Foraging strategies involved in habitat use of shorebirds at the intertidal area of Chongming Dongtan, China

Winter movements and habitat use of harbour seals (Phoca vitulina) were investigated in two tidal bays in France, at the southern limit of their species range in the Northeast Atlantic. We fitted 15 seals with Fastloc™GPS/GSMtags in the Baie du Mont-Saint-Michel (BMSM) and the Baie des Veys (BDV). Tags relayed 20.6±7.1 GPS locations per seal-day, 81% of all dives performed by the seals and 87% of haulouts, during an average tracking duration of 108±56 days. One seal travelled 380 km away from the BMSM but the other seals remained stationary, with 95% and 55% of at-sea locations ≤ 5 km from the haulout sites in BMSM and BDV respectively. Home range sizes were 137 and 161 km² in BMSM and BDV, and core areas’ sizes, 35 and 22 km² respectively. The seals remained very coastally in both sites with 93% and 71% of at-sea locations located in the intertidal zone of BMSM and BDV respectively. Accordingly, dives were shallow with 63% and 61% of dive maximum depths <4 m and 94% and 88% <10 m (in BMSM and BDV respectively). Preferred foraging areas were located in tidal channels in BMSM, sometimes in the vicinity of rocks or mussel farms. In BDV one seal made foraging trips 10-15 km offshore but all other seals repeatedly used coastal areas, often foraging around mussel farms, shipwrecks or intertidal rocks in tidal currents. We suggest that the importance of the tides combined with local features of the topography allow seals to predict prey availability, driving their foraging strategies towards a number of specific coastal areas. These results further illustrate the behavioural plasticity of the species according to habitat and environmental conditions. Fastloc™ GPS/GSM telemetry is particularly well adapted for the study of seals’ habitat use at a fine geographical and temporal scale, as long as they occasionally come close to shore within GSM coverage.

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Spatial and temporal patterns of habitat use by three estuarine species of mysid shrimp

Marine and Freshwater Research ◽

10.1071/mf07247 ◽

2008 ◽

Vol 59 (9) ◽

pp. 792 ◽

Cited By ~ 16

Author(s):

Matthew D. Taylor

Keyword(s):

Habitat Use ◽

Full Moon ◽

Foraging Strategies ◽

Habitat Partitioning ◽

Spatial And Temporal Patterns ◽

Benthic Habitats ◽

Trophic Resources ◽

New Moon ◽

Adaptive Foraging ◽

Mysid Shrimp

The mysids Rhopalopthalmus egregius, Haplostylus dakini and Doxomysis australiensis are abundant yet unstudied omnivorous crustaceans in Australian estuaries. Habitat use and population dynamics were investigated for these species over spring and summer in the Tweed River, Australia, to explore their ecological role in estuarine ecosystems. Overall, mysids were concentrated in shallow unvegetated and deep unvegetated estuarine habitats. H. dakini were most abundant in shallow and deep bare habitats at night, whereas R. egregius were most abundant in deep bare habitats during the night. D. australiensis were present across all habitats in the night, but negligible numbers were present during the day. Significantly greater numbers of R. egregius and D. australiensis were sampled during the new moon, compared with the full moon. Significantly larger R. egregius and D. australiensis individuals were present in benthic habitats at night, indicating possible partitioning of habitat for juvenile and adult subpopulations. Adaptive foraging strategies and habitat use facilitates the coexistence of sympatric mysid species, H. dakini and R. egregius, and within-species habitat partitioning allowed juvenile R. egregius to avoid interaction with adult R. egregius. The observed dynamics minimize inter- and intra-specific predation between mysids, and by other predators, while optimizing access to key trophic resources.

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Movement Patterns and Habitat use for Sympatric Species

10.21203/rs.3.rs-827045/v1 ◽

2021 ◽

Author(s):

Elizabeth McAlpine-Bellis ◽

Kaera L Utsumi ◽

Kelly M Diamond ◽

Janine Klein ◽

Sophia Gilbert-Smith ◽

...

