to vegetation cover. When we classified bird species in different groups, based on their use of the environment, we found that species adapted to urban environments were more dependent on photosynthetic productivity, while species related to native forests were more dependent on the distance to source forests. Understanding the factors that affect bird assemblages in cities is important for the development of strategies for urban planning and conservation. 相似文献
14.
The conversion of forests and farmlands to human settlements has negative impacts on many native species, but also provides
resources that some species are able to exploit. American Crows (Corvus brachyrhynchos), one such exploiter, create concern due to their impact as nest predators, disease hosts, and cultural harbingers of evil.
We used various measures of crow abundance and resource use to determine crows’ response to features of anthropogenic landscapes
in the Puget Sound region of the United States. We examined land cover and land use composition at three spatial scales: study
sites (up to 208 ha), crow home ranges within sites (18.1 ha), and local land cover (400 m2). At the study site and within-site scales crow abundance was strongly correlated with land cover providing anthropogenic
resources. In particular, crows were associated with the amount of ‘maintained forest’ cover, and were more likely to use
grass and shrub cover than forest or bare soil cover. Although crows did not show a generalized response to an edge variable,
they exhibited greater use of patchy habitat created by human settlements than of native forests. Radio-tagged territorial
adults used resources within their home ranges relatively evenly, suggesting resource selection had occurred at a larger spatial
scale. The land conversion pattern of new suburban and exurban settlements creates the mix of impervious surfaces and maintained
vegetation that crows use, and in our study area crow populations are expected to continue to increase.
Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users. 相似文献
15.
With expansion of urban areas worldwide, migrating songbirds increasingly encounter fragmented landscapes where habitat patches
are embedded in an urban matrix, yet how migrating birds respond to urbanization is poorly understood. Our research evaluated
the relative importance of patch-level effects and body condition to movement behaviour of songbirds during migratory stopover
within an urban landscape. We experimentally relocated 91 migrant Swainson’s thrushes (Catharus ustulatus) fitted with 0.66 g radio-transmitters to seven forest patches that differed in area (0.7–38.4 ha) and degree of urbanization
within central Ohio, USA, May 2004–2007. Fine-scale movement rate of thrushes (n = 55) did not differ among urban forest sites, but birds in low energetic condition moved at higher rates, indicating an
energetically mediated influence on movement behaviour. In larger sites, Swainson’s thrushes (n = 59) had greater coarse-level movement during the first 3 days and utilized areas farther from forest edge, indicating stronger
influence by patch-level factors. Thrushes exhibited strong site tenacity, with only five individuals (7%) leaving release
patches prior to migratory departure. Movement outside the release patch only occurred at the smallest forest patches (0.7
and 4.5 ha), suggesting that these sites were too small to meet needs of some individuals. Swainson’s thrushes exhibited edge
avoidance and apparent area sensitivity within urban forest patches during stopover, implying that conservation of larger
patches within urban and other fragmented landscapes may benefit this species and other migrant forest birds. 相似文献
16.
Urban development occupies over 375,000 ha (6%) of California's Central Valley, and expansion continues to displace natural and agricultural landscapes. The value of urban areas as habitat for native wildlife and the characteristics that determine its value, however, remain little studied. Many Neotropical migrant passerine bird species are declining due to changes in breeding, migratory, and wintering habitats and climatic conditions. During 2010–2013, we evaluated the importance of native valley oak (Quercus lobata) as stopover foraging habitat used by Neotropical migrant birds in urban areas of the Sacramento region in California, USA. Over 3 years, we surveyed spring and late summer-early fall migrant songbirds and measured tree canopy cover within 31 c.0.91 ha transects in Curtis Park, an older residential neighborhood. We detected 607 individuals from 20 migrant species, but four wood warblers comprised the bulk of observations: black-throated gray (Setophaga nigrescens), Wilson's (Cardellina pusilla), orange-crowned (Oreothlypis celata), and yellow warblers (Setophaga petechia). Migrant abundance was closely correlated with valley oak canopy abundance and increased linearly with oak canopy especially during fall migration. Migrants were nearly absent from areas lacking oak canopy. Migrant bird species as a group also foraged in valley oak substantially more often (74%) than would be expected based on its 15% relative canopy cover (χ21d.f. = 924, p < 0.0001), as did all species whose selectivity could be tested. These results are important in demonstrating previously undocumented migrant use of urban areas with remnant valley oak canopy and suggest that protecting existing valley oaks and increasing their use in future urban forestry and landscape plantings in the Central Valley could provide substantial habitat benefits for native migratory birds. 相似文献
17.
Responses of Chilean forest birds to anthropogenic habitat fragmentation across spatial scales 总被引:1,自引:1,他引:0
Although it is recognized that anthropogenic forest fragmentation affects habitat use by organisms across multiple spatial
scales, there is uncertainty about these effects. We used a hierarchical sampling design spanning three spatial scales of
habitat variability (landscape > patch > within-patch) and generalized mixed-effect models to assess the scale-dependent responses
of bird species to fragmentation in temperate forests of southern Chile. The abundances of nine of 20 bird species were affected
by interactions across spatial scales. These interactions resulted in a limited effect of within-patch habitat structure on
the abundance of birds in landscapes with low forest cover, suggesting that suitable local habitats, such as sites with dense
understory cover or large trees, are underutilized or remain unused in highly fragmented landscapes. Habitat specialists and
cavity-nesters, such as tree-trunk foragers and tapaculos, were most likely to exhibit interactions across spatial scales.
