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Do the pattern and strength of species associations in ectoparasite communities conform to biogeographic rules? / Krasnov, Boris R.; Shenbrot, Georgy I.; Korallo-Vinarskaya, Natalia P.; Vinarski, Maxim V. ; van der Mescht, Luther; Warburton, Elizabeth; Khokhlova, I.S.

в: Parasitology Research, Том 118, № 4, 03.04.2019, стр. 1113-1125.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Krasnov, BR, Shenbrot, GI, Korallo-Vinarskaya, NP, Vinarski, MV, van der Mescht, L, Warburton, E & Khokhlova, IS 2019, 'Do the pattern and strength of species associations in ectoparasite communities conform to biogeographic rules?', Parasitology Research, Том. 118, № 4, стр. 1113-1125. https://doi.org/10.1007/s00436-019-06255-4

APA

Krasnov, B. R., Shenbrot, G. I., Korallo-Vinarskaya, N. P., Vinarski, M. V., van der Mescht, L., Warburton, E., & Khokhlova, I. S. (2019). Do the pattern and strength of species associations in ectoparasite communities conform to biogeographic rules? Parasitology Research, 118(4), 1113-1125. https://doi.org/10.1007/s00436-019-06255-4

Vancouver

Krasnov BR, Shenbrot GI, Korallo-Vinarskaya NP, Vinarski MV, van der Mescht L, Warburton E и пр. Do the pattern and strength of species associations in ectoparasite communities conform to biogeographic rules? Parasitology Research. 2019 Апр. 3;118(4):1113-1125. https://doi.org/10.1007/s00436-019-06255-4

Author

Krasnov, Boris R. ; Shenbrot, Georgy I. ; Korallo-Vinarskaya, Natalia P. ; Vinarski, Maxim V. ; van der Mescht, Luther ; Warburton, Elizabeth ; Khokhlova, I.S. / Do the pattern and strength of species associations in ectoparasite communities conform to biogeographic rules?. в: Parasitology Research. 2019 ; Том 118, № 4. стр. 1113-1125.

BibTeX

@article{37e913715df142d5b0072ce7e7c79599,
title = "Do the pattern and strength of species associations in ectoparasite communities conform to biogeographic rules?",
abstract = "We tested whether biogeographic patterns characteristic of species diversity and composition may also apply to community assembly by investigating geographic variation in the pattern (PSA) (aggregation versus segregation) and strength of species associations (SSA) in flea and mite communities harbored by small mammalian hosts in Western Siberia. We asked whether (a) there is a relationship between latitude and PSA or SSA and (b) similarities in PSA or SSA follow a distance decay pattern or if they are better explained by variation in environmental factors (altitude, amount of vegetation, precipitation, and air temperature). We used a sign of a co-occurrence metric (the C-score) as an indicator of PSA and its absolute standardized value as a measure of SSA. We analyzed data using logistic and linear models, generalized dissimilarity modeling (GDM), and a logistic version of the multiple regression on distance matrices (MRM). The majority of the C-scores of the observed presence/absence matrices indicated a tendency to species aggregation rather than segregation. No effect of latitude on PSA or SSA was found. The dissimilarity in PSA was affected by environmental dissimilarity in mite compound communities only. A relatively large proportion of the deviance of spatial variation in SSA was explained by the GDMs in infracommunities, but not component communities, and in only three (of seven) and two (of eight) host species of fleas and mites, respectively. The best predictors of dissimilarity in SSA in fleas differed between host species, whereas the same factor (precipitation) was the best predictor of dissimilarity in SSA in mites. We conclude that PSA and SSA in parasite communities rarely conform to biogeographic rules. However, when a biogeographic pattern is detected, its manifestation differs among hosts and between ectoparasite taxa.",
keywords = "Distance decay of similarity, Fleas, Gamasid mites, Latitudinal gradient, Species co-occurrence",
author = "Krasnov, {Boris R.} and Shenbrot, {Georgy I.} and Korallo-Vinarskaya, {Natalia P.} and Vinarski, {Maxim V.} and {van der Mescht}, Luther and Elizabeth Warburton and I.S. Khokhlova",
year = "2019",
month = apr,
day = "3",
doi = "10.1007/s00436-019-06255-4",
language = "English",
volume = "118",
pages = "1113--1125",
journal = "Parasitology Research",
issn = "0932-0113",
publisher = "Springer Nature",
number = "4",

}

RIS

TY - JOUR

T1 - Do the pattern and strength of species associations in ectoparasite communities conform to biogeographic rules?

