Spatial autocorrelation and the analysis of invasion processes from distribution data: a study with the crayfish Procambarus clarkii

Siesa, M.E.; Manenti, Raoul; Padoa‐Schioppa, Emilio; Bernardi, Fiorenza De; Ficetola, Gentile Francesco

doi:10.1007/s10530-011-0032-9

Cited by 41 publications

(25 citation statements)

References 63 publications

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“…Significant, positive autocorrelation occurs when nearby caves have similar occupancy, and may indicate that dispersal between cavities plays an important role in determining the pattern of species distribution (see Siesa et al, 2011;Ficetola et al, 2012 for further details). We used Moran's I to assess spatial autocorrelation, the significance of I was tested through 999 permutations.…”

Section: Statistical Analysesmentioning

confidence: 99%

Do cave salamanders occur randomly in cavities? An analysis with Hydromantes strinatii

2012

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Underground environments are increasingly recognised as important habitats for the distribution of certain amphibians. However, very few analyses tested whether amphibians occur randomly in underground environments, or they select cavities with specific environmental features. We assessed the distribution of the cave salamander Hydromantes (Speleomantes) strinatii in an area of NW Italy during summer, and analysed relationships between salamander distribution and multiple cave features, considering parameters describing both the biotic and the abiotic environment. Using visual encounter surveys, species' detection probability was high, indicating that this technique provides reliable information on distribution. Salamanders were associated to caves with cold and humid microclimate, presence of wet walls, and hosting large numbers of Meta spiders. The association with less luminous caves was close to significance. Distribution data were not affected by spatial autocorrelation, suggesting that cave features are more important than the proximity to other occupied caves in determining the pattern of occupancy. Caves are heterogeneous environments: cave salamanders are strongly related to the features of underground environments. Food availability and abiotic features are major determinants of suitability for cave salamanders. Inter-correlation among biotic and abiotic cave features makes it complex identifying the role of factors determining species distribution, but quantitative analyses and PCA help to unravel the cave habitat requirements for amphibians.

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Section: Statistical Analysesmentioning

confidence: 99%

Do cave salamanders occur randomly in cavities? An analysis with Hydromantes strinatii

2012

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“…Water acidity also reduces survival and slows down development in embryos and larvae, particularly at pH 4.5 or lower (Merilä et al 2004). The introduction of novel predators may have a deep impact on local populations (Siesa et al 2011), in part because native prey are very likely to fail to recognize novel predators and hence fail to produce antipredator defenses, whether behavioral or morphological. Last, increased water temperature causes developmental acceleration, causing larvae to metamorphose smaller and with reduced hind limbs (Gomez-Mestre et al 2010;Duarte et al 2012).…”

Section: Introductionmentioning

confidence: 99%

Physiological Stress Responses in Amphibian Larvae to Multiple Stressors Reveal Marked Anthropogenic Effects even below Lethal Levels

Burraco

Gómez-Mestre

2016

Physiological and Biochemical Zoology

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Natural and anthropogenic disturbances cause profound alterations in organisms, inducing physiological adjustments to avoid, reduce, or remedy the impact of disturbances. In vertebrates, the stress response is regulated via neuroendocrine pathways, including the hypothalamic-pituitary-interrenal axis that regulates the secretion of glucocorticoids. Glucocorticoids have cascading effects on multiple physiological pathways, affecting the metabolic rate, reactive oxygen species production, or immune system. Determining the extent to which natural and anthropogenic environmental factors induce stress responses in vertebrates is of great importance in ecology and conservation biology. Here we study the physiological stress response in spadefoot toad tadpoles (Pelobates cultripes) against three levels of a series of natural and anthropogenic stressors common to many aquatic systems: salinity (0, 6, and 9 ppt), herbicide (0, 1, and 2 mg/L acid equivalent of glyphosate), water acidity (pH 4.5, 7.0, and 9.5), predators (absent, native, and invasive), and temperature (217, 257, and 297C). The physiological stress response was assessed examining corticosterone levels, standard metabolic rate, activity of antioxidant enzymes, oxidative cellular damage in lipids, and immunological status. We found that common stressors substantially altered the physiological state of tadpoles. In particular, salinity and herbicides cause dramatic physiological changes in tadpoles. Moreover, tadpoles reduced corticosterone levels in the presence of natural predators but did not do so against invasive predators, indicating a lack of innate recognition. Corticosterone and the antioxidant enzyme glutathione reductase were the most sensitive parameters to stress in this study. Anthropogenic perturbations of aquatic systems pose serious threats to larval amphibians even at nonlethal concentrations, judging from the marked physiological stress responses generated, and reveal the importance of incorporating physiological information onto conservation, ecological, and evolutionary studies.

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“…, and lower extinction rate of populations near springs suggests that isolation may increase the persistence of A. pallipes populations. Procambarus clarkii prefers ponds, lakes or the lower part of streams where there are eutrophic conditions linked to organic pollution and F. limosus prefers larger and deep subalpine lakes or mesotrophic rivers with greater flow and depth(Siesa, Manenti, Padoa-Schioppa, De Bernardi, & Ficetola, 2011;Souty Grosset et al, 2006). Procambarus clarkii and F. limosus tend to occupy substantially different environments with respect to A. pallipes populations, with native crayfish restricted to small oligotrophic streams and alien species mostly occurring in wetlands with a slower current, such as eutrophic lakes, ponds and rivers(Chucholl, 2016;Gil-Sanchez & Alba- Tercedor, 2006;Manenti et al, 2014).…”

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Causes and consequences of crayfish extinction: Stream connectivity, habitat changes, alien species and ecosystem services

et al. 2018

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Given the ongoing decline of many species, it is important to perform multifactorial analyses of conservation status and to assess the effects of species extinction on ecosystem services. In this study, we used long‐term surveys to assess the influence of habitat change, landscape alteration and invasive species on extinction risk of the native crayfish Austropotamobius pallipes. We reviewed the existing literature to assess which ecosystem services are threatened by local extinction of A. pallipes and replacement with alien crayfish. We sampled 196 streams and wetlands in northern Italy. Of these, 117 received multiple surveys over a 13‐year period (2004–2017), thus allowing accurate measurement of extinction rate. Thirty‐four percent of A. pallipes populations underwent extinction between 2004 and 2017. The occurrence of alien crayfish in the catchment basin and urban growth in the landscape surrounding streams were associated with A. pallipes extinction. The probability of persistence was significantly higher in populations close to stream springs and with physical barriers (especially waterfalls) separating them from basins with alien crayfish. Extinction of native crayfish alters community structure and impairs regulating services such as detrital breakdown and pest regulation. Replacement by alien crayfish (Procambarus clarkii and Faxonius limosus) also threatens supporting and regulating services by altering nutrient cycling, food webs, sediments and erosion. The implementation of management practices that control river connectivity using selective barriers is needed to prevent further local extinction of native species. Integrating information on extinction with knowledge of impacts on ecosystem services is essential in developing more effective conservation policies.

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Spatial autocorrelation and the analysis of invasion processes from distribution data: a study with the crayfish Procambarus clarkii

Cited by 41 publications

References 63 publications

Do cave salamanders occur randomly in cavities? An analysis with Hydromantes strinatii

Do cave salamanders occur randomly in cavities? An analysis with Hydromantes strinatii

Physiological Stress Responses in Amphibian Larvae to Multiple Stressors Reveal Marked Anthropogenic Effects even below Lethal Levels

Causes and consequences of crayfish extinction: Stream connectivity, habitat changes, alien species and ecosystem services

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