Because providing additional sites with dense understory vegetation or large habitat trees does not compensate the negative
effect of the loss of forest area on bird species, conservation strategies should ensure the retention of native forest patches
in the mixed-use landscapes. 相似文献
18.
Mediterranean landscapes are suffering two opposing forces leading to large-scale changes in species distribution: land abandonment
of less productive areas and an increase in wildfire impact. Here, we test the hypothesis that fires occurred in recent decades
drive the pattern of expansion of early-successional, open-habitat bird species by aiding in the process of colonisation of
newly burnt areas. The study was carried out in Catalonia (NE Spain). We selected 44 burnt sites occurring between 2000 and
2005 to model colonisation patterns under different assumptions of potential colonisers’ sources and evaluated the colonisation
estimates with empirical data on six bird species especially collected for this purpose. We first defined three landscape
scenarios serving as surrogates of potential colonisers’ sources: open-habitats created by fire, shrublands and farmlands.
Then, we used a parameter derived from a functional connectivity metric to estimate species colonization dynamics on the selected
sites by each particular scenario. Finally, we evaluated our colonisation estimates with the species occurrence in the studied
locations by using generalized linear mixed models. The occurrence of the focal species on the newly burnt sites was significantly
related to the connectivity patterns described by both the recent fire history and the other open-habitat types generated
by a different type of disturbance. We suggest that land use changes in recent decades have produced a shift in the relative
importance of habitats acting as reservoirs for open-habitat bird species dynamics in Mediterranean areas. Before the middle
of the twentieth century species’ reservoirs were probably constituted by relatively static open habitats (grassland and farmland),
whereas afterwards they likely consist of a shifting mosaic of habitat patches where fire plays a key role as connectivity
provider and largely contributes to the maintenance of species persistence. 相似文献
19.
Oliver Robertson Martine Maron Yvonne Buckley Clive McAlpine 《Landscape Ecology》2013,28(10):1975-1987
Globally, modification of landscapes for agriculture has had a strong influence on the distribution and abundance of biota. In particular, woodland-dependent birds are under threat across agricultural landscapes in Britain, North America and Australia, with their decline and extirpation attributed to the loss and fragmentation of habitat. Other native species have become over-abundant in response to anthropogenic landscape change and have strong interactive effects on avian assemblage structure. In eastern Australia, the hyper-aggressive noisy miner (Manorina melanocephala) often dominates woodlands in agricultural landscapes through interspecific competition, resulting in declines of species richness of woodland-dependent birds. We aimed to determine the relative influence and importance of interspecific competition, in situ habitat structure and landscape structure for woodland-dependent bird species at the landscape level. We recorded species-specific landscape incidence of woodland-dependent birds in 24 agricultural-woodland mosaics (25 km2) in southern Queensland, Australia. We selected extensively cleared landscapes (10–23 % woodland cover) where fragmentation effects are expected to be greatest. We applied generalised linear models and hierarchical partitioning to quantify the relative importance of the landscape-level incidence of the noisy miner, mistletoe abundance, shrub cover, woodland extent, woodland subdivision and land-use intensity for the incidence of 46 species of woodland birds at the landscape-scale. The landscape-level incidence of the noisy miner was the most important explanatory variable across the assemblage. Both in situ habitat structure and landscape structure were of secondary importance to interspecific aggression, although previous research suggests that the increasing incidence of the noisy miner in fragmented agricultural landscapes is itself a consequence of anthropogenic changes to landscape structure. Species’ responses to fragmentation varied from positive to negative, but complex habitat structure had a consistently positive effect, suggesting in situ restoration of degraded habitats could be a conservation priority. Landscape wide conservation of woodland-dependent bird populations in agricultural landscapes may be more effective if direct management of noisy miner populations is employed, given the strong negative influence of this species on the incidence of woodland-dependent birds among landscapes. 相似文献
20.
Effects of habitat edge may influence habitat quality, but landscape-scale implications of edge effects have rarely been quantified.
Sprague’s pipit (Anthus spragueii), a grassland obligate songbird, is declining rapidly throughout its range. Although habitat loss is implicated in the decline,
the causes are not well understood. We conducted 290 point counts across a 120 × 130 km study area in southern Alberta, Canada,
between 2000 and 2002, and used nonlinear regression to determine effects of distance to water, roads, and cropland or forage
habitats on relative abundance of Sprague’s pipits. We then used a geographic information system (GIS) to determine the effect
of edges on habitat suitability as indexed by relative abundance. Sprague’s pipit relative abundances declined by 25% from
the maximum predicted relative abundance within 900 m (CI = 660–1,280) of croplands or forage crops, and 340 m (CI = 280–460)
of wetlands, but there was no effect of roads. Fewer than 1% of grassland patches in the study area contained any habitat
far enough away from edge that they would be predicted to support at least 75% of the relative abundance of pipits expected
in the absence of edge effects. Only 33% of the landscape can support 75% or more of the relative abundance expected in the
absence of edge effects, as a result of habitat conversion or edge effects. Sprague’s pipit populations may be declining in
part because edge effects greatly magnify effects of habitat loss. 相似文献