Urbanization decreases species richness, and increases abundance in dry climates whereas decreases in wet climates: A global meta-analysis

Soil invertebrates have an essential role in decomposition, nutrient turnover and soil structure formation, all of which are strongly threatened by urbanization. Sealing, compaction by trampling and pollution destroy and degrade city soils and potentially damage soil-living invertebrates. The existi...

Full description

Bibliographic Details
Published in:Science of The Total Environment
Main Authors: Szabó, Borbála, Korányi, Dávid, Gallé, Róbert, Lövei, Gábor L., Bakonyi, Gábor, Batáry, Péter
Format: Other/Unknown Material
Language:English
Published: Zenodo 2022
Subjects:
meta-analysis
urbanization
urban
suburban
rural
Acari
mite
Annelida
earhtworm
Collembola
springtail
Myriapoda
milliped
centiped
Isopoda
nematod
Gastropod
snail
Carabid
ground beetle
temperature
precipitaion
heat island effect
Mite
Springtail
Online Access:https://doi.org/10.1016/j.scitotenv.2022.160145
id ftzenodo:oai:zenodo.org:7322747
record_format openpolar
spelling ftzenodo:oai:zenodo.org:7322747 2024-09-15T18:41:50+00:00 Urbanization decreases species richness, and increases abundance in dry climates whereas decreases in wet climates: A global meta-analysis Szabó, Borbála Korányi, Dávid Gallé, Róbert Lövei, Gábor L. Bakonyi, Gábor Batáry, Péter 2022-11-15 https://doi.org/10.1016/j.scitotenv.2022.160145 eng eng Zenodo https://doi.org/10.1016/j.scitotenv.2022.160145 oai:zenodo.org:7322747 info:eu-repo/semantics/openAccess Creative Commons Attribution 4.0 International https://creativecommons.org/licenses/by/4.0/legalcode Science of the Total Environment, 160145, (2022-11-15) meta-analysis urbanization urban suburban rural Acari mite Annelida earhtworm Collembola springtail Myriapoda milliped centiped Isopoda nematod Gastropod snail Carabid ground beetle temperature precipitaion heat island effect info:eu-repo/semantics/other 2022 ftzenodo https://doi.org/10.1016/j.scitotenv.2022.160145 2024-07-25T12:28:22Z Soil invertebrates have an essential role in decomposition, nutrient turnover and soil structure formation, all of which are strongly threatened by urbanization. Sealing, compaction by trampling and pollution destroy and degrade city soils and potentially damage soil-living invertebrates. The existing literature on how urbanization affects soil invertebrates is inconsistent, presenting both negative and positive effects. Therefore, here we aimed to synthesize the effects of urbanization on soil invertebrates considering their taxonomic (Acari, Annelida, Carabidae, Collembola, Gastropoda, Isopoda, Myriapoda, Nematoda) and functional (soil living vs. soil-related; mobility) identities, as well as to examine how the overall effect is modulated by climatic conditions (total annual precipitation, annual mean ambient temperature), urban heat island effect (based on ambient temperature differences between urban and rural areas) and city population. In a systematic review using hierarchical and categorical meta-analyses, we extracted 158 effect sizes from 75 studies on abundance and 125 effect sizes from 84 studies on species richness. Invertebrate abundance showed an increase, whereas species richness significantly decreased with increasing urbanization. The reason behind this could be that a few generalist species can adapt well to the urban environment and achieve strongly elevated densities. The species richness of annelids, springtails, and snailsdecreased with advancing urbanization, most probably because these animals are sensitive to soil compaction and pollution, both of which are common consequences of urbanization. The temperature did not modify the effects of urbanization, but precipitation modified the effects on abundance. Abundance increased with advancing urbanization in drier climates, probably because irrigation increased soil moisture, whereas it decreased in wet climates, as urban areas were drier than their surroundings. Making future cities more climate-neutral could better sustain soil ... Other/Unknown Material Mite Springtail Zenodo Science of The Total Environment 859 160145
institution Open Polar
collection Zenodo
op_collection_id ftzenodo
language English
topic meta-analysis
urbanization
urban
suburban
rural
Acari
mite
Annelida
earhtworm
Collembola
springtail
Myriapoda
milliped
centiped
Isopoda
nematod
Gastropod
snail
Carabid
ground beetle
temperature
precipitaion
heat island effect
spellingShingle meta-analysis