AU - Krasnov, Boris R.

AU - Shenbrot, Georgy I.

AU - Korallo-Vinarskaya, Natalia P.

AU - Vinarski, Maxim V.

AU - van der Mescht, Luther

AU - Warburton, Elizabeth

AU - Khokhlova, I.S.

PY - 2019/4/3

Y1 - 2019/4/3

N2 - We tested whether biogeographic patterns characteristic of species diversity and composition may also apply to community assembly by investigating geographic variation in the pattern (PSA) (aggregation versus segregation) and strength of species associations (SSA) in flea and mite communities harbored by small mammalian hosts in Western Siberia. We asked whether (a) there is a relationship between latitude and PSA or SSA and (b) similarities in PSA or SSA follow a distance decay pattern or if they are better explained by variation in environmental factors (altitude, amount of vegetation, precipitation, and air temperature). We used a sign of a co-occurrence metric (the C-score) as an indicator of PSA and its absolute standardized value as a measure of SSA. We analyzed data using logistic and linear models, generalized dissimilarity modeling (GDM), and a logistic version of the multiple regression on distance matrices (MRM). The majority of the C-scores of the observed presence/absence matrices indicated a tendency to species aggregation rather than segregation. No effect of latitude on PSA or SSA was found. The dissimilarity in PSA was affected by environmental dissimilarity in mite compound communities only. A relatively large proportion of the deviance of spatial variation in SSA was explained by the GDMs in infracommunities, but not component communities, and in only three (of seven) and two (of eight) host species of fleas and mites, respectively. The best predictors of dissimilarity in SSA in fleas differed between host species, whereas the same factor (precipitation) was the best predictor of dissimilarity in SSA in mites. We conclude that PSA and SSA in parasite communities rarely conform to biogeographic rules. However, when a biogeographic pattern is detected, its manifestation differs among hosts and between ectoparasite taxa.

AB - We tested whether biogeographic patterns characteristic of species diversity and composition may also apply to community assembly by investigating geographic variation in the pattern (PSA) (aggregation versus segregation) and strength of species associations (SSA) in flea and mite communities harbored by small mammalian hosts in Western Siberia. We asked whether (a) there is a relationship between latitude and PSA or SSA and (b) similarities in PSA or SSA follow a distance decay pattern or if they are better explained by variation in environmental factors (altitude, amount of vegetation, precipitation, and air temperature). We used a sign of a co-occurrence metric (the C-score) as an indicator of PSA and its absolute standardized value as a measure of SSA. We analyzed data using logistic and linear models, generalized dissimilarity modeling (GDM), and a logistic version of the multiple regression on distance matrices (MRM). The majority of the C-scores of the observed presence/absence matrices indicated a tendency to species aggregation rather than segregation. No effect of latitude on PSA or SSA was found. The dissimilarity in PSA was affected by environmental dissimilarity in mite compound communities only. A relatively large proportion of the deviance of spatial variation in SSA was explained by the GDMs in infracommunities, but not component communities, and in only three (of seven) and two (of eight) host species of fleas and mites, respectively. The best predictors of dissimilarity in SSA in fleas differed between host species, whereas the same factor (precipitation) was the best predictor of dissimilarity in SSA in mites. We conclude that PSA and SSA in parasite communities rarely conform to biogeographic rules. However, when a biogeographic pattern is detected, its manifestation differs among hosts and between ectoparasite taxa.

KW - Distance decay of similarity

KW - Fleas

KW - Gamasid mites

KW - Latitudinal gradient

KW - Species co-occurrence

UR - http://www.scopus.com/inward/record.url?scp=85061726337&partnerID=8YFLogxK

U2 - 10.1007/s00436-019-06255-4

DO - 10.1007/s00436-019-06255-4

M3 - Article

VL - 118

SP - 1113

EP - 1125

JO - Parasitology Research

JF - Parasitology Research

SN - 0932-0113

IS - 4

ER -

ID: 40899628