The utility of environmental DNA from sediment and water samples for recovery of observed plant and animal species from four Mojave Desert springs

The utility of environmental DNA from sediment and water samples for recovery of observed plant and animal species from four Mojave Desert springs

Abstract Mojave Desert springs are fragile ecosystems, hosting endemic plants and animals, which are threatened by the increasing human demand for water and climate change. To develop management practices that will protect the groundwater‐dependent ecosystems at Mojave Desert springs, real‐time, low...

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Main Authors: Maura Palacios Mejia, Emily Curd, Kiumars Edalati, Mark A. Renshaw, Roy Dunn, Daniel Potter, Naomi Fraga, Jenna Moore, Justin Saiz, Robert Wayne, Sophie S. Parker
Format: Article
Language:English
Published: Wiley 2021-01-01
Series:Environmental DNA
Subjects:
biological monitoring
conservation of water resources
ecological communities
endangered species
environmental DNA
invasive species
Online Access:https://doi.org/10.1002/edn3.161
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spelling doaj-2008ef5f7cba41a88399d1c76b04e6912021-02-04T08:40:33ZengWileyEnvironmental DNA2637-49432021-01-013121423010.1002/edn3.161The utility of environmental DNA from sediment and water samples for recovery of observed plant and animal species from four Mojave Desert springsMaura Palacios Mejia0Emily Curd1Kiumars Edalati2Mark A. Renshaw3Roy Dunn4Daniel Potter5Naomi Fraga6Jenna Moore7Justin Saiz8Robert Wayne9Sophie S. Parker10Ecology & Evolutionary Biology University of California, Los Angeles Los Angeles CA USAEcology & Evolutionary Biology University of California, Los Angeles Los Angeles CA USAEcology & Evolutionary Biology University of California, Los Angeles Los Angeles CA USAU.S. Geological Survey ‐ Wetland and Aquatic Research Center Gainesville FL USATransition Habitat Conservancy Pinon Hills CA USATransition Habitat Conservancy Pinon Hills CA USACalifornia Botanic Garden Claremont CA USABureau of Land Management ‐ California Desert District ‐ Needles Field Office Needles CA USABureau of Land Management ‐ California Desert District ‐ Needles Field Office Needles CA USAEcology & Evolutionary Biology University of California, Los Angeles Los Angeles CA USAThe Nature Conservancy Los Angeles CA USAAbstract Mojave Desert springs are fragile ecosystems, hosting endemic plants and animals, which are threatened by the increasing human demand for water and climate change. To develop management practices that will protect the groundwater‐dependent ecosystems at Mojave Desert springs, real‐time, low‐cost biodiversity monitoring, and assessments are required. Environmental DNA (eDNA) metabarcoding uses DNA shed from organisms (e.g., skin cells, feces, and pollen) that are present in water, air, soil, or sediment samples to assess community composition. This approach can increase the detection sensitivity for rare and elusive species, compared with expensive and time‐consuming conventional methods, which also require taxonomic expertise. This study tests the effectiveness of eDNA techniques in capturing the observed Mojave Desert spring biodiversity in the winter and spring of 2019 at four distinct, naturally occurring springs. We also test the utility of sample types (water vs. sediment) for capturing biodiversity. We found that each of the four Mojave Desert springs supports a unique biological community. Sediment samples contained the greatest biodiversity, but all sample types captured species observed in the field by humans or camera traps. We also found no statistical difference in species richness captured in winter and spring except for the Cytochrome Oxidase I marker, for which winter had greater biodiversity. This study supports the use of eDNA metabarcoding as an effective tool to mirror observation by human observers of ecological communities in desert springs. The study demonstrates the importance of appropriately timing eDNA field sampling, primer selection, and using field‐based surveys of wildlife and plants in addition to eDNA detection. This study also identified gaps in reference sequence databases for Mojave biodiversity and encourages collaboration of eDNA researchers with managers for effective conservation management plans.https://doi.org/10.1002/edn3.161biological monitoringconservation of water resourcesecological communitiesendangered speciesenvironmental DNAinvasive species
collection DOAJ
language English
format Article
sources DOAJ
author Maura Palacios Mejia
Emily Curd
Kiumars Edalati
Mark A. Renshaw
Roy Dunn
Daniel Potter
Naomi Fraga
Jenna Moore
Justin Saiz
Robert Wayne
Sophie S. Parker
spellingShingle Maura Palacios Mejia
Emily Curd
Kiumars Edalati
Mark A. Renshaw
Roy Dunn
Daniel Potter
Naomi Fraga
Jenna Moore
Justin Saiz
Robert Wayne
Sophie S. Parker
The utility of environmental DNA from sediment and water samples for recovery of observed plant and animal species from four Mojave Desert springs
Environmental DNA
biological monitoring
conservation of water resources
ecological communities
endangered species
environmental DNA
invasive species
author_facet Maura Palacios Mejia
Emily Curd
Kiumars Edalati
Mark A. Renshaw
Roy Dunn
Daniel Potter
Naomi Fraga
Jenna Moore
Justin Saiz
Robert Wayne
Sophie S. Parker
author_sort Maura Palacios Mejia
title The utility of environmental DNA from sediment and water samples for recovery of observed plant and animal species from four Mojave Desert springs
title_short The utility of environmental DNA from sediment and water samples for recovery of observed plant and animal species from four Mojave Desert springs
title_full The utility of environmental DNA from sediment and water samples for recovery of observed plant and animal species from four Mojave Desert springs
title_fullStr The utility of environmental DNA from sediment and water samples for recovery of observed plant and animal species from four Mojave Desert springs
title_full_unstemmed The utility of environmental DNA from sediment and water samples for recovery of observed plant and animal species from four Mojave Desert springs
title_sort utility of environmental dna from sediment and water samples for recovery of observed plant and animal species from four mojave desert springs
publisher Wiley
series Environmental DNA
issn 2637-4943
publishDate 2021-01-01
description Abstract Mojave Desert springs are fragile ecosystems, hosting endemic plants and animals, which are threatened by the increasing human demand for water and climate change. To develop management practices that will protect the groundwater‐dependent ecosystems at Mojave Desert springs, real‐time, low‐cost biodiversity monitoring, and assessments are required. Environmental DNA (eDNA) metabarcoding uses DNA shed from organisms (e.g., skin cells, feces, and pollen) that are present in water, air, soil, or sediment samples to assess community composition. This approach can increase the detection sensitivity for rare and elusive species, compared with expensive and time‐consuming conventional methods, which also require taxonomic expertise. This study tests the effectiveness of eDNA techniques in capturing the observed Mojave Desert spring biodiversity in the winter and spring of 2019 at four distinct, naturally occurring springs. We also test the utility of sample types (water vs. sediment) for capturing biodiversity. We found that each of the four Mojave Desert springs supports a unique biological community. Sediment samples contained the greatest biodiversity, but all sample types captured species observed in the field by humans or camera traps. We also found no statistical difference in species richness captured in winter and spring except for the Cytochrome Oxidase I marker, for which winter had greater biodiversity. This study supports the use of eDNA metabarcoding as an effective tool to mirror observation by human observers of ecological communities in desert springs. The study demonstrates the importance of appropriately timing eDNA field sampling, primer selection, and using field‐based surveys of wildlife and plants in addition to eDNA detection. This study also identified gaps in reference sequence databases for Mojave biodiversity and encourages collaboration of eDNA researchers with managers for effective conservation management plans.
topic biological monitoring
conservation of water resources
ecological communities
endangered species
environmental DNA
invasive species
url https://doi.org/10.1002/edn3.161
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