Structure of compound and component communities of fleas parasitic on small mammals in six different regions as revealed by environmental-based co-occurrence geometry analyses

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Structure of compound and component communities of fleas parasitic on small mammals in six different regions as revealed by environmental-based co-occurrence geometry analyses. / Винарский, Максим Викторович; Krasnov, Boris R.; Grabovsky, V.; Khokhlova , I.S.; Korallo-Vinarskaya, N.P.; LÓPEZ BERRIZBIETIA, M.F.; Matthee, Sonja; Sanchez, Juliana; Stanko, Michal; van der Mescht, Luther.

In: Integrative Zoology, 10.06.2024.

Research output: Contribution to journal › Article › peer-review

BibTeX

@article{99cb89852ac14f718829bd30856ed630,

title = "Structure of compound and component communities of fleas parasitic on small mammals in six different regions as revealed by environmental-based co-occurrence geometry analyses",

abstract = "We inferred the patterns of co-occurrence of flea species in compound (across all host species) and component (across conspecific hosts) communities from six regions of the world (Mongolia, Northwest Argentina, Argentinian Patagonia, West Siberia, Slovakia, and South Africa) using the novel eigenvector ellipsoid method. This method allows us to infer structural community patterns by comparing species{\textquoteright} environmental requirements with the pattern of their co-occurrences. We asked whether: (a) communities are characterized by species segregation, nestedness, or modularity; (b) patterns detected by the novel method conform to the patterns identified by traditional methods that search for non-randomness in community structure; and (c) the pattern of flea species co-occurrences in component communities is associated with host species traits. The results of the application of the eigenvector ellipsoid method suggested that the co-occurrence of flea species was random in all compound communities except in South Africa, where this community demonstrated a tendency to be nested. Flea species co-occurrences were random in many component communities. Species segregation was detected in the flea community of one host, whereas the flea communities of 14 hosts from different regions appeared to be nested. No indication of a modular structure in any community was found. The nestedness of flea component communities was mainly characteristic of hosts with a low relative brain mass. We concluded that the application of this novel method that combines data on species distribution and their environmental requirements allows better identification of the community structural patterns and produces more reliable results as compared with traditional methods.",

keywords = "co-occurrence, eigenvector ellipsoid, fleas, nestedness, small mammals",

author = "Винарский, {Максим Викторович} and Krasnov, {Boris R.} and V. Grabovsky and I.S. Khokhlova and N.P. Korallo-Vinarskaya and {L{\'O}PEZ BERRIZBIETIA}, M.F. and Sonja Matthee and Juliana Sanchez and Michal Stanko and {van der Mescht}, Luther",

year = "2024",

month = jun,

day = "10",

doi = "10.1111/1749-4877.12856",

language = "English",

journal = "Integrative Zoology",

issn = "1749-4877",

publisher = "Wiley-Blackwell",

}

RIS

TY - JOUR

T1 - Structure of compound and component communities of fleas parasitic on small mammals in six different regions as revealed by environmental-based co-occurrence geometry analyses

AU - Винарский, Максим Викторович

AU - Krasnov, Boris R.

AU - Grabovsky, V.

AU - Khokhlova , I.S.

AU - Korallo-Vinarskaya, N.P.

AU - LÓPEZ BERRIZBIETIA, M.F.

AU - Matthee, Sonja

AU - Sanchez, Juliana

AU - Stanko, Michal

AU - van der Mescht, Luther

PY - 2024/6/10

Y1 - 2024/6/10

N2 - We inferred the patterns of co-occurrence of flea species in compound (across all host species) and component (across conspecific hosts) communities from six regions of the world (Mongolia, Northwest Argentina, Argentinian Patagonia, West Siberia, Slovakia, and South Africa) using the novel eigenvector ellipsoid method. This method allows us to infer structural community patterns by comparing species’ environmental requirements with the pattern of their co-occurrences. We asked whether: (a) communities are characterized by species segregation, nestedness, or modularity; (b) patterns detected by the novel method conform to the patterns identified by traditional methods that search for non-randomness in community structure; and (c) the pattern of flea species co-occurrences in component communities is associated with host species traits. The results of the application of the eigenvector ellipsoid method suggested that the co-occurrence of flea species was random in all compound communities except in South Africa, where this community demonstrated a tendency to be nested. Flea species co-occurrences were random in many component communities. Species segregation was detected in the flea community of one host, whereas the flea communities of 14 hosts from different regions appeared to be nested. No indication of a modular structure in any community was found. The nestedness of flea component communities was mainly characteristic of hosts with a low relative brain mass. We concluded that the application of this novel method that combines data on species distribution and their environmental requirements allows better identification of the community structural patterns and produces more reliable results as compared with traditional methods.

AB - We inferred the patterns of co-occurrence of flea species in compound (across all host species) and component (across conspecific hosts) communities from six regions of the world (Mongolia, Northwest Argentina, Argentinian Patagonia, West Siberia, Slovakia, and South Africa) using the novel eigenvector ellipsoid method. This method allows us to infer structural community patterns by comparing species’ environmental requirements with the pattern of their co-occurrences. We asked whether: (a) communities are characterized by species segregation, nestedness, or modularity; (b) patterns detected by the novel method conform to the patterns identified by traditional methods that search for non-randomness in community structure; and (c) the pattern of flea species co-occurrences in component communities is associated with host species traits. The results of the application of the eigenvector ellipsoid method suggested that the co-occurrence of flea species was random in all compound communities except in South Africa, where this community demonstrated a tendency to be nested. Flea species co-occurrences were random in many component communities. Species segregation was detected in the flea community of one host, whereas the flea communities of 14 hosts from different regions appeared to be nested. No indication of a modular structure in any community was found. The nestedness of flea component communities was mainly characteristic of hosts with a low relative brain mass. We concluded that the application of this novel method that combines data on species distribution and their environmental requirements allows better identification of the community structural patterns and produces more reliable results as compared with traditional methods.

KW - co-occurrence

KW - eigenvector ellipsoid

KW - fleas

KW - nestedness

KW - small mammals

UR - https://www.mendeley.com/catalogue/c228e1e7-5700-3678-a6fd-0b649038b8f1/

U2 - 10.1111/1749-4877.12856

DO - 10.1111/1749-4877.12856

M3 - Article

JO - Integrative Zoology

JF - Integrative Zoology

SN - 1749-4877

ER -

ID: 120846438