The CALeDNA program: Citizen scientists and researchers inventory California's biodiversity

Research output: Contribution to journalJournal articleResearchpeer-review

Standard

The CALeDNA program : Citizen scientists and researchers inventory California's biodiversity. / Meyer, Rachel S.; Ramos, Miroslava Munguia; Lin, Meixi; Schweizer, Teia M.; Gold, Zachary; Ramos, Dannise Ruiz; Shirazi, Sabrina; Kandlikar, Gaurav; Kwan, Wai Yin; Curd, Emily E.; Freise, Amanda; Parker, Jordan Moberg; Sexton, Jason P.; Wetzer, Regina; Pentcheff, N. Dean; Wall, Adam R.; Pipes, Lenore; Garcia- Vedrenne, Ana; Mejia, Maura Palacios; Moore, Tiara; Orland, Chloe; Ballare, Kimberly M.; Worth, Anna; Beraut, Eric; Aronson, Emma L.; Nielsen, Rasmus; Lewin, Harris A.; Barber, Paul H.; Wall, Jeff; Kraft, Nathan; Shapiro, Beth; Wayne, Robert K.

In: California Agriculture, Vol. 75, No. 1, 2021, p. 20-32.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Meyer, RS, Ramos, MM, Lin, M, Schweizer, TM, Gold, Z, Ramos, DR, Shirazi, S, Kandlikar, G, Kwan, WY, Curd, EE, Freise, A, Parker, JM, Sexton, JP, Wetzer, R, Pentcheff, ND, Wall, AR, Pipes, L, Garcia- Vedrenne, A, Mejia, MP, Moore, T, Orland, C, Ballare, KM, Worth, A, Beraut, E, Aronson, EL, Nielsen, R, Lewin, HA, Barber, PH, Wall, J, Kraft, N, Shapiro, B & Wayne, RK 2021, 'The CALeDNA program: Citizen scientists and researchers inventory California's biodiversity', California Agriculture, vol. 75, no. 1, pp. 20-32. https://doi.org/10.3733/ca.2021a0001

APA

Meyer, R. S., Ramos, M. M., Lin, M., Schweizer, T. M., Gold, Z., Ramos, D. R., Shirazi, S., Kandlikar, G., Kwan, W. Y., Curd, E. E., Freise, A., Parker, J. M., Sexton, J. P., Wetzer, R., Pentcheff, N. D., Wall, A. R., Pipes, L., Garcia- Vedrenne, A., Mejia, M. P., ... Wayne, R. K. (2021). The CALeDNA program: Citizen scientists and researchers inventory California's biodiversity. California Agriculture, 75(1), 20-32. https://doi.org/10.3733/ca.2021a0001

Vancouver

Meyer RS, Ramos MM, Lin M, Schweizer TM, Gold Z, Ramos DR et al. The CALeDNA program: Citizen scientists and researchers inventory California's biodiversity. California Agriculture. 2021;75(1):20-32. https://doi.org/10.3733/ca.2021a0001

Author

Meyer, Rachel S. ; Ramos, Miroslava Munguia ; Lin, Meixi ; Schweizer, Teia M. ; Gold, Zachary ; Ramos, Dannise Ruiz ; Shirazi, Sabrina ; Kandlikar, Gaurav ; Kwan, Wai Yin ; Curd, Emily E. ; Freise, Amanda ; Parker, Jordan Moberg ; Sexton, Jason P. ; Wetzer, Regina ; Pentcheff, N. Dean ; Wall, Adam R. ; Pipes, Lenore ; Garcia- Vedrenne, Ana ; Mejia, Maura Palacios ; Moore, Tiara ; Orland, Chloe ; Ballare, Kimberly M. ; Worth, Anna ; Beraut, Eric ; Aronson, Emma L. ; Nielsen, Rasmus ; Lewin, Harris A. ; Barber, Paul H. ; Wall, Jeff ; Kraft, Nathan ; Shapiro, Beth ; Wayne, Robert K. / The CALeDNA program : Citizen scientists and researchers inventory California's biodiversity. In: California Agriculture. 2021 ; Vol. 75, No. 1. pp. 20-32.

