Rusty Blackbirds select areas of greater habitat complexity during stopover

Abstract The Rusty Blackbird (Euphagus carolinus) is a widespread, uncommon migrant that has experienced heavy population declines over the last century. This species can spend over a quarter of their annual cycle on migration, so it is important to determine their habitat requirements during stopover events to inform effective conservation planning. We assessed their habitat selection at an important stopover site in northern Ohio during both fall and spring migration. Since stopover habitat selection is scale-dependent, we investigated both patch-scale (between patches) and fine-scale (within a patch) selection using radio telemetry to locate foraging and roosting flocks, and compared habitat variables between used and available points across the study site. At the patch scale, we found that birds preferred dogwood–willow swamp, low-lying forest patches, and areas of greater habitat complexity for foraging in both seasons. At the fine scale, spring migrants foraged closer to habitat edges than random, and preferred areas with more wet leaf litter and shallow water, and less grass cover. Fall migrants also preferred shallow water and leaf litter cover, and avoided areas with dense grass, forbs, and herbaceous shrub cover. By contrast, birds consistently roosted in dense stands of emergent Phragmites or Typha marsh, suggesting that the best stopover or staging sites are those with a matrix of different wetland habitats. Although the migratory range of Rusty Blackbirds is currently dominated by agricultural development, our results suggest that fragmented landscapes can still provide adequate habitat for migrants if the available land is managed for a variety of wet habitat types.

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Variable habitat selection and movement patterns among Bullsnake (Pituophis catenifer sayi) populations in Saskatchewan

The Canadian Field-Naturalist ◽

10.22621/cfn.v132i2.2041 ◽

2019 ◽

Vol 132 (2) ◽

pp. 126-139 ◽

Cited By ~ 1

Author(s):

Tera L. Edkins ◽

Christopher M. Somers ◽

Mark C. Vanderwel ◽

Miranda J. Sadar ◽

Ray G. Poulin

Keyword(s):

Habitat Selection ◽

Radio Telemetry ◽

Geographic Location ◽

Space Use ◽

Fine Scale ◽

Range Limit ◽

Northern Range Limit ◽

Range Overlap ◽

Conservation Concern ◽

River Valleys

Pituophis catenifer sayi (Bullsnake) is a sparsely studied subspecies of conservation concern in Canada. Basic ecological information is lacking for P. c. sayi, which reaches its northern range limit in western Canada. To address this gap, we used radio-telemetry to examine space use and habitat selection in three populations of Bullsnakes in disjunct river valley systems (Frenchman, Big Muddy, and South Saskatchewan River Valleys) across their Saskatchewan range. Bullsnakes in two valleys used up to three times more space, travelled 2.5-times farther from overwintering sites, and had lower home range overlap than the third population. Landscape-level habitat selection was flexible, with snakes in all populations using both natural and human-modified habitats most frequently. Fine-scale habitat selection was also similar among populations, with Bullsnakes selecting sites within 1 m of refuges, regardless of whether they were natural or anthropogenic. Based on these results, Bullsnakes are flexible in their broad scale habitat use, as long as they are provided with fine scale refuge sites. The distribution of key seasonal resources appears to ultimately determine space use and habitat selection by Bullsnakes, regardless of the geographic location of the population.

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Biodiversity hanging by a thread: the importance of fungal litter-trapping systems in tropical rainforests

Biology Letters ◽

10.1098/rsbl.2011.1115 ◽

2011 ◽

Vol 8 (3) ◽

pp. 397-400 ◽

Cited By ~ 11

Author(s):

Jake L. Snaddon ◽

Edgar C. Turner ◽

Tom M. Fayle ◽

Chey V. Khen ◽

Paul Eggleton ◽

...

