Habitat Preferences of Nesting Southeastern American Kestrels in Florida: The Importance of Ground Cover

Karl E. Miller; Ryan Butryn; Erin Leone; Jason A. Martin

doi:10.1656/058.018.0209

Demographic features and habitat preferences of southern pygmy mice (Baiomys musculus) in Colima, Mexico

Canadian Journal of Zoology ◽

10.1139/z08-026 ◽

2008 ◽

Vol 86 (6) ◽

pp. 507-524 ◽

Cited By ~ 8

Author(s):

Gary D. Schnell ◽

Cassie J. Poindexter ◽

Cornelio Sánchez-Hernández ◽

María de Lourdes Romero-Almaraz ◽

Michael L. Kennedy ◽

...

Keyword(s):

Logistic Regression ◽

Small Mammals ◽

Woody Plants ◽

Environmental Variables ◽

Dead Wood ◽

Habitat Preferences ◽

Ground Cover ◽

Bare Ground ◽

Open Canopy ◽

Demographic Features

In Colima, Mexico, we conducted 8-night mark–recapture grid studies of southern pygmy mice ( Baiomys musculus (Merriam, 1892)) in January 2003–2007 in dry deciduous and tropical moist forests. For 40 000 trap-nights, 436 individuals were captured 764 times (comprising 18.6% of small mammals). The male:female ratio was 1:1.37, 82.9% were adults, 51.4% of females were pregnant or lactating, and coastal animals, on average, were heavier than those inland. Females moved farther than males. Baiomys was on 17 of 25 grids (densities 1.82–106.24 individuals/ha). Moon illumination did not affect capture or recapture probabilities, but trap-night did (overall, probability increased 1.66%/night). Grids with Baiomys had less bare ground and a more open canopy. Capture sites had more grass, less dead wood and bare ground, a more open and lower canopy, and greater distance to trees. Logistic regression indicated coastal capture sites had more forbs, grasses, and woody plants, and thicker vegetation at 1 m height with trees being relatively distant. Variables differed somewhat for northern sites, and the equation for all grids included 10 of 14 environmental variables. Baiomys frequented edge of an unimproved road traversing one grid. Baiomys musculus, widespread in Colima, exhibited preference for habitats with relatively dense ground cover and at least a partially open canopy.

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Spatial and Temporal Changes in Habitat Heterogeneity Promote Partition of Resources of Small Mammals in a Midlatitude Temperate Forest

10.1101/278390 ◽

2018 ◽

Author(s):

Ivan M. De la Cruz-Arguello ◽

Alondra Castro-Campillo ◽

Alejandro Zavala-Hurtado ◽

Arturo Salame-Méndez ◽

José Ramírez-Pulido

Keyword(s):

Small Mammals ◽

Linear Models ◽

Plant Cover ◽

Habitat Preferences ◽

Mixed Forest ◽

Ground Cover ◽

Dispersion Patterns ◽

Microhabitat Heterogeneity ◽

Close Relatives ◽

Habitat Variables

AbstractOne of the basics and fundamentals problems in ecology is understand the factors that shape the spatial patterns in the distribution of the species and the coexistence of close relatives species. Among the most important factors governing the distributions and the coexistence of species are the spatiotemporal changes occurring in the microhabitat heterogeneity. Here, we assessed the heterogeneity of microhabitats and how they have an effect in the spatial segregation of two species of small mammals (i. e., Peromyscus difficilis and P. melanotis), which coexist in a temperate, mixed forest. We evaluated the microhabitat heterogeneity through multivariate statistics, using onto 23 habitat variables for vertical-horizontal habitat structure along pluvial seasons. To detect specific microdistribution changes and habitat preferences by two species of small mammals, we used second order spatial statistics and general linear models. According to their respective morphology and locomotive adaptations, the middle sized, midscansorial P. difficilis was resident all year long and preferred microhabitats with a high log ground cover, while the opportunistic, small sized, cursorial P. melanotis changed its occupancy area, depending on density of herbaceous and woody plants cover. Under the more benign microhabitat conditions of rainy season (denser plant coverage, milder temperature), both species showed closer microdistribution patterns; while these became repulsive at the less benign conditions of dry season (scarcer plant cover, colder temperature). Thus, we could confirm that seasonal changes of microhabitat heterogeneity promoted Peromyscus coexistence, through dispersion patterns reflecting partition of microhabitat resources.

