Small to large-scale patterns of ground-dwelling spider (Araneae) diversity across northern Canada

Loboda, Sarah; Buddle, Christopher M.

doi:10.1139/facets-2018-0007

Cited by 8 publications

(3 citation statements)

References 46 publications

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“…Besides leading to marked North–South differences in distance‐decay patterns, dispersal limitation and incomplete postglacial colonization also resulted in northern faunas being a subset of southern ones, as has also been observed in a variety of taxa (e.g. Fattorini & Ulrich, 2012; Griffiths, 2017; Hortal et al., 2011), including spiders in northern Canada (Loboda & Buddle, 2018) and subterranean spiders in Europe (Mammola et al., 2019). It could be argued that environmental tolerances in a climatic gradient may also produce a nested structure if only organisms with high tolerance could colonize the extreme climates of northern Europe (Ulrich et al., 2009).…”

Section: Discussionmentioning

confidence: 91%

Dispersal limitation shapes distance‐decay patterns of European spiders at the continental scale

Martín‐Devasa,

Jiménez‐Valverde,

Leprieur

et al. 2024

Global Ecol Biogeogr

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AimTo assess the relative relevance of dispersal limitation and species sorting as drivers of spatial turnover between spider faunas of European territories.LocationContinental Europe.Time periodPresent.Major taxa studiedSpiders (Order Araneae).MethodsWe analysed how distance‐decay patterns differ between northern and southern Europe (broadly, territories covered vs. not covered by ice sheets during the last glacial maximum, respectively) in 15 spider families, using standardized distances to allow a direct comparison between parameters (i.e. slope and intercept) of climatic and spatial distance‐decay models. Thus, we assessed North–South differences in parameters of spatial and, independently, climatic distance‐decay models, and whether those differences are explained by family‐specific traits related to dispersal ability.ResultsClimatic and spatial distance‐decay patterns are very similar in northern Europe, where climatic and spatial distances are highly correlated. In contrast, slopes are steeper in spatial than in climatic distance‐decay curves in southern Europe, where climatic and spatial distances are decoupled. Moreover, family traits related to dispersal ability explained the North–South difference in spatial distance‐decay slopes, as well as the amount of nestedness‐resultant dissimilarity between southern and northern spider faunas.Main conclusionsOur results suggest that differences in beta diversity patterns between northern and southern Europe reflect the strength of dispersal limitation in spiders, which varies across families and leads to different degrees of disequilibrium with current climatic conditions depending on the taxon. Moreover, in the South of Europe, where spatial and climatic distances are uncorrelated, spatial distance‐decay models are steeper and have larger explanatory power than climatic distance‐decay models, which suggests that dispersal limitation is the main factor shaping current beta diversity patterns of European spiders at the continental scale.

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Section: Discussionmentioning

confidence: 91%

Dispersal limitation shapes distance‐decay patterns of European spiders at the continental scale

Martín‐Devasa,

Jiménez‐Valverde,

Leprieur

et al. 2024

Global Ecol Biogeogr

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“…Spiders will be more susceptible to changes in vegetation if they depend on a particular vegetation structure for their web-building or foraging needs (Thery & Casas, 2002). In terms of the overall diversity of spiders, these avowals can apply to the current study, since the strong link between characteristics pertaining about vegetation (Jiménez-Valverde et al, 2010;Loboda & Buddle, 2018) and/or habitat heterogeneity (Finch et al, 2008) suggest that spider diversity is influenced by the vegetation's structural diversity.…”

Section: Factors Influencing Spider Diversitymentioning

confidence: 98%

Assemblage of spider diversity in Okkarai region of Pachamalai hills, Eastern Ghats, Tiruchirappalli district, Tamil Nadu, India

