Shifting Breeding Phenology in Eurasian Kestrels Falco tinnunculus: Effects of Weather and Urbanization

Huchler, Katharina; Schulze, Christian; Gamauf, Anita; Sumasgutner, Petra

doi:10.3389/fevo.2020.00247

Cited by 11 publications

(10 citation statements)

References 103 publications

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“…Thus, we speculate that these species have potential to colonize vacant habitat as the climate changes. Eurasian Kestrels in Northern Europe have expanded their range and had greater breeding success as spring temperature have increased (Elmhagen et al, 2015;Huchler et al, 2020). Gray Starlings and Eurasian Hoopoe forage on the ground (Joo et al, 2016;Plard et al, 2020), and warmer temperatures and increased precipitation could lead to increased prey availability in agricultural landscapes (Arlettaz et al, 2010;Plard et al, 2020).…”

Section: Discussionmentioning

confidence: 99%

Declines in Common and Migratory Breeding Landbird Species in South Korea Over the Past Two Decades

Kim

Choi

et al. 2021

Front. Ecol. Evol.

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Population declines in terrestrial bird species have been reported across temperate regions in the world and are attributed to habitat loss, climate change, or other direct mortality sources. North American and European studies indicate that long-distance migrants, common species, and species associated with grasslands and agricultural lands are declining at the greatest rates. However, data from East Asia on avian population trends and associated drivers are extremely sparse. We modeled changes in occupancy of 52 common breeding landbird species in South Korea between 1997–2005 and 2013–2019. Thirty-eight percent of the species showed evidence of declines, and seven of these were declining severely (46–95%). Occupancy of Black-capped Kingfisher (Halcyon pileata) populations have dropped the most precipitously over the study period. Among declining species, long-distance migrants (9/20) and common species (14/20) showed more rapid declines than other groups. Declines of five species were associated with climate change, and two species appeared to be affected by land-cover change. However, causes of change in occupancy of other species (46/52) remains cryptic. Based on our results, we suggest an immediate re-evaluation of species’ conservation status and legal protection levels for seven severely declining species in South Korea, and a dedicated survey design and analysis effort for the continued monitoring landbird populations. Because many species exhibiting declines migrate from beyond national boundaries, international collaborations will be required to better quantify population trends across the full annual cycle, and to understand mechanisms for these declines.

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Section: Discussionmentioning

confidence: 99%

Declines in Common and Migratory Breeding Landbird Species in South Korea Over the Past Two Decades

Kim

Choi

et al. 2021

Front. Ecol. Evol.

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“…Warmer spring temperatures have been associated with earlier breeding in many raptor species, including Northern Goshawks (Accipiter gentilis) in Finland (Lehikoinen et al, 2013) and Idaho/Utah, United States (Bangerter et al, 2021), Peregrine Falcons (Falco peregrinus) in South Africa (Sumasgutner et al, 2020), Eurasian Kestrels (Falco tinnunculus) in Vienna (Kreiderits et al, 2016), and Common Buzzards (Buteo buteo) in Finland (Lehikoinen et al, 2009), among others (Nielsen and Møller, 2006;Dunn, 2019). Delayed egg-laying of Eurasian Kestrels is associated with more rain in the winter/early spring pre-laying period (Huchler et al, 2020) or in the spring (Constantini et al, 2010;Kreiderits et al, 2016). Delayed egg-laying of Rough-legged Hawks (Buteo lagopus; Terraube et al, 2015), Tengmalm's Owls (Aegolius funereus; Kouba et al, 2020), Tawny Owls (Strix aluco; Solenen, 2014), and Ural Owls (Strix uralensis; Lehikoinen et al, 2011) is linked to increased winter/spring snow cover, which reduces the prey availability of some species of voles.…”

Section: Discussionmentioning

confidence: 99%

“…Based on prior studies (Huchler et al, 2020), we considered that the weather in the period 3.5-5 weeks prior to egglaying was most likely to influence laying date (and thus, hatching date, as the length of the incubation period likely did not vary greatly). Because Red-shouldered Hawk courtship in our study area generally begins in February, with egglaying in mid-to late March, we considered that the weather conditions in March and February were the most likely to be biologically meaningful.…”

Section: Weather Datamentioning

confidence: 99%

Breeding Phenology of Red-Shouldered Hawks (Buteo lineatus) Is Related to Snow Cover and Air Temperature During the Pre-Laying Period

Dykstra¹,

Hays²,

Simon³

et al. 2021

Front. Ecol. Evol.

