Reproductive versatility of kelps in changing oceans

Melinda Coleman; Reina Veenhof

doi:10.1111/jpy.13171

Reproductive versatility of kelps in changing oceans

Melinda Coleman, Reina Veenhof

SAMS UHI

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4 Citations (Scopus)

Abstract

Kelp forests underpin enormous ecological, eco-nomic, and cultural values on temperate reefs glob-ally, yet are declining in many places (Krumhanslet al. 2016). Among the most prevalent cause ofdecline is climate-induced thermal stress, which isresulting in loss and range contractions for manykelp species (e.g., Verges et al. 2016, Wernberget al. 2016, Arafeh-Dalmau et al. 2019). While wehave an emerging understanding of how theseevents impact the macroscopic sporophyte stage,knowledge of how gametophytes perform underheat stress and how this varies across their range isscant (Harley et al. 2012, Muth et al. 2019) despitethis stage being critical to kelp persistence. One ofthe primary drivers of performance of natural popu-lations under stress is genetic diversity (Wernberget al. 2018), which is partly mediated by reproduc-tive traits such as inbreeding. Inbreeding can resultin reduced genetic diversity, adaptive capacity, andﬁtness. As such, many organisms have evolved mech-anisms to avoid mating with related individuals.

Original language	English
Pages (from-to)	708-710
Number of pages	2
Journal	Journal of Phycology
Volume	57
DOIs	https://doi.org/10.1111/jpy.13171
Publication status	Published - 18 May 2021

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title = "Reproductive versatility of kelps in changing oceans",

abstract = "Kelp forests underpin enormous ecological, eco-nomic, and cultural values on temperate reefs glob-ally, yet are declining in many places (Krumhanslet al. 2016). Among the most prevalent cause ofdecline is climate-induced thermal stress, which isresulting in loss and range contractions for manykelp species (e.g., Verges et al. 2016, Wernberget al. 2016, Arafeh-Dalmau et al. 2019). While wehave an emerging understanding of how theseevents impact the macroscopic sporophyte stage,knowledge of how gametophytes perform underheat stress and how this varies across their range isscant (Harley et al. 2012, Muth et al. 2019) despitethis stage being critical to kelp persistence. One ofthe primary drivers of performance of natural popu-lations under stress is genetic diversity (Wernberget al. 2018), which is partly mediated by reproduc-tive traits such as inbreeding. Inbreeding can resultin reduced genetic diversity, adaptive capacity, andﬁtness. As such, many organisms have evolved mech-anisms to avoid mating with related individuals.",

author = "Melinda Coleman and Reina Veenhof",

note = "{\textcopyright} 2021 Phycological Society of America",

year = "2021",

month = may,

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doi = "10.1111/jpy.13171",

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journal = "Journal of Phycology",

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publisher = "Wiley-Blackwell Publishing Ltd",

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TY - JOUR

T1 - Reproductive versatility of kelps in changing oceans

AU - Coleman, Melinda

AU - Veenhof, Reina

PY - 2021/5/18

Y1 - 2021/5/18

N2 - Kelp forests underpin enormous ecological, eco-nomic, and cultural values on temperate reefs glob-ally, yet are declining in many places (Krumhanslet al. 2016). Among the most prevalent cause ofdecline is climate-induced thermal stress, which isresulting in loss and range contractions for manykelp species (e.g., Verges et al. 2016, Wernberget al. 2016, Arafeh-Dalmau et al. 2019). While wehave an emerging understanding of how theseevents impact the macroscopic sporophyte stage,knowledge of how gametophytes perform underheat stress and how this varies across their range isscant (Harley et al. 2012, Muth et al. 2019) despitethis stage being critical to kelp persistence. One ofthe primary drivers of performance of natural popu-lations under stress is genetic diversity (Wernberget al. 2018), which is partly mediated by reproduc-tive traits such as inbreeding. Inbreeding can resultin reduced genetic diversity, adaptive capacity, andﬁtness. As such, many organisms have evolved mech-anisms to avoid mating with related individuals.

AB - Kelp forests underpin enormous ecological, eco-nomic, and cultural values on temperate reefs glob-ally, yet are declining in many places (Krumhanslet al. 2016). Among the most prevalent cause ofdecline is climate-induced thermal stress, which isresulting in loss and range contractions for manykelp species (e.g., Verges et al. 2016, Wernberget al. 2016, Arafeh-Dalmau et al. 2019). While wehave an emerging understanding of how theseevents impact the macroscopic sporophyte stage,knowledge of how gametophytes perform underheat stress and how this varies across their range isscant (Harley et al. 2012, Muth et al. 2019) despitethis stage being critical to kelp persistence. One ofthe primary drivers of performance of natural popu-lations under stress is genetic diversity (Wernberget al. 2018), which is partly mediated by reproduc-tive traits such as inbreeding. Inbreeding can resultin reduced genetic diversity, adaptive capacity, andﬁtness. As such, many organisms have evolved mech-anisms to avoid mating with related individuals.

U2 - 10.1111/jpy.13171

DO - 10.1111/jpy.13171

M3 - Article

SN - 0022-3646

VL - 57

SP - 708

EP - 710

JO - Journal of Phycology

JF - Journal of Phycology

ER -

Reproductive versatility of kelps in changing oceans

Abstract

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