VASSOU,

TAMILPERIYARDHASAN,

ARIVOLI

et al. 2023

JBC

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The Okkarai area of Pachamalai hills, Eastern Ghats, Tiruchirappalli district, Tamil Nadu, India, was studied for spider diversity in the current study. In total, 178 spiders were recorded, belonging to 12 distinct families (Araneidae, Desidae, Linyphiidae, Nephilidae, Oxyopidae, Pholcidae, Pisauridae, Salticidae, Sparassidae, Tetragnathidae, Theridiidae and Thomisidae), and 17 and 20 different genera and species, respectively. Araneidae family dominated the spider population, and the family dominance curve was in the ascending order of Araneidae (25.28%) > Oxyopidae (14.04%) > Pholcidae (14.04%) > Thomisidae (10.11%) > Tetragnathidae (7.86%) > Linyphiidae (6.74%) > Nephilidae (6.17%) > Sparassidae (5.05%) > Theridiidae (4.49%) > Pisauridae (3.37) > Salticidae (2.24%) > Desidae (0.56%). Araneidae (17.64%) had the most genera per family, and Araneidae and Oxyopidae (20.00%) had the most species per family; and about species composition, Pholcus phalangioides dominated with 14.04%. Spider guilds were represented by web patterns as well as hunting patterns. Web pattern comprised orb web (60.86%), cobweb (34.78%) and sheet web (4.34%). Orb web was represented by families Araneidae, Nephilidae and Tetragnathidae; cobweb by Desidae, Pholcidae, Pisauridae and Theridiidae; while Linyphiidae for sheet web. Ambushers (53.22%) and stalkers (46.77%) represented the hunting pattern whereas Pisauridae, Sparassidae and Thomisidae represented ambushers, and Oxyopidae and Salticidae represented stalkers. Araneidae and Oxyopidae had high species richness indicated by Hill’s (4), Margalef’s (1.33), and Menhinick’s (0.299) indices. Salticidae had high species evenness denoted by Alatalo’s (0.578), Pielou’s (0.488), Shannon’s (1.471) and Sheldon’s (1.413) indices; while Linyphiidae represented Heip’s index (1.347). Araneidae scored high on other indices, viz., Berger-Parker dominance (25.28%), community dominance (1.24), and relative dominance (20.00%); while Salticidae had a high Hill’s number abundance (1.413%), and Pholcidae had a high relative frequency (0.55). This study will contribute to the data on spider biodiversity, taxonomy, it's abundance, distribution, and community organization.

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“…On the most other islands the species richness varies from 8 to 22 species. The latter include islands so different in location and Pleistocene history as Svalbard [Coulson et al, 2014], Novaya Zemlya and Vaygach [Tanasevitch, 2017[Tanasevitch, , 2018, Shokalsky [Nekhaeva, 2018], Sibiryakova [Tanasevitch et al, 2020], Banks [Loboda, Buddle, 2018], Ellesmere [Leach, 1966], Devon [Leech, Ryan, 1972]; Southampton [Pickavance, 2006]. Only the spider fauna of Wrangel Is.…”

Section: Introductionmentioning

confidence: 99%

Spiders (Aranei) of Wrangel Island, Russia. 1. New data on the species composition and distribution

Khruleva

Tanasevitch

Marusik

2022

Arthsel

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Lycosidae (5), Salticidae (1), Theridiidae (2), Thomisidae (1 species). The longitudinal character of the fauna defines the dominance of species with Siberian-Nearctic (39%) and Siberian (30%) ranges, whereas the latitudinal one determines the abundance of species with mainly arctic and arcto-alpine/montane distribution type (81%). At the same time, Wrangel Is. is the only place of finding for 20 species (35%) in the High Arctic. Basically all of them are confined by the island areas with most favorable mesoclimatic conditions.

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Small to large-scale patterns of ground-dwelling spider (Araneae) diversity across northern Canada

Cited by 8 publications

References 46 publications

Dispersal limitation shapes distance‐decay patterns of European spiders at the continental scale

Dispersal limitation shapes distance‐decay patterns of European spiders at the continental scale

Assemblage of spider diversity in Okkarai region of Pachamalai hills, Eastern Ghats, Tiruchirappalli district, Tamil Nadu, India

Spiders (Aranei) of Wrangel Island, Russia. 1. New data on the species composition and distribution

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