High consistency of trophic niches in generalist arthropod species (Oribatida, Acari) across soil depth and forest type
Many traits including trophic niche parameters are attributed to species. However, generalist species may vary in trophic niches with environments, making species‐based knowledge hard to extrapolate beyond local food webs. Here we tested trophic consistency in oribatid mite species (Acari), one of t...
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| Published in | Ecology and evolution Vol. 12; no. 12; pp. e9572 - n/a |
|---|---|
| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
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England
John Wiley & Sons, Inc
01.12.2022
John Wiley and Sons Inc |
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| Abstract | Many traits including trophic niche parameters are attributed to species. However, generalist species may vary in trophic niches with environments, making species‐based knowledge hard to extrapolate beyond local food webs. Here we tested trophic consistency in oribatid mite species (Acari), one of the most abundant arthropods that occupy all trophic levels in soil food webs. We used stable isotope analysis to compare trophic niches of 40 Oribatida species that co‐occur in litter (OL) and soil (0–5 cm, mainly OF/H, AH) of five forest types (native European beech, non‐native Douglas fir, range‐expanding Norway spruce, two beech–conifer mixed forests). Although stable isotope signatures of bulk material differed between litter and soil, 13C and 15 N values of Oribatida species were remarkably stable irrespective of soil depth. Furthermore, Oribatida were more enriched in 13C in European beech than in coniferous forests, but forest type little affected 15 N values of Oribatida across a range of site conditions. We conclude that Oribatida species occupy virtually identical trophic niches (δ13C and δ15N values) irrespective of the soil depth they colonize and that forest management including non‐native tree species little affects trophic position (δ15N values) of oribatid mites. Our findings suggest that the trophic position can be used as a trait in community analysis of Oribatida across forest ecosystems. Our results further indicate that trophic niches of generalist species can be highly consistent irrespective of environment.
We studied variations in trophic niches with soil depth and forest types in 40 oribatid mite species using stable isotopes. Trophic positions were remarkable constant irrespective of soil depth and forest type. Therefore, trophic position may be used as quantitative trait in oribatid mite species across different environments. |
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| AbstractList | Many traits including trophic niche parameters are attributed to species. However, generalist species may vary in trophic niches with environments, making species‐based knowledge hard to extrapolate beyond local food webs. Here we tested trophic consistency in oribatid mite species (Acari), one of the most abundant arthropods that occupy all trophic levels in soil food webs. We used stable isotope analysis to compare trophic niches of 40 Oribatida species that co‐occur in litter (OL) and soil (0–5 cm, mainly OF/H, AH) of five forest types (native European beech, non‐native Douglas fir, range‐expanding Norway spruce, two beech–conifer mixed forests). Although stable isotope signatures of bulk material differed between litter and soil, 13C and 15 N values of Oribatida species were remarkably stable irrespective of soil depth. Furthermore, Oribatida were more enriched in 13C in European beech than in coniferous forests, but forest type little affected 15 N values of Oribatida across a range of site conditions. We conclude that Oribatida species occupy virtually identical trophic niches (δ13C and δ15N values) irrespective of the soil depth they colonize and that forest management including non‐native tree species little affects trophic position (δ15N values) of oribatid mites. Our findings suggest that the trophic position can be used as a trait in community analysis of Oribatida across forest ecosystems. Our results further indicate that trophic niches of generalist species can be highly consistent irrespective of environment.