Keyword(s):

Habitat Use ◽

Great Basin ◽

Movement Patterns ◽

Step Length ◽

Sympatric Species ◽

Habitat Characteristics ◽

Foraging Strategies ◽

Turn Angle ◽

Visual Predator ◽

Food Movement

Abstract Background: Movement is an important characteristic of an animal’s ecology, reflecting perception of and response to environmental conditions. To effectively search for food, movement patterns likely depend on habitat characteristics and the sensory systems used to find prey. We examined movements associated with foraging for two sympatric species of lizards inhabiting the Alvord Basin in the Great Basin Desert of southeastern Oregon. The two species have largely overlapping diets but find prey via different sensory cues, which link to their differing foraging strategies — the long-nosed leopard lizard, Gambelia wislizenii, is a visually-oriented predator, while the western whiptail, Aspidoscelis tigris, relies heavily on chemosensory cues to find prey.Methods: Using detailed focal observations, we characterized the habitat use and movement paths of each species. We placed markers at the location of focal animals every minute for the duration of each 30-min observation. Afterwards, we recorded whether each location was in the open or in vegetation, as well as the movement metrics of step length, path length, net displacement, straightness index, and turn angle, and then made statistical comparisons between the two species.Results: The visual forager spent more time in open areas, moved less frequently over shorter distances, and differed in patterns of plant use compared to the chemosensory forager. Path characteristics of step length and turn angle differed between species.Conclusions: The visual predator moved in a way that was consistent with the notion that they require a clear visual path to stalk prey whereas the movement of the chemosensory predator increased their chances of detecting prey by venturing further into vegetation. Sympatric species can partition limited resources through differences in search behavior and habitat use.

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Closely related gull species show contrasting foraging strategies in an urban environment

Scientific Reports ◽

10.1038/s41598-021-02821-y ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

K. A. Lato ◽

D. J. Madigan ◽

R. R. Veit ◽

L. H. Thorne

Keyword(s):

Stable Isotope ◽

Habitat Use ◽

Food Sources ◽

Foraging Strategies ◽

Urban Habitat ◽

Urban Landscapes ◽

Ecosystem Structure ◽

Herring Gulls ◽

Positive Effects ◽

Marine Habitats

AbstractThe expansion of urban landscapes has both negative and positive effects on wildlife. Understanding how different species respond to urbanization is key to assessing how urban landscapes influence regional wildlife behavior and ecosystem structure. Gulls are often described as strong urban adapters, but few studies have explored species-specific differences in habitat use. Here, we use GPS tracking in conjunction with stable isotope analysis (SIA) to quantify the habitat use and trophic ecology of great black-backed gulls (Larus marinus) and herring gulls (L. argentatus) in an urbanized area. Non-Metric Multidimensional Scaling (NMDS) of foraging locations revealed significant differences in the habitat use between species. Great black-backed gulls foraged primarily in marine habitats and herring gulls foraged primarily in specific urban habitats (e.g., landfills, dumpsters) and showed higher site fidelity in terms of the proportion of foraging sites revisited. Further, great black-backed gulls had significantly higher δ15N and δ13C than herring gulls, reflecting the use of marine, rather than urban, food sources. This study highlights the variability in urban habitat utilization among closely related species, assesses stable isotope signatures of urban diets in wild birds, and discusses ecological implications of the relative contribution of urban and marine foraging.

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Diverse habitat use during two life stages of the critically Endangered Bahama Oriole (Icterus northropi): Community structure, foraging, and social interactions

10.7287/peerj.preprints.2795 ◽

2017 ◽

Author(s):

Melissa R Price ◽

William K Hayes

Keyword(s):

