Herbarium records demonstrate changes in flowering phenology associated with climate change over the past century within the Cape Floristic Region, South Africa

Herbarium records demonstrate changes in flowering phenology associated with climate change over the past century within the Cape Floristic Region, South Africa

Climate change is affecting species composition and diversity across the globe. Phenological changes provide a sensitive indicator of biological responses to changes in climate. Recent studies using herbarium records in Europe and North America have shown changes in flowering time and other phenolog...

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Bibliographic Details
Main Authors: Tanisha M. Williams, Carl D. Schlichting, Kent E. Holsinger
Format: Article
Language:English
Published: Elsevier 2021-07-01
Series:Climate Change Ecology
Subjects:
Climate change
South Africa
Pelargonium
Biodiversity hotspot
Cape Floristic Region (CFR)
Mediterranean
Online Access:http://www.sciencedirect.com/science/article/pii/S266690052100006X
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spelling doaj-64a8c3caa4424bda8c46415086845e7a2021-10-05T04:21:51ZengElsevierClimate Change Ecology2666-90052021-07-011100006Herbarium records demonstrate changes in flowering phenology associated with climate change over the past century within the Cape Floristic Region, South AfricaTanisha M. Williams0Carl D. Schlichting1Kent E. Holsinger2Corresponding author.; Department of Ecology and Evolutionary Biology, University of Connecticut, Storrs, Connecticut 06269, USADepartment of Ecology and Evolutionary Biology, University of Connecticut, Storrs, Connecticut 06269, USADepartment of Ecology and Evolutionary Biology, University of Connecticut, Storrs, Connecticut 06269, USAClimate change is affecting species composition and diversity across the globe. Phenological changes provide a sensitive indicator of biological responses to changes in climate. Recent studies using herbarium records in Europe and North America have shown changes in flowering time and other phenological events in response to changing climate conditions, such as warming temperatures and chilling winters, but few studies have been carried out in the southern hemisphere. We examined changes in flowering time from 1901–2009 in South Africa in the widespread, diverse genus Pelargonium. We combined records from more than 6,200 herbarium specimens of 129 species with historical weather data on temperature to examine the impact of climate change on flowering phenology. Data from over 464 weather stations in South Africa was used to estimate historical climate conditions for each of the 4,600 geographic sites included in our sample. During this time period there was a 2.9 ± 0.53 °C increase in mean annual temperature across South Africa. Flowering date advanced by nearly two weeks (11.6 days), with nearly all of the advance associated with the increase in temperature during this time. Thus, Pelargonium species are showing similar phenological responses when compared to species in the northern hemisphere. This study adds more evidence to the limited number of studies of climate change responses within Mediterranean climate regions that assess large-scale climate and phenological patterns. It also illustrates that herbarium records provide an effective method for detecting effects of climate change on flowering phenology across large geographic scales.http://www.sciencedirect.com/science/article/pii/S266690052100006XClimate changeSouth AfricaPelargoniumBiodiversity hotspotCape Floristic Region (CFR)Mediterranean
collection DOAJ
language English
format Article
sources DOAJ
author Tanisha M. Williams
Carl D. Schlichting
Kent E. Holsinger
spellingShingle Tanisha M. Williams
Carl D. Schlichting
Kent E. Holsinger
Herbarium records demonstrate changes in flowering phenology associated with climate change over the past century within the Cape Floristic Region, South Africa
Climate Change Ecology
Climate change
South Africa
Pelargonium
Biodiversity hotspot
Cape Floristic Region (CFR)
Mediterranean
author_facet Tanisha M. Williams
Carl D. Schlichting
Kent E. Holsinger
author_sort Tanisha M. Williams
title Herbarium records demonstrate changes in flowering phenology associated with climate change over the past century within the Cape Floristic Region, South Africa
title_short Herbarium records demonstrate changes in flowering phenology associated with climate change over the past century within the Cape Floristic Region, South Africa
title_full Herbarium records demonstrate changes in flowering phenology associated with climate change over the past century within the Cape Floristic Region, South Africa
title_fullStr Herbarium records demonstrate changes in flowering phenology associated with climate change over the past century within the Cape Floristic Region, South Africa
title_full_unstemmed Herbarium records demonstrate changes in flowering phenology associated with climate change over the past century within the Cape Floristic Region, South Africa
title_sort herbarium records demonstrate changes in flowering phenology associated with climate change over the past century within the cape floristic region, south africa
publisher Elsevier
series Climate Change Ecology
issn 2666-9005
publishDate 2021-07-01
description Climate change is affecting species composition and diversity across the globe. Phenological changes provide a sensitive indicator of biological responses to changes in climate. Recent studies using herbarium records in Europe and North America have shown changes in flowering time and other phenological events in response to changing climate conditions, such as warming temperatures and chilling winters, but few studies have been carried out in the southern hemisphere. We examined changes in flowering time from 1901–2009 in South Africa in the widespread, diverse genus Pelargonium. We combined records from more than 6,200 herbarium specimens of 129 species with historical weather data on temperature to examine the impact of climate change on flowering phenology. Data from over 464 weather stations in South Africa was used to estimate historical climate conditions for each of the 4,600 geographic sites included in our sample. During this time period there was a 2.9 ± 0.53 °C increase in mean annual temperature across South Africa. Flowering date advanced by nearly two weeks (11.6 days), with nearly all of the advance associated with the increase in temperature during this time. Thus, Pelargonium species are showing similar phenological responses when compared to species in the northern hemisphere. This study adds more evidence to the limited number of studies of climate change responses within Mediterranean climate regions that assess large-scale climate and phenological patterns. It also illustrates that herbarium records provide an effective method for detecting effects of climate change on flowering phenology across large geographic scales.
topic Climate change
South Africa
Pelargonium
Biodiversity hotspot
Cape Floristic Region (CFR)
Mediterranean
url http://www.sciencedirect.com/science/article/pii/S266690052100006X
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AT carldschlichting herbariumrecordsdemonstratechangesinfloweringphenologyassociatedwithclimatechangeoverthepastcenturywithinthecapefloristicregionsouthafrica
AT kenteholsinger herbariumrecordsdemonstratechangesinfloweringphenologyassociatedwithclimatechangeoverthepastcenturywithinthecapefloristicregionsouthafrica
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