We studied variations in trophic niches with soil depth and forest types in 40 oribatid mite species using stable isotopes. Trophic positions were remarkable constant irrespective of soil depth and forest type. Therefore, trophic position may be used as quantitative trait in oribatid mite species across different environments. Many traits including trophic niche parameters are attributed to species. However, generalist species may vary in trophic niches with environments, making species‐based knowledge hard to extrapolate beyond local food webs. Here we tested trophic consistency in oribatid mite species (Acari), one of the most abundant arthropods that occupy all trophic levels in soil food webs. We used stable isotope analysis to compare trophic niches of 40 Oribatida species that co‐occur in litter (O L ) and soil (0–5 cm, mainly O F/H , A H ) of five forest types (native European beech, non‐native Douglas fir, range‐expanding Norway spruce, two beech–conifer mixed forests). Although stable isotope signatures of bulk material differed between litter and soil, 13 C and 15 N values of Oribatida species were remarkably stable irrespective of soil depth. Furthermore, Oribatida were more enriched in 13 C in European beech than in coniferous forests, but forest type little affected 15 N values of Oribatida across a range of site conditions. We conclude that Oribatida species occupy virtually identical trophic niches (δ 13 C and δ 15 N values) irrespective of the soil depth they colonize and that forest management including non‐native tree species little affects trophic position (δ 15 N values) of oribatid mites. Our findings suggest that the trophic position can be used as a trait in community analysis of Oribatida across forest ecosystems. Our results further indicate that trophic niches of generalist species can be highly consistent irrespective of environment. We studied variations in trophic niches with soil depth and forest types in 40 oribatid mite species using stable isotopes. Trophic positions were remarkable constant irrespective of soil depth and forest type. Therefore, trophic position may be used as quantitative trait in oribatid mite species across different environments. Many traits including trophic niche parameters are attributed to species. However, generalist species may vary in trophic niches with environments, making species-based knowledge hard to extrapolate beyond local food webs. Here we tested trophic consistency in oribatid mite species (Acari), one of the most abundant arthropods that occupy all trophic levels in soil food webs. We used stable isotope analysis to compare trophic niches of 40 Oribatida species that co-occur in litter (OL) and soil (0-5 cm, mainly OF/H, AH) of five forest types (native European beech, non-native Douglas fir, range-expanding Norway spruce, two beech-conifer mixed forests). Although stable isotope signatures of bulk material differed between litter and soil, 13C and 15 N values of Oribatida species were remarkably stable irrespective of soil depth. Furthermore, Oribatida were more enriched in 13C in European beech than in coniferous forests, but forest type little affected 15 N values of Oribatida across a range of site conditions. We conclude that Oribatida species occupy virtually identical trophic niches (δ13C and δ15N values) irrespective of the soil depth they colonize and that forest management including non-native tree species little affects trophic position (δ15N values) of oribatid mites. Our findings suggest that the trophic position can be used as a trait in community analysis of Oribatida across forest ecosystems. Our results further indicate that trophic niches of generalist species can be highly consistent irrespective of environment.Many traits including trophic niche parameters are attributed to species. However, generalist species may vary in trophic niches with environments, making species-based knowledge hard to extrapolate beyond local food webs. Here we tested trophic consistency in oribatid mite species (Acari), one of the most abundant arthropods that occupy all trophic levels in soil food webs. We used stable isotope analysis to compare trophic niches of 40 Oribatida species that co-occur in litter (OL) and soil (0-5 cm, mainly OF/H, AH) of five forest types (native European beech, non-native Douglas fir, range-expanding Norway spruce, two beech-conifer mixed forests). Although stable isotope signatures of bulk material differed between litter and soil, 13C and 15 N values of Oribatida species were remarkably stable irrespective of soil depth. Furthermore, Oribatida were more enriched in 13C in European beech than in coniferous forests, but forest type little affected 15 N values of Oribatida across a range of site conditions. We conclude that Oribatida species occupy virtually identical trophic niches (δ13C and δ15N values) irrespective of the soil depth they colonize and that forest management including non-native tree species little affects trophic position (δ15N values) of oribatid mites. Our findings suggest that the trophic position can be used as a trait in community analysis of Oribatida across forest ecosystems. Our results further indicate that trophic niches of generalist species can be highly consistent irrespective of environment. Many traits including trophic niche parameters are attributed to species. However, generalist species may vary in trophic niches with environments, making species-based knowledge hard to extrapolate beyond local food webs. Here we tested trophic consistency in oribatid mite species (Acari), one of the most abundant arthropods that occupy all trophic levels in soil food webs. We used stable isotope analysis to compare trophic niches of 40 Oribatida species that co-occur in litter (OL) and soil (0–5 cm, mainly OF/H, AH) of five forest types (native European beech, non-native Douglas fir, range-expanding Norway spruce, two beech–conifer mixed forests). Although stable isotope signatures of bulk material differed between litter and soil, 13C and 15 N values of Oribatida species were remarkably stable irrespective of soil depth. Furthermore, Oribatida were more enriched in 13C in European beech than in