Habitat Use ◽

Social Interactions ◽

Breeding Season ◽

Pine Forest ◽

Critically Endangered ◽

Foraging Strategies ◽

Life Stages ◽

Vegetation Types ◽

Age Classes ◽

Second Year

Our ability to prevent extinction in declining populations often depends on effective management of habitats that are disturbed through wildfire, logging, agriculture, or development. In these disturbed landscapes, the juxtaposition of multiple habitat types can be especially important to fledglings and young birds, which may leave breeding grounds in human-altered habitat for different habitats nearby that provide increased foraging opportunities, reduced competition, and higher protection from predators. In this study, we sought to better understand the importance of habitat diversity to two life stages of the critically endangered Bahama Oriole ( Icterus northropi ), a synanthropic songbird endemic to Andros, The Bahamas. First, we determined the avian species composition and relative abundance of the oriole among three major vegetation types on Andros: Caribbean pine ( Pinus caribaea ) forest, coppice (broadleaf dry forest), and anthropogenic areas, dominated by nonnative vegetation (farmland and developed land). We then compared the foraging strategies and social interactions of two age classes of adult orioles in relation to differential habitat use. Bird surveys late in the oriole’s breeding season indicated avian s pecies richness and oriole density were highest in coppice. Some bird species occurring in the coppice and pine forest were never observed in agricultural or residential areas, and may be at risk if human disturbance of pine forest and coppice increases, as is occurring at a rapid pace on Andros. During the breeding season, second-year (SY) adult orioles foraged in all vegetation types, whereas after-second-year (ASY) adults were observed foraging only in anthropogenic areas, where the species nested largely in introduced coconut palms ( Cocos nucifera ). Additionally, SY adults foraging in anthropogenic areas were often observed with an ASY adult, suggesting divergent habitat use for younger, unpaired birds. Other aspects of foraging (vegetation features, food-gleaning behavior, and food items) were similar for the two age classes. Older orioles exhibited relatively higher rates of social interactions (intraspecific and interspecific pooled) in anthropogenic areas, and won more interaction outcomes compared to youngeradults. Our findings concur with those of other studies indicating dry broadleaf forest is vitally important to migrating, wintering, and resident birds, including the critically endangered Bahama Oriole, which appears to depend heavily on this vegetation type during certain life stages.

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Divergent Foraging Strategies of Two Neotropical Migrant Warblers: Implications for Winter Habitat Use

The Auk ◽

10.1093/auk/117.2.381 ◽

2000 ◽

Vol 117 (2) ◽

pp. 381-392 ◽

Cited By ~ 3

Author(s):

Allan M. Strong

Keyword(s):

Habitat Use ◽

Leaf Litter ◽

Foraging Behavior ◽

Foraging Strategies ◽

Habitat Types ◽

Seiurus Aurocapillus ◽

Winter Habitat ◽

Neotropical Migrant ◽

Use Patterns ◽

Limnothlypis Swainsonii

Abstract To address whether foraging strategies affect habitat-use patterns of nonbreeding warblers, I quantified foraging behavior, bill dimensions, and diet (based on regurgitation samples) of Ovenbirds (Seiurus aurocapillus) and Swainson's Warblers (Limnothlypis swainsonii) wintering in three habitats in Jamaica. Ovenbirds primarily gleaned prey from the surface of the leaf litter (95% of foraging maneuvers), resulting in a diet comprised predominantly of ants (62% of all prey items), seeds (18%), and beetles (9%). Swainson's Warblers foraged by lifting leaves (80% of foraging maneuvers), resulting in a significantly different diet dominated by beetles (39%), spiders (22%), and ants (19%). More than 60% of the regurgitation samples from Swainson's Warblers contained orthopterans and/or gecko (Sphaerodactylus goniorhynchus) bones. Averaged across all habitat types, Ovenbirds consumed ants in direct proportion to their abundance based on visual counts of arthropods. Swainson's Warblers consumed beetles more than expected based on the abundance of beetles in visual counts and Berlese funnels. The use of a diversity of habitats by Ovenbirds may be related to their ability to feed opportunistically on ants, which are a widespread, abundant, and reliable resource. In contrast, based on their foraging behavior and diet, Swainson's Warblers may be restricted to habitats with a well-developed canopy and an abundant subsurface leaf-litter fauna.