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Effects of artificial perches and interspecific interactions on patch use by wintering raptors

Canadian Journal of Zoology ◽

10.1139/z03-197 ◽

2003 ◽

Vol 81 (12) ◽

pp. 2038-2047 ◽

Cited By ~ 8

Author(s):

Daniel H Kim ◽

Felipe Chavez-Ramirez ◽

R Douglas Slack

Keyword(s):

Interspecific Interactions ◽

Ground Cover ◽

South Texas ◽

Woody Vegetation ◽

Landscape Matrix ◽

Patch Use ◽

American Kestrel ◽

Coastal Prairie ◽

American Kestrels ◽

Treatment Type

We used an experimental approach to investigate the effects of woody vegetation and interspecific interactions on patch use by three wintering raptor species in the coastal prairie in south Texas. We manipulated perch type and density by the addition of artificial perches to patches of coastal prairie grasslands, varying perch height in the first year and canopy density in the second year. American Kestrels (Falco sparverius) used areas with artificial perches more often than they used natural woody vegetation and areas without woody perches. Northern Harrier (Circus cyaneus) patch use did not vary with treatment type. Loggerhead Shrikes (Lanius ludovicianus) used areas of natural woody vegetation more than patches with artificial perches and patches with no perches. Patch use by Loggerhead Shrikes was also influenced by the presence of complex woody vegetation and interspecific interactions, whereas American Kestrel use was limited by landscape matrix and ground cover density. We believe that predation by Northern Harriers limited Loggerhead Shrikes to patches with escape cover, while competition from American Kestrels prevented Loggerhead Shrikes from concurrent patch use.

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Effect of a control burn on lizards and their structural environment in a eucalypt open-forest

Wildlife Research ◽

10.1071/wr01015 ◽

2002 ◽

Vol 29 (5) ◽

pp. 447 ◽

Cited By ~ 14

Author(s):

Sarinda Singh ◽

Anita K. Smyth ◽

Simon P. Blomberg

Keyword(s):

Habitat Preferences ◽

Ground Cover ◽

Lizard Species ◽

Habitat Features ◽

Low Intensity ◽

Open Forest ◽

Structural Environment ◽

Eastern Australia ◽

Before And After ◽

Burnt Areas

The composition of an open-forest lizard assemblage in eastern Australia was examined before and after a low-intensity controlled fire and concurrently compared with that in an adjoining unburnt area. The effect of fire on the available structural environment and the habitat used by two focal species, Carlia vivax and Lygisaurus foliorum, was also examined. Lizard species richness was unaffected by the controlled burn as was the abundance of most species. C. vivax was the only species to display a significant reduction in abundance after fire. While the low-intensity fire resulted in significant changes to the available structural environment, there were no compensatory shifts in the habitat preferences of either C. vivax or L. foliorum. The reduction in abundance of C. vivax was congruent with this species' avoidance of burnt areas. C. vivax displayed a non-random preference for ground cover and litter cover, which were reduced in burnt areas. Changes in the availability of preferred structural habitat features are likely to contribute to changes in the abundance of some lizard species. Therefore, even low-intensity disturbances can have an impact on lizard assemblages if critical habitat features are lost or become limiting.

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The Influence of Ship Rats (Rattus Rattus) on the Habitat Preferences of the House Mouse (Mus Musculus)

10.26686/wgtn.16959115.v1 ◽

2021 ◽

Author(s):

◽

Benjamin Hancock

Keyword(s):

House Mouse ◽

Mus Musculus ◽

Habitat Preferences ◽

Rattus Rattus ◽

Canopy Cover ◽

Ground Cover ◽

Foraging Activity ◽

Cascading Effects ◽

Control Programs ◽

Indirect Cues

<p>As methods and successes of Rattus rattus (ship rat) control progress, particularly in island environments, the importance of managing Mus musculus (house mouse) increases. M. musculus can negatively impact on a variety of native fauna and flora, potentially creating long term cascading effects. M. musculus populations benefit with the reduction in R. rattus abundance and recover sooner from pest control programs. This three-part study investigated the habitat utilisation of M. musculus and how their relationship with R. rattus influences their habitat preferences. Firstly, hypotheses about the habitat preferences of M. musculus were tested over a landscape scale to determine the features of the environment most important to their distribution. Then the direct effect of R. rattus presence on M. musculus habitat-use was investigated in arena trials. Lastly, in the same arenas, canopy cover was tested as an indirect cue for M. musculus to evaluate the presence of R. rattus. Across 32 sites, M. musculus were the most abundant in warm dry habitats. North facing slopes and rank grass cover were the features of the environment that had the strongest relationship with abundance. In arenas M. musculus foraging activity was 52% lower in patches of short grass when R. rattus scent was present but foraging in rank grass and bare ground was not altered, suggesting activity was suppressed not competitive displacement. There were no significant changes in M. musculus foraging behaviour between different canopy treatments. Although a trend of nocturnal foraging activity dropping 26% when high canopy cover was over short grass compared to short grass patches with lower or no canopy treatments may indicate a risky habitat. M. musculus use of dense ground cover was common theme in this study and in the literature. R. rattus do influence the habitat selection of M. musculus though this was with direct presence more than indirect cues.</p>