urbanization
urban
suburban
rural
Acari
mite
Annelida
earhtworm
Collembola
springtail
Myriapoda
milliped
centiped
Isopoda
nematod
Gastropod
snail
Carabid
ground beetle
temperature
precipitaion
heat island effect
Szabó, Borbála
Korányi, Dávid
Gallé, Róbert
Lövei, Gábor L.
Bakonyi, Gábor
Batáry, Péter
Urbanization decreases species richness, and increases abundance in dry climates whereas decreases in wet climates: A global meta-analysis
topic_facet meta-analysis
urbanization
urban
suburban
rural
Acari
mite
Annelida
earhtworm
Collembola
springtail
Myriapoda
milliped
centiped
Isopoda
nematod
Gastropod
snail
Carabid
ground beetle
temperature
precipitaion
heat island effect
description Soil invertebrates have an essential role in decomposition, nutrient turnover and soil structure formation, all of which are strongly threatened by urbanization. Sealing, compaction by trampling and pollution destroy and degrade city soils and potentially damage soil-living invertebrates. The existing literature on how urbanization affects soil invertebrates is inconsistent, presenting both negative and positive effects. Therefore, here we aimed to synthesize the effects of urbanization on soil invertebrates considering their taxonomic (Acari, Annelida, Carabidae, Collembola, Gastropoda, Isopoda, Myriapoda, Nematoda) and functional (soil living vs. soil-related; mobility) identities, as well as to examine how the overall effect is modulated by climatic conditions (total annual precipitation, annual mean ambient temperature), urban heat island effect (based on ambient temperature differences between urban and rural areas) and city population. In a systematic review using hierarchical and categorical meta-analyses, we extracted 158 effect sizes from 75 studies on abundance and 125 effect sizes from 84 studies on species richness. Invertebrate abundance showed an increase, whereas species richness significantly decreased with increasing urbanization. The reason behind this could be that a few generalist species can adapt well to the urban environment and achieve strongly elevated densities. The species richness of annelids, springtails, and snailsdecreased with advancing urbanization, most probably because these animals are sensitive to soil compaction and pollution, both of which are common consequences of urbanization. The temperature did not modify the effects of urbanization, but precipitation modified the effects on abundance. Abundance increased with advancing urbanization in drier climates, probably because irrigation increased soil moisture, whereas it decreased in wet climates, as urban areas were drier than their surroundings. Making future cities more climate-neutral could better sustain soil ...
format Other/Unknown Material
author Szabó, Borbála
Korányi, Dávid
Gallé, Róbert
Lövei, Gábor L.
Bakonyi, Gábor
Batáry, Péter
author_facet Szabó, Borbála
Korányi, Dávid
Gallé, Róbert
Lövei, Gábor L.
Bakonyi, Gábor
Batáry, Péter
author_sort Szabó, Borbála
title Urbanization decreases species richness, and increases abundance in dry climates whereas decreases in wet climates: A global meta-analysis
title_short Urbanization decreases species richness, and increases abundance in dry climates whereas decreases in wet climates: A global meta-analysis
title_full Urbanization decreases species richness, and increases abundance in dry climates whereas decreases in wet climates: A global meta-analysis
title_fullStr Urbanization decreases species richness, and increases abundance in dry climates whereas decreases in wet climates: A global meta-analysis
title_full_unstemmed Urbanization decreases species richness, and increases abundance in dry climates whereas decreases in wet climates: A global meta-analysis
title_sort urbanization decreases species richness, and increases abundance in dry climates whereas decreases in wet climates: a global meta-analysis
publisher Zenodo
publishDate 2022
url https://doi.org/10.1016/j.scitotenv.2022.160145
genre Mite
Springtail
genre_facet Mite
Springtail
op_source Science of the Total Environment, 160145, (2022-11-15)
op_relation https://doi.org/10.1016/j.scitotenv.2022.160145
oai:zenodo.org:7322747
op_rights info:eu-repo/semantics/openAccess
Creative Commons Attribution 4.0 International
https://creativecommons.org/licenses/by/4.0/legalcode
op_doi https://doi.org/10.1016/j.scitotenv.2022.160145
container_title Science of The Total Environment
container_volume 859
container_start_page 160145
_version_ 1810486214012174336

Similar Items