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Distribution and movement of a stocked freshwater fish: implications of a variable habitat volume for stocking programs

Marine and Freshwater Research ◽

10.1071/mf11120 ◽

2011 ◽

Vol 62 (11) ◽

pp. 1342 ◽

Cited By ~ 11

Author(s):

James A. Smith ◽

Lee J. Baumgartner ◽

Iain M. Suthers ◽

Matthew D. Taylor

Keyword(s):

Habitat Use ◽

Dissolved Oxygen ◽

Stocking Density ◽

Foraging Strategies ◽

Adaptive Behaviour ◽

Catch Per Unit Effort ◽

Variable Environment ◽

Stochastic Events ◽

Thermal Preferences ◽

Gill Netting

Fish are commonly stocked into impoundments globally, yet their patterns of habitat use in this variable environment are rarely incorporated into the management of stocking density. The movement and distribution of Australian bass Macquaria novemaculata (Perchichthyidae) were monitored in two impoundments to assess whether: (1) impoundment populations exhibit behaviour typical of wild or riverine percichthyids; (2) changing gradients of temperature and dissolved oxygen influenced distribution; and (3) the volume of available habitat should be incorporated into the management of these fisheries. Habitat use was determined with a combination of gill netting and ultrasonic telemetry using depth-coded tags. Tagged fish displayed both crepuscular and migratory behaviour typical of the Percichthyidae, but also showed a previously unobserved division between littoral and pelagic foraging strategies. Australian bass showed no obvious thermal preferences, but avoided areas with dissolved oxygen <4 mg L–1. In one impoundment, a combination of hypoxia and water extraction reduced the volume of available habitat to 15% of maximum in March 2009, which coincided with increased catch per unit effort (CPUE) and decreased fish condition. The adaptive behaviour of Australian bass makes them well suited to the variability of impoundments, but annual and stochastic events of habitat reduction should be considered when planning stocking regimes for these fisheries.

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Diverse habitat use during two life stages of the critically Endangered Bahama Oriole (Icterus northropi): Community structure, foraging, and social interactions

10.7287/peerj.preprints.2795v1 ◽

2017 ◽

Author(s):

Melissa R Price ◽

William K Hayes

Keyword(s):

Habitat Use ◽

Social Interactions ◽

Breeding Season ◽

Pine Forest ◽

Critically Endangered ◽

Foraging Strategies ◽

Life Stages ◽

Vegetation Types ◽

Age Classes ◽

Second Year

Our ability to prevent extinction in declining populations often depends on effective management of habitats that are disturbed through wildfire, logging, agriculture, or development. In these disturbed landscapes, the juxtaposition of multiple habitat types can be especially important to fledglings and young birds, which may leave breeding grounds in human-altered habitat for different habitats nearby that provide increased foraging opportunities, reduced competition, and higher protection from predators. In this study, we sought to better understand the importance of habitat diversity to two life stages of the critically endangered Bahama Oriole ( Icterus northropi ), a synanthropic songbird endemic to Andros, The Bahamas. First, we determined the avian species composition and relative abundance of the oriole among three major vegetation types on Andros: Caribbean pine ( Pinus caribaea ) forest, coppice (broadleaf dry forest), and anthropogenic areas, dominated by nonnative vegetation (farmland and developed land). We then compared the foraging strategies and social interactions of two age classes of adult orioles in relation to differential habitat use. Bird surveys late in the oriole’s breeding season indicated avian s pecies richness and oriole density were highest in coppice. Some bird species occurring in the coppice and pine forest were never observed in agricultural or residential areas, and may be at risk if human disturbance of pine forest and coppice increases, as is occurring at a rapid pace on Andros. During the breeding season, second-year (SY) adult orioles foraged in all vegetation types, whereas after-second-year (ASY) adults were observed foraging only in anthropogenic areas, where the species nested largely in introduced coconut palms ( Cocos nucifera ). Additionally, SY adults foraging in anthropogenic areas were often observed with an ASY adult, suggesting divergent habitat use for younger, unpaired birds. Other aspects of foraging (vegetation features, food-gleaning behavior, and food items) were similar for the two age classes. Older orioles exhibited relatively higher rates of social interactions (intraspecific and interspecific pooled) in anthropogenic areas, and won more interaction outcomes compared to youngeradults. Our findings concur with those of other studies indicating dry broadleaf forest is vitally important to migrating, wintering, and resident birds, including the critically endangered Bahama Oriole, which appears to depend heavily on this vegetation type during certain life stages.

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