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Habitat associations of the long-nosed potoroo (Potorous tridactylus) at multiple spatial scales

Australian Journal of Zoology ◽

10.1071/zo10042 ◽

2010 ◽

Vol 58 (5) ◽

pp. 303 ◽

Cited By ~ 12

Author(s):

Melinda A. Norton ◽

Kris French ◽

Andrew W. Claridge

Keyword(s):

Spatial Scales ◽

Habitat Preferences ◽

Ground Cover ◽

Habitat Associations ◽

Microhabitat Use ◽

Shrub Cover ◽

South Wales ◽

Wide Range ◽

Foraging Preference ◽

Potorous Tridactylus

This study examined the coarse- and fine-scale habitat preferences of the long-nosed potoroo (Potorous tridactylus) in the Southern Highlands of New South Wales, in order to inform the management of this threatened species. Live-trapping was conducted in autumn and spring, from 2005 to 2008, at two sites. Macrohabitat preferences were examined by comparing trap success with numerous habitat attributes at each trap site. In spring 2007 and autumn 2008, microhabitat use was also examined, using the spool-and-line technique and forage digging assessments. While potoroos were trapped in a wide range of macrohabitats, they displayed some preference for greater canopy and shrub cover, and ground cover with lower floristic diversity. While most individuals also displayed preferences for various microhabitat attributes, no clear trends were evident across all individuals. Potoroos displayed some foraging preference for microhabitats with higher shrub cover densities and more open ground cover. Despite extensive fox predation risks, individual potoroos did not all preferentially utilise dense ground cover. Future management of known and potential potoroo habitat should aim to provide effective introduced predator control and enhance the diversity of vegetation attributes while avoiding practices that simplify the habitat.

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The Influence of Ship Rats (Rattus Rattus) on the Habitat Preferences of the House Mouse (Mus Musculus)

10.26686/wgtn.16959115 ◽

2021 ◽

Author(s):

◽

Benjamin Hancock

Keyword(s):

House Mouse ◽

Mus Musculus ◽

Habitat Preferences ◽

Rattus Rattus ◽

Canopy Cover ◽

Ground Cover ◽

Foraging Activity ◽

Cascading Effects ◽

Control Programs ◽

Indirect Cues

<p>As methods and successes of Rattus rattus (ship rat) control progress, particularly in island environments, the importance of managing Mus musculus (house mouse) increases. M. musculus can negatively impact on a variety of native fauna and flora, potentially creating long term cascading effects. M. musculus populations benefit with the reduction in R. rattus abundance and recover sooner from pest control programs. This three-part study investigated the habitat utilisation of M. musculus and how their relationship with R. rattus influences their habitat preferences. Firstly, hypotheses about the habitat preferences of M. musculus were tested over a landscape scale to determine the features of the environment most important to their distribution. Then the direct effect of R. rattus presence on M. musculus habitat-use was investigated in arena trials. Lastly, in the same arenas, canopy cover was tested as an indirect cue for M. musculus to evaluate the presence of R. rattus. Across 32 sites, M. musculus were the most abundant in warm dry habitats. North facing slopes and rank grass cover were the features of the environment that had the strongest relationship with abundance. In arenas M. musculus foraging activity was 52% lower in patches of short grass when R. rattus scent was present but foraging in rank grass and bare ground was not altered, suggesting activity was suppressed not competitive displacement. There were no significant changes in M. musculus foraging behaviour between different canopy treatments. Although a trend of nocturnal foraging activity dropping 26% when high canopy cover was over short grass compared to short grass patches with lower or no canopy treatments may indicate a risky habitat. M. musculus use of dense ground cover was common theme in this study and in the literature. R. rattus do influence the habitat selection of M. musculus though this was with direct presence more than indirect cues.</p>

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Habitat Parameters and Small Mammal Associations of the Gaspe Shrew, Sorex gaspensis, in the Eastern Gaspé Peninsula, Québec