coniferous forests, but forest type little affected 15 N values of Oribatida across a range of site conditions. We conclude that Oribatida species occupy virtually identical trophic niches (δ13C and δ15N values) irrespective of the soil depth they colonize and that forest management including non-native tree species little affects trophic position (δ15N values) of oribatid mites. Our findings suggest that the trophic position can be used as a trait in community analysis of Oribatida across forest ecosystems. Our results further indicate that trophic niches of generalist species can be highly consistent irrespective of environment. Many traits including trophic niche parameters are attributed to species. However, generalist species may vary in trophic niches with environments, making species-based knowledge hard to extrapolate beyond local food webs. Here we tested trophic consistency in oribatid mite species (Acari), one of the most abundant arthropods that occupy all trophic levels in soil food webs. We used stable isotope analysis to compare trophic niches of 40 Oribatida species that co-occur in litter (O ) and soil (0-5 cm, mainly O , A ) of five forest types (native European beech, non-native Douglas fir, range-expanding Norway spruce, two beech-conifer mixed forests). Although stable isotope signatures of bulk material differed between litter and soil, C and N values of Oribatida species were remarkably stable irrespective of soil depth. Furthermore, Oribatida were more enriched in C in European beech than in coniferous forests, but forest type little affected N values of Oribatida across a range of site conditions. We conclude that Oribatida species occupy virtually identical trophic niches (δ C and δ N values) irrespective of the soil depth they colonize and that forest management including non-native tree species little affects trophic position (δ N values) of oribatid mites. Our findings suggest that the trophic position can be used as a trait in community analysis of Oribatida across forest ecosystems. Our results further indicate that trophic niches of generalist species can be highly consistent irrespective of environment. Many traits including trophic niche parameters are attributed to species. However, generalist species may vary in trophic niches with environments, making species‐based knowledge hard to extrapolate beyond local food webs. Here we tested trophic consistency in oribatid mite species (Acari), one of the most abundant arthropods that occupy all trophic levels in soil food webs. We used stable isotope analysis to compare trophic niches of 40 Oribatida species that co‐occur in litter (O L ) and soil (0–5 cm, mainly O F/H , A H ) of five forest types (native European beech, non‐native Douglas fir, range‐expanding Norway spruce, two beech–conifer mixed forests). Although stable isotope signatures of bulk material differed between litter and soil, 13 C and 15 N values of Oribatida species were remarkably stable irrespective of soil depth. Furthermore, Oribatida were more enriched in 13 C in European beech than in coniferous forests, but forest type little affected 15 N values of Oribatida across a range of site conditions. We conclude that Oribatida species occupy virtually identical trophic niches (δ 13 C and δ 15 N values) irrespective of the soil depth they colonize and that forest management including non‐native tree species little affects trophic position (δ 15 N values) of oribatid mites. Our findings suggest that the trophic position can be used as a trait in community analysis of Oribatida across forest ecosystems. Our results further indicate that trophic niches of generalist species can be highly consistent irrespective of environment. |
| Author | Lu, Jing‐Zhong Maraun, Mark Cordes, Peter Hans Scheu, Stefan |
| AuthorAffiliation | 1 Johann‐Friedrich‐Blumenbach Institute of Zoology and Anthropology University of Göttingen Göttingen Germany 2 Center of Biodiversity and Sustainable Land Use University of Göttingen Göttingen Germany |
| AuthorAffiliation_xml | – name: 2 Center of Biodiversity and Sustainable Land Use University of Göttingen Göttingen Germany – name: 1 Johann‐Friedrich‐Blumenbach Institute of Zoology and Anthropology University of Göttingen Göttingen Germany |
| Author_xml | – sequence: 1 givenname: Jing‐Zhong orcidid: 0000-0002-4051-8993 surname: Lu fullname: Lu, Jing‐Zhong email: jlu@gwdg.de organization: University of Göttingen – sequence: 2 givenname: Peter Hans orcidid: 0000-0002-5486-3931 surname: Cordes fullname: Cordes, Peter Hans organization: University of Göttingen – sequence: 3 givenname: Mark orcidid: 0000-0002-2736-8548 surname: Maraun fullname: Maraun, Mark organization: University of Göttingen – sequence: 4 givenname: Stefan orcidid: 0000-0003-4350-9520 surname: Scheu fullname: Scheu, Stefan organization: University of Göttingen |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/36523514$$D View this record in MEDLINE/PubMed |
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| Snippet | Many traits including trophic niche parameters are attributed to species. However, generalist species may vary in trophic niches with environments, making... |
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| StartPage | e9572 |
| SubjectTerms | Acari Arthropods Beech Coniferous forests Consistency Douglas fir Fagus sylvatica Food chains Food webs Forest ecosystems Forest management Forests Functional Ecology functional trait Indigenous species Isotopes Litter Mites Mixed forests Niches Oribatida Picea abies Pine trees Plant species Pseudotsuga menziesii Soil depth soil fauna Soils species coexistence Stable isotopes Terrestrial ecosystems Trees Trophic levels trophic plasticity |
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| Title | High consistency of trophic niches in generalist arthropod species (Oribatida, Acari) across soil depth and forest type |
| URI | https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fece3.9572 https://www.ncbi.nlm.nih.gov/pubmed/36523514 https://www.proquest.com/docview/2758957161 https://www.proquest.com/docview/2755577566 https://pubmed.ncbi.nlm.nih.gov/PMC9745105 |
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