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Global climate change has advanced the breeding phenology of many avian species. However, raptors’ breeding phenologies may not respond in the same way to the factors that influence passerine breeding dates. We studied reproduction of suburban and rural Red-shouldered Hawks (Buteo lineatus) in southern Ohio, United States, from 1997 to 2020. Mean hatching dates for 786 broods were 24 April [Julian day: 114.1 ± 0.3 d (SE)] for suburban birds and 25 April (Julian day: 114.5 ± 0.4) for rural birds. Egg-laying date averages approximately 33 days before hatching date, or about the third week of March. We used mixed models to test which factors influenced nestling hatching dates from 1997 to 2020. The best model included year, days of snow cover during the pre-laying period (February–March), and mean March temperature, with days of snow cover having the largest effect. Hatching date (in Julian days) was positively related to snow cover and negatively related to air temperature, i.e., young hatched earlier in years with fewer days of snow cover and in warmer years). Young also hatched slightly later as the study progressed. Overall, neither mean hatching date nor any of the weather variables showed a significant trend over the course of the study. Previously published reports indicate that many raptor species do not exhibit advancing hatching dates, and breeding phenologies often reflect local weather conditions. The complexity and diversity of raptor responses to climate change underscore the importance of long-term studies of raptors at multiple locations.

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“…Widespread phenomena, such as the progressive expansion of agricultural and urban lands are driving deep changes on ecosystems, often by driving intraspecific phenotypic variation (Alberti et al, 2017; Nooten & Rehan, 2020). Plants and animals respond to these marked environmental variations by shifting their distribution (Colla et al, 2012) and phenology (Huchler et al, 2020), and/or shaping some morphological traits considered “functional”, i.e. relevant for their ecology, fitness and behaviour (Alberti et al, 2017; Eggenberger et al, 2019).…”

Section: Introductionmentioning

confidence: 99%

“…Widespread phenomena, such as the progressive expansion of agricultural and urban lands are driving deep changes on ecosystems, among which the replacement of natural areas and the creation of novel ecosystem conditions Plants and animals respond to these marked environmental variations by shifting their distribution (Colla et al, 2012) and phenology (Huchler et al, 2020), and/or shaping some morphological traits considered "functional", i.e., relevant for their ecology, fitness and behaviour (Alberti et al, 2017;Eggenberger et al, 2019;Nooten & Rehan, 2020). Trait variation due to environmental alteration is particularly relevant in those organisms responsible for ecosystem services, such as pollinators, since changes in their traits could jeopardize the service provided (Buchholz & Egerer, 2020).…”

Section: Introductionmentioning

confidence: 99%

Effect of urbanization and its environmental stressors on the intraspecific variation of flight functional traits in two bumblebee species

Tommasi

Pioltelli

Biella

et al. 2021

Preprint

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Landscape anthropization replaces natural areas with either agricultural or urban covers, leading to land-use intensification. This worldwide phenomenon affects biodiversity, but little is known about the effects on the intraspecific variation of functional traits in spite of their importance for ecosystem functioning and services.Here we investigated if the functional traits of pollinator insects responded to land-use intensification and environmental stressors, by characterizing the variation of important traits for flight performance that are also indicators of stressors during organism development. The possible impact of different land cover (i.e. semi-natural, urban and agricultural) and of multiple biotic and abiotic stressors (i.e. temperature, resource availability and air pollutants) was investigated.Along a gradient of landscape anthropization, we quantified the impact of biotic and abiotic factors on two European bumblebee species (Bombus terrestris and B. pascuorum) sampled at 37 sites in Northern Italy. Through geometric morphometrics we investigated the variation of multiple morphological traits, namely wing centroid size (as a proxy of body size) and asymmetry of wing shape and size. Data on land-cover, climatic conditions and air pollutants were retrieved through remote sensing, while the estimation of resource availability was conducted directly in the field.Our results highlighted the relevance of the two main land-use alteration trajectories (i.e. urbanization and agriculture intensification), although the two species responded idiosyncratically. Urbanization led to shifts towards smaller body sizes due to increased impervious cover and air temperature in B. pascuorum. Instead, B. terrestris responded to agriculture intensification with larger body size in response to higher farmland cover and floral resource availability. Asymmetry in wing shape was not affected by abiotic factors of land-use intensification, but wing size asymmetry was positively associated with warmer temperatures and increased level of NO2 in B. terrestris.This study describes patterns of how landscape anthropization shapes pollinator insects’ functional traits: urbanization is associated with smaller bees, while agriculture intensification leads to larger bees. In addition, environmental stressors impacted wing size asymmetries and could compromise flight performance, particularly in warmer, more polluted habitats. This study indicates that the land-use intensification of anthropized landscapes determines functional trait variation at the intraspecific level and that these responses are highly taxon-specific even in syntopic related organisms.

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Shifting Breeding Phenology in Eurasian Kestrels Falco tinnunculus: Effects of Weather and Urbanization

Cited by 11 publications

References 103 publications

Declines in Common and Migratory Breeding Landbird Species in South Korea Over the Past Two Decades

Declines in Common and Migratory Breeding Landbird Species in South Korea Over the Past Two Decades

Breeding Phenology of Red-Shouldered Hawks (Buteo lineatus) Is Related to Snow Cover and Air Temperature During the Pre-Laying Period

Effect of urbanization and its environmental stressors on the intraspecific variation of flight functional traits in two bumblebee species

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