Between locality variations in the seasonal patterns of dung beetles: the role of phenology in mitigating global warming effects

Cuesta, Eva; Mingarro, Mario; Lobo, Jorge M.

doi:10.1111/een.13005

Cited by 10 publications

(8 citation statements)

References 37 publications

(50 reference statements)

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“…In cold temperate regions, the dung beetle activity reaches a peak at early summer (Hanski & Cambefort, 1991). However, in southern Euro-Mediterranean localities, the need to cope with the summer drought generates two main peaks of activity: one in spring and another minor in autumn (Lumaret & Kirk, 1987;Cuesta, Mingarro & Lobo, 2021). Although lifespans of up to 5 years have been recorded, the adults of most small and medium-sized species have a longevity of a few months (Cultid-Medina & Martínez-Quintero, 2019), and one generation in the same year or two in some cases (Martín-Piera & López-Colón, 2000).…”

Section: Introductionmentioning

confidence: 99%

“…Seasonal and diel temporal dimensions would be able to interact with each other in dung beetles. Spatial variation in the phenology of dung beetles has been widely observed (Hanski, 1980;Hanski & Cambefort, 1991;Palmer, 1995;Errouissi et al, 2011;Cuesta, Mingarro & Lobo, 2021) as well as inter-annual phenological changes associated with climatic changes (Menéndez & Gutiérrez, 2004;Cuesta & Lobo, 2019). In addition, diel activity can be affected by temperature (Giménez-Gómez et al, 2018), the quantity of trophic resources (Martín-Piera, Sanmartín & Lobo, 1994), and mainly by the seasonality.…”

Section: Introductionmentioning

confidence: 99%

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Seasonal variation in the diel activity of a dung beetle assemblage

Lobo

Cuesta

2021

PeerJ

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The seasonal and diel variations of dung beetle species were studied in an Iberian mid-mountain locality to examine the interaction between these two temporal rhythms. We assume that a seasonal variation in the diel activity would support the notion that both rhythms may assist in achieving a quick and flexible response when the climatic conditions change. Data coming from 4,104 pitfall traps placed during 15 sampling periods and totalling 30 daily sampling cycles were analysed using circular statistics and General Linear Models. A wide variety of seasonal patterns are observed, highlighting those species with a clear unimodal or spring-autumn bimodal seasonal pattern. However, a midday diel pattern is the norm in most of the species, except in the case of those exhibiting a high body weight that prefer dusk or night periods. We hypothesize that most of the dung beetle species fly at noon to promote the passive heating of their muscle activity and minimize the metabolic energy expenditure. Results only partially support the seasonal variation in diel activity. Diel preferences are mainly manifested at the time of the year in which the abundance is greater. Approximately two-thirds of the considered species exhibit a similar diel activity along their seasonal active period. As consequence, a significant portion of the dung beetle species currently inhabiting Mediterranean mid-mountains are not able to use the daily variation in climatic conditions to limit the inconveniences of climate change.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Seasonal variation in the diel activity of a dung beetle assemblage

Lobo

Cuesta

2021

PeerJ

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“…Surveys were carried out at the onset of each season, and perhaps, time was not enough to observe a decrease in the abundance of beetles in dry season or an increase in wet season. Since dung beetle species could partially adapt to the effects of climate change by modifying their phenological occurrence (Cuesta et al, 2021), as has been shown by other studies in regions with a well‐defined climate (Andresen, 2005; Cuesta et al, 2021; de Siqueira Neves et al, 2010). In addition, small species may be more abundant in dry season to avoid competition with other dung beetle species (Andresen, 2005).…”

Section: Discussionmentioning

confidence: 80%

Space‐for‐time substitution reveals a hump‐shaped distribution of dung beetles

2022

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Studying mechanisms that impact and maintain species diversity in space and time is one of the most important questions in ecology and conservation (Castro et al., 2020;Chesson, 2000). To achieve this goal, it is important to evaluate multiple scales and metrics of biodiversity in response to ecological processes (Barton et al., 2013).Several studies have developed models and theories to assess the impacts that climate change can directly and indirectly cause on species diversity (Norberg et al., 2012). To assess these impacts, longterm assessments associating climate change with species diversity patterns are necessary. Nevertheless, due to the long time to have answers that are needed immediately, these analyses become unfeasible and impractical. In addition, since variation in temporal trends is typically based on comparison in more than one location, making it also a spatial pattern (Blüthgen et al., 2022), a suitable alternative

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“…Thus, the ability of a species to live under colder conditions without spatial modifications of the distribution may require physiological, phenological or diel changes that are difficult to produce. Mediterranean dung beetle species can only partially vary their phenological occurrence to mitigate the effects of climate change (Cuesta et al., 2021). Furthermore, the thermal responses of dung beetle species to different niche dimensions are often unrelated (Calatayud et al., 2021), so fulfilling the temperature requirements for one niche dimension may result in negative effects on other dimensions.…”

Section: Discussionmentioning

confidence: 99%

“…Thus, the greater sensitivity of Aphodiinae species to environmental conditions favors a spatial response to changes in temperature. This greater sensitivity to environmental changes among Aphodiinae species would also be manifested in their ability to modify their phenology (Cuesta et al., 2021) or the alteration of their populations in response to a decrease in trophic resources (Tonelli et al., 2019). According to our results, the most frequent spatial adaptation strategy is related to an increase in the elevation of the occurrences, although changes due to differences in both latitude and longitude are also frequent.…”

Section: Discussionmentioning

confidence: 99%

Taking advantage of opportunistically collected historical occurrence data to detect responses to climate change: The case of temperature and Iberian dung beetles

Lobo,

Mingarro,

Godefroid

et al. 2023

Ecology and Evolution

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This study introduces a novel approach to leverage high‐resolution historical climate data and opportunistically collected historical species occurrence data for detecting adaptive responses to global change. We applied this procedure to the temperature data and the most comprehensive Iberian dataset of dung beetle occurrences as an illustrative example. To understand how populations of different species are responding, we devised a procedure that compares the temporal trend of spatial and temperature variables at the locations and times of all the occurrence data collection (overall trend) with the specific temporal trends among the occurrences of each species. The prevalence of various species responses is linked to life history or taxonomic characteristics, enabling the identification of key factors influencing the propensity to experience different effects from climate change. Our findings suggest that nearly half of the Iberian dung beetle species may be adversely affected by temperature increases, with a geographic shift being the most common response. The results generated through the proposed methodology should be regarded as preliminary information, serving to formulate hypotheses about the diverse responses of species to climate change and aiding in the selection of candidate species capable of coping with challenges posed by changing temperatures.

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Between locality variations in the seasonal patterns of dung beetles: the role of phenology in mitigating global warming effects

Cited by 10 publications

References 37 publications

Seasonal variation in the diel activity of a dung beetle assemblage

Seasonal variation in the diel activity of a dung beetle assemblage

Space‐for‐time substitution reveals a hump‐shaped distribution of dung beetles

Taking advantage of opportunistically collected historical occurrence data to detect responses to climate change: The case of temperature and Iberian dung beetles

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