Assessing climate change and adaptive capacity at local scale using observed and remotely sensed data

Assessing climate change and adaptive capacity at local scale using observed and remotely sensed data

Climate variability and change impacts are manifesting through declining rainfall totals and increasing frequency and intensity of droughts, floods and heatwaves. These environmental changes are affecting mostly rural populations in developing countries due to low adaptive capacity and high reliance...

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Main Authors: S. Mpandeli, L. Nhamo, M. Moeletsi, T. Masupha, J. Magidi, K. Tshikolomo, S. Liphadzi, D. Naidoo, T. Mabhaudhi
Format: Article
Language:English
Published: Elsevier 2019-12-01
Series:Weather and Climate Extremes
Online Access:http://www.sciencedirect.com/science/article/pii/S2212094719301380
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spelling doaj-3677075a5ce44a47b0d4f1369a06ed9b2020-11-25T02:17:17ZengElsevierWeather and Climate Extremes2212-09472019-12-0126Assessing climate change and adaptive capacity at local scale using observed and remotely sensed dataS. Mpandeli0L. Nhamo1M. Moeletsi2T. Masupha3J. Magidi4K. Tshikolomo5S. Liphadzi6D. Naidoo7T. Mabhaudhi8Water Research Commission, 4 Daventry Street, Lynnwood Manor, Pretoria, 0081, South Africa; University of Venda, School of Environmental Sciences, Thohoyandou, South AfricaInternational Water Management Institute, 141 Cresswell St, Silverton, 0184, Pretoria, South Africa; University of KwaZulu-Natal, School of Agricultural, Earth and Environmental Sciences, Centre for Transformative Agricultural and Food Systems (CTAFS), Pietermaritzburg, 3209, South Africa; Corresponding author. International Water Management Institute, 141 Cresswell St, Silverton, 0184, Pretoria, South Africa.Agricultural Research Council, Institute for Soil, Climate and Water (ISCW), Pretoria, 0001, South Africa; University of Limpopo, Risk and Vulnerability Assessment Centre (RVAC), Limpopo, 0727, South AfricaAgricultural Research Council, Institute for Soil, Climate and Water (ISCW), Pretoria, 0001, South AfricaTshwane University of Technology, Geomatics Department, Pretoria, 0001, South AfricaLimpopo Department of Agriculture and Rural Development (LDARD), Polokwane, 0700, South AfricaWater Research Commission, 4 Daventry Street, Lynnwood Manor, Pretoria, 0081, South AfricaWater Research Commission, 4 Daventry Street, Lynnwood Manor, Pretoria, 0081, South AfricaUniversity of KwaZulu-Natal, School of Agricultural, Earth and Environmental Sciences, Centre for Transformative Agricultural and Food Systems (CTAFS), Pietermaritzburg, 3209, South AfricaClimate variability and change impacts are manifesting through declining rainfall totals and increasing frequency and intensity of droughts, floods and heatwaves. These environmental changes are affecting mostly rural populations in developing countries due to low adaptive capacity and high reliance on natural systems for their livelihoods. While broad adaptation strategies exist, there is need to contextualise them to local scale. This paper assessed rainfall, temperature and water stress trends over time in Capricorn District, South Africa, using Standardized Precipitation Index, Thermal Heat Index, and Normalised Difference Vegetation Index (NDVI) as a proxy of water stress. Observed rainfall and temperature data from 1960 to 2015 was used to assess climatic variations, and NDVI was used to assess water stress from 2000 to 2019. Results show a marked increase in drought frequency and intensity, decreasing rainfall totals accompanied by increasing temperatures, and increasing water stress during the summer season. Long-term climatic changes are a basis to develop tailor-made adaptation strategies. Eighty-one percent of the cropped area in Capricorn District is rainfed and under smallholder farming, exposing the district to climate change risks. As the intensity of climate change varies both in space and time, adaptation strategies also vary depending on exposure and intensity. A combination of observed and remotely sensed climatic data is vital in developing tailor-made adaptation strategies. Keywords: Adaptation, Drought, Agriculture, Smallholder farming, Resilience, Risk reductionhttp://www.sciencedirect.com/science/article/pii/S2212094719301380
collection DOAJ
language English
format Article
sources DOAJ
author S. Mpandeli
L. Nhamo
M. Moeletsi
T. Masupha
J. Magidi
K. Tshikolomo
S. Liphadzi
D. Naidoo
T. Mabhaudhi
spellingShingle S. Mpandeli
L. Nhamo
M. Moeletsi
T. Masupha
J. Magidi
K. Tshikolomo
S. Liphadzi
D. Naidoo
T. Mabhaudhi
Assessing climate change and adaptive capacity at local scale using observed and remotely sensed data
Weather and Climate Extremes
author_facet S. Mpandeli
L. Nhamo
M. Moeletsi
T. Masupha
J. Magidi
K. Tshikolomo
S. Liphadzi
D. Naidoo
T. Mabhaudhi
author_sort S. Mpandeli
title Assessing climate change and adaptive capacity at local scale using observed and remotely sensed data
title_short Assessing climate change and adaptive capacity at local scale using observed and remotely sensed data
title_full Assessing climate change and adaptive capacity at local scale using observed and remotely sensed data
title_fullStr Assessing climate change and adaptive capacity at local scale using observed and remotely sensed data
title_full_unstemmed Assessing climate change and adaptive capacity at local scale using observed and remotely sensed data
title_sort assessing climate change and adaptive capacity at local scale using observed and remotely sensed data
publisher Elsevier
series Weather and Climate Extremes
issn 2212-0947
publishDate 2019-12-01
description Climate variability and change impacts are manifesting through declining rainfall totals and increasing frequency and intensity of droughts, floods and heatwaves. These environmental changes are affecting mostly rural populations in developing countries due to low adaptive capacity and high reliance on natural systems for their livelihoods. While broad adaptation strategies exist, there is need to contextualise them to local scale. This paper assessed rainfall, temperature and water stress trends over time in Capricorn District, South Africa, using Standardized Precipitation Index, Thermal Heat Index, and Normalised Difference Vegetation Index (NDVI) as a proxy of water stress. Observed rainfall and temperature data from 1960 to 2015 was used to assess climatic variations, and NDVI was used to assess water stress from 2000 to 2019. Results show a marked increase in drought frequency and intensity, decreasing rainfall totals accompanied by increasing temperatures, and increasing water stress during the summer season. Long-term climatic changes are a basis to develop tailor-made adaptation strategies. Eighty-one percent of the cropped area in Capricorn District is rainfed and under smallholder farming, exposing the district to climate change risks. As the intensity of climate change varies both in space and time, adaptation strategies also vary depending on exposure and intensity. A combination of observed and remotely sensed climatic data is vital in developing tailor-made adaptation strategies. Keywords: Adaptation, Drought, Agriculture, Smallholder farming, Resilience, Risk reduction
url http://www.sciencedirect.com/science/article/pii/S2212094719301380
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