Keyword(s):

Species Richness ◽

Leaf Litter ◽

Plant Diversity ◽

Habitat Complexity ◽

Tropical Rainforests ◽

Dramatic Reduction ◽

Experimental Removal ◽

Crucial Component ◽

High Species Richness ◽

Vital Resource

The exceptionally high species richness of arthropods in tropical rainforests hinges on the complexity of the forest itself: that is, on features such as the high plant diversity, the layered nature of the canopy and the abundance and the diversity of epiphytes and litter. We here report on one important, but almost completely neglected, piece of this complex jigsaw—the intricate network of rhizomorph-forming fungi that ramify through the vegetation of the lower canopy and intercept falling leaf litter. We show that this litter-trapping network is abundant and intercepts substantial amounts of litter (257.3 kg ha −1 ): this exceeds the amount of material recorded in any other rainforest litter-trapping system. Experimental removal of this fungal network resulted in a dramatic reduction in both the abundance (decreased by 70.2 ± 4.1%) and morphospecies richness (decreased by 57.4 ± 5.1%) of arthropods. Since the lower canopy levels can contain the highest densities of arthropods, the proportion of the rainforest fauna dependent on the fungal networks is likely to be substantial. Fungal litter-trapping systems are therefore a crucial component of habitat complexity, providing a vital resource that contributes significantly to rainforest biodiversity.

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Fine-scale habitat selection of American marten at the southern fringe of the boreal forest

Ecoscience ◽

10.2980/17-2-3288 ◽

2010 ◽

Vol 17 (2) ◽

pp. 175-185 ◽

Cited By ~ 14

Author(s):

Guillaume Godbout ◽

Jean-Pierre Ouellet

Keyword(s):

Habitat Selection ◽

Boreal Forest ◽

Fine Scale ◽

American Marten ◽

Southern Fringe ◽

Selection Of

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Adaptive radiation of the comatulid crinoids

Paleobiology ◽

10.1017/s0094837300005121 ◽

1977 ◽

Vol 3 (1) ◽

pp. 74-82 ◽

Cited By ~ 125

Author(s):

David L. Meyer ◽

Donald B. Macurda

Keyword(s):

Habitat Selection ◽

Shallow Water ◽

Adaptive Radiation ◽

Late Mesozoic ◽

Behavioral Adaptations ◽

Bony Fishes ◽

Survival Capacity ◽

Stalked Crinoids ◽

Permanent Fixation

Modern crinoids are dominated by the comatulids (unstalked forms) which range from the intertidal to abyssal depths. Modern stalked crinoids are restricted to depths greater than about 100 m. In the geologic past some stalked crinoids lived at depths of a few tens of meters or less in reef and bank environments. The primary vehicles postulated for the post-Triassic radiation of comatulids are lack of permanent fixation to the substratum and the capacity for mobility. Development of complex muscular articulations has enabled crawling or swimming which serve in habitat selection and avoidance of stress and predators. These and other adaptations may have bestowed on comatulids a higher survival capacity in shallow-water environments compared to stalked crinoids. Modern stalked crinoids lack mobility and complex behavioral adaptations seen in comatulids. Possibly, stalked crinoids in shallow water were unable to cope with the radiation of abundant, predaceous bony fishes in the late Mesozoic and became restricted to greater depths while the more adaptable comatulids gained ascendancy in shallow water.

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Kootenai River white sturgeon (Acipenser transmontanus) fine-scale habitat selection and preference, Kootenai River near Bonners Ferry, Idaho, 2017

Scientific Investigations Report ◽

10.3133/sir20215132 ◽

2021 ◽

Author(s):

Ryan L. Fosness ◽

Taylor J. Dudunake ◽

Richard R. McDonald ◽

Ryan S. Hardy ◽

Shawn Young ◽

...