The Canadian Field-Naturalist ◽

10.22621/cfn.v122i2.569 ◽

2008 ◽

Vol 122 (2) ◽

pp. 118 ◽

Cited By ~ 1

Author(s):

Christian Fortin ◽

Denis Comeau

Keyword(s):

Small Mammals ◽

Small Mammal ◽

Habitat Preferences ◽

Ground Cover ◽

Mammal Species ◽

Running Water ◽

Rocky Habitats ◽

Gaspe Peninsula ◽

Gaspé Peninsula ◽

Habitat Parameters

The Gaspé Shrew (Sorex gaspensis) is one of the rarest of Canadian small mammals. Consequently, little is known about its habitat preferences. This paper documents habitat parameters and small mammal species associated with the capture of nine specimens in the Gaspé Peninsula, Québec. Small mammals were collected using both pitfall traps and Victor snap traps at 22 sites during August and September 2005. A total of 571 small mammals representing 12 species was captured during 5637 trap nights. S. gaspensis specimens were trapped at sites located on hilly, rocky habitats. Microhabitat was cool and moist in all cases. Slope was always over 15 degrees and altitude ranged from 29 to 240 meters. Estimated percent of moss ground cover exceeded 50% in seven of the nine capture sites. Six S. gaspensis were trapped near running water while the others were captured far from streams. Overall, ten species of small mammals were captured in the same sites of S. gaspensis. Smoky Shrew (Sorex fumeus) was by far the most strongly associated species.

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Ecology of the rare but irruptive Pilliga mouse, Pseudomys pilligaensis. IV. Habitat ecology

Australian Journal of Zoology ◽

10.1071/zo14057 ◽

2015 ◽

Vol 63 (1) ◽

pp. 28 ◽

Cited By ~ 1

Author(s):

Hideyuki Tokushima ◽

Peter J. Jarman

Keyword(s):

Habitat Selection ◽

Vegetation Cover ◽

Habitat Preferences ◽

Ground Cover ◽

Regression Analyses ◽

Sandy Substrate ◽

Phase Water ◽

Peak Phase ◽

Stable Habitat ◽

Habitat Variables

We determined preferences of the Pilliga mouse, Pseudomys pilligaensis, for habitat attributes (ground and vegetation cover) through phases of a population irruption, and characterised refuge sites used when environmental conditions were unfavourable. In general, P. pilligaensis preferred areas with substrate dominated by sand and shrubs rather than rock or litter. However, its habitat selection changed with phases of the irruption. In the Increase phase, it showed no strong habitat preferences, perhaps because the abundance of food (seeds) overrode preferences for more stable habitat values. Its sensitivity to habitat variables increased in the Peak phase. In the Low phase, mice preferred ground cover with higher proportions of sand and shrubs, and lower proportions of rock and litter. Regression analyses suggested that sandy substrate is the most important factor for the refuge habitat of P. pilligaensis, perhaps because a sandy surface can support more understorey shrubs which provide seeds and protection from predators, and provides sites for burrows. Judging from areas where P. pilligaensis was caught during the Low phase, water run-on areas could also characterise refuge habitats. However, further studies are needed to define the species’ refuge habitats fully.

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Habitat Preferences of Generalist Predators in Reduced-Tillage Corn

Journal of Entomological Science ◽

10.18474/0749-8004-28.4.404 ◽

1993 ◽

Vol 28 (4) ◽

pp. 404-416 ◽

Cited By ~ 25

Author(s):

M. Sean Clark ◽

John M. Luna ◽

Nicholas D. Stone ◽

Roger R. Youngman

Keyword(s):

Management Practices ◽

Habitat Preferences ◽

Ground Cover ◽

Common Species ◽

Soil Disturbance ◽

Reduced Tillage ◽

Generalist Predators ◽

Generalist Predator ◽

Pitfall Trapping ◽

Predator Abundance

Habitat preferences of generalist predators were evaluated by comparing their abundance among four reduced-tillage corn systems which differed in the degree of soil disturbance, quantity and structure of the surface mulch due to tillage, and cover crop management practices. Two sampling methods were used to collect predators, pitfall trapping and vacuum sampling. Although there was considerable difference in the composition of species collected with each method, similar trends in overall predator abundance were observed. Generalist predator abundance followed the gradient of ground cover. The treatment with the highest degree of mulch ground cover had the highest overall predator abundance while the treatment which was disked and without surface mulch had the lowest. Although most of the common species preferred those systems with the most ground cover, several species preferred the system with the least amount of ground cover.

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