Bibtex

@article{d94b62588b1445ebb0a0dc21df523c60,
title = "The CALeDNA program: Citizen scientists and researchers inventory California's biodiversity",
abstract = "Climate change is leading to habitat shifts that threaten species persistence throughout California's unique ecosystems. Baseline biodiversity data would provide opportunities for habitats to be managed under short-term and long-term environmental change. Aiming to provide biodiversity data, the UC Conservation Genomics Consortium launched the California Environmental DNA (CALeDNA) program to be a citizen and community science biomonitoring initiative that uses environmental DNA (eDNA, DNA shed from organisms such as from fur, feces, spores, pollen or leaves). Now with results from 1,000 samples shared online, California biodiversity patterns are discoverable. Soil, sediment and water collected by researchers, undergraduates and the public reveal a new catalog of thousands of organisms that only slightly overlap with traditional survey bioinventories. The CALeDNA website lets users explore the taxonomic diversity in different ways, and researchers have created tools to help people new to eDNA to analyze community ecology patterns. Although eDNA results are not always precise, the program team is making progress to fit it into California's biodiversity management toolbox, such as for monitoring ecosystem recovery after invasive species removal or wildfire.",
author = "Meyer, {Rachel S.} and Ramos, {Miroslava Munguia} and Meixi Lin and Schweizer, {Teia M.} and Zachary Gold and Ramos, {Dannise Ruiz} and Sabrina Shirazi and Gaurav Kandlikar and Kwan, {Wai Yin} and Curd, {Emily E.} and Amanda Freise and Parker, {Jordan Moberg} and Sexton, {Jason P.} and Regina Wetzer and Pentcheff, {N. Dean} and Wall, {Adam R.} and Lenore Pipes and {Garcia- Vedrenne}, Ana and Mejia, {Maura Palacios} and Tiara Moore and Chloe Orland and Ballare, {Kimberly M.} and Anna Worth and Eric Beraut and Aronson, {Emma L.} and Rasmus Nielsen and Lewin, {Harris A.} and Barber, {Paul H.} and Jeff Wall and Nathan Kraft and Beth Shapiro and Wayne, {Robert K.}",
note = "Publisher Copyright: {\textcopyright} 2021 University of California, Oakland. All rights reserved.",
year = "2021",
doi = "10.3733/ca.2021a0001",
language = "English",
volume = "75",
pages = "20--32",
journal = "California Agriculture",
issn = "0008-0845",
publisher = "California Agricultural Experiment Station",
number = "1",

}

RIS

TY - JOUR

T1 - The CALeDNA program

T2 - Citizen scientists and researchers inventory California's biodiversity

AU - Meyer, Rachel S.

AU - Ramos, Miroslava Munguia

AU - Lin, Meixi

AU - Schweizer, Teia M.

AU - Gold, Zachary

AU - Ramos, Dannise Ruiz

AU - Shirazi, Sabrina

AU - Kandlikar, Gaurav

AU - Kwan, Wai Yin

AU - Curd, Emily E.

AU - Freise, Amanda

AU - Parker, Jordan Moberg

AU - Sexton, Jason P.

AU - Wetzer, Regina

AU - Pentcheff, N. Dean

AU - Wall, Adam R.

AU - Pipes, Lenore

AU - Garcia- Vedrenne, Ana

AU - Mejia, Maura Palacios

AU - Moore, Tiara

AU - Orland, Chloe

AU - Ballare, Kimberly M.

AU - Worth, Anna

AU - Beraut, Eric

AU - Aronson, Emma L.

AU - Nielsen, Rasmus

AU - Lewin, Harris A.

AU - Barber, Paul H.

AU - Wall, Jeff

AU - Kraft, Nathan

AU - Shapiro, Beth

AU - Wayne, Robert K.

N1 - Publisher Copyright: © 2021 University of California, Oakland. All rights reserved.

PY - 2021

Y1 - 2021

N2 - Climate change is leading to habitat shifts that threaten species persistence throughout California's unique ecosystems. Baseline biodiversity data would provide opportunities for habitats to be managed under short-term and long-term environmental change. Aiming to provide biodiversity data, the UC Conservation Genomics Consortium launched the California Environmental DNA (CALeDNA) program to be a citizen and community science biomonitoring initiative that uses environmental DNA (eDNA, DNA shed from organisms such as from fur, feces, spores, pollen or leaves). Now with results from 1,000 samples shared online, California biodiversity patterns are discoverable. Soil, sediment and water collected by researchers, undergraduates and the public reveal a new catalog of thousands of organisms that only slightly overlap with traditional survey bioinventories. The CALeDNA website lets users explore the taxonomic diversity in different ways, and researchers have created tools to help people new to eDNA to analyze community ecology patterns. Although eDNA results are not always precise, the program team is making progress to fit it into California's biodiversity management toolbox, such as for monitoring ecosystem recovery after invasive species removal or wildfire.

AB - Climate change is leading to habitat shifts that threaten species persistence throughout California's unique ecosystems. Baseline biodiversity data would provide opportunities for habitats to be managed under short-term and long-term environmental change. Aiming to provide biodiversity data, the UC Conservation Genomics Consortium launched the California Environmental DNA (CALeDNA) program to be a citizen and community science biomonitoring initiative that uses environmental DNA (eDNA, DNA shed from organisms such as from fur, feces, spores, pollen or leaves). Now with results from 1,000 samples shared online, California biodiversity patterns are discoverable. Soil, sediment and water collected by researchers, undergraduates and the public reveal a new catalog of thousands of organisms that only slightly overlap with traditional survey bioinventories. The CALeDNA website lets users explore the taxonomic diversity in different ways, and researchers have created tools to help people new to eDNA to analyze community ecology patterns. Although eDNA results are not always precise, the program team is making progress to fit it into California's biodiversity management toolbox, such as for monitoring ecosystem recovery after invasive species removal or wildfire.

U2 - 10.3733/ca.2021a0001

DO - 10.3733/ca.2021a0001

M3 - Journal article

AN - SCOPUS:85103488668

VL - 75

SP - 20

EP - 32

JO - California Agriculture

JF - California Agriculture

SN - 0008-0845

IS - 1

ER -

ID: 336746761