Keyword(s):

Habitat Selection ◽

White Sturgeon ◽

Acipenser Transmontanus ◽

Fine Scale ◽

Kootenai River

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Habitat selection, fine-scale spatial partitioning and sexual segregation in Rajidae, determined using passive acoustic telemetry

Marine Ecology Progress Series ◽

10.3354/meps13701 ◽

2021 ◽

Author(s):

SJ Simpson ◽

NE Humphries ◽

DW Sims

Keyword(s):

Habitat Selection ◽

Acoustic Telemetry ◽

Sexual Segregation ◽

Fine Scale ◽

Spatial Partitioning ◽

Passive Acoustic

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Spatial Distribution of Greater Sage-Grouse Nests in Relatively Contiguous Sagebrush Habitats

The Condor ◽

10.1093/condor/107.4.742 ◽

2005 ◽

Vol 107 (4) ◽

pp. 742-752 ◽

Cited By ~ 9

Author(s):

Matthew J. Holloran ◽

Stanley H. Anderson

Keyword(s):

Radio Telemetry ◽

Centrocercus Urophasianus ◽

Spatial Arrangement ◽

Population Viability ◽

Prey Detection ◽

Population Declines ◽

Sage Grouse ◽

Nesting Habitat ◽

Nesting Site ◽

Low Probability

Abstract Degradation of nesting habitat has been proposed as a factor contributing to Greater Sage-Grouse (Centrocercus urophasianus) population declines throughout North America. Delineating suitable nesting habitat across landscapes with relatively contiguous sagebrush cover is difficult but important to identify areas for protection. We used radio-telemetry to locate Greater Sage-Grouse nests in relatively contiguous sagebrush habitats in Wyoming to investigate the spatial arrangement of nests relative to lek and other nest locations. Nest distributions were spatially related to lek location within 3 and 5 km of a lek, and a 5-km buffer included 64% of the nests. There was no relationship between lek size and lek-to-nest distance, suggesting that accurate population trend evaluation might require lek surveys in addition to lek counts. Closest known lek-to-nest distance was greater for successfully hatched compared to destroyed nests, and closely spaced nests tended to experience lower success and have higher probabilities of both nests experiencing the same fate compared to isolated nests, suggesting that a mechanism of enhanced prey detection occurred at higher nest densities. A low probability that a given individual's consecutive-year nest spacing occurred randomly suggested nesting site-area fidelity. Although a grouped pattern of nests occurred within 5 km of a lek, the proportion of nesting females located farther than 5 km could be important for population viability. Managers should limit strategies that negatively influence nesting habitat regardless of lek locations, and preserve adequate amounts of unaltered nesting habitat within treatment boundaries to maintain nest dispersion and provide sites for philopatric individuals.

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Bird population declines in the Chametla wetland (Southern Gulf of California): Evidence of stress at the assemblage level

Israel Journal of Ecology and Evolution ◽

10.1163/22244662-20191051 ◽

2019 ◽

Vol 65 (3-4) ◽

pp. 119-129

Author(s):

G. Brabata ◽

C. Battisti ◽

R. Carmona ◽

C.A. Sánchez-Caballero

Keyword(s):

Gulf Of California ◽

Southern Oscillation ◽

Regional Climate ◽

Sharp Decrease ◽

Population Declines ◽

Stopover Site ◽

Entire Study ◽

Climate Conditions ◽

Bird Assemblages ◽

Bird Assemblage

The Chametla wetland is used by shorebirds as a stopover site during their autumn migration and it is also an important breeding area for several species of waterbirds. The objective of this work was to compare the bird assemblages in Chametla wetland during three sampling periods: 1) 1991–1992; 2) 1997–1998 which was subjected to El Nino Southern Oscillation (ENSO) climate conditions and 3) 2005–2006. Bird communities were characterized in terms of species composition and diversity, using similarity analysis. Bird assemblage composition differed across years and seasons. Seasonal variations in composition and diversity were related to the presence/absence of phenological-characterized species (migratory vs. wintering species). The highest species richness was recorded under the ENSO period (1997–1998). We observed a sharp decrease in shorebird numbers, with evident stress at the assemblage level throughout the entire study period. There seems to be a transition of the bird assemblages from shorebird dominance to a dominance by long-legged wading birds and waterfowl species, which could be related to water level variation and changes in the quality/availability of food in the intertidal zone. The joint pressures of regional climate variation combined with local anthropogenic perturbations may lead to changes in bird assemblage in the Chametla wetland.

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