Response of Land Surface Phenology to Variation in Tree Cover during Green-Up and Senescence Periods in the Semi-Arid Savanna of Southern Africa

Response of Land Surface Phenology to Variation in Tree Cover during Green-Up and Senescence Periods in the Semi-Arid Savanna of Southern Africa

Understanding the spatio-temporal dynamics of land surface phenology is important to understanding changes in landscape ecological processes of semi-arid savannas in Southern Africa. The aim of the study was to determine the influence of variation in tree cover percentage on land surface phenologica...

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Main Authors: Moses A. Cho, Abel Ramoelo, Luthando Dziba
Format: Article
Language:English
Published: MDPI AG 2017-07-01
Series:Remote Sensing
Subjects:
land surface phenology
remote sensing
tree cover
rainfall
semi-arid savanna
Southern Africa
Online Access:https://www.mdpi.com/2072-4292/9/7/689
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spelling doaj-72366423b90d424b91c7cb5eb62c74482020-11-24T21:08:45ZengMDPI AGRemote Sensing2072-42922017-07-019768910.3390/rs9070689rs9070689Response of Land Surface Phenology to Variation in Tree Cover during Green-Up and Senescence Periods in the Semi-Arid Savanna of Southern AfricaMoses A. Cho0Abel Ramoelo1Luthando Dziba2Natural Resources and Environment Unit, The Council for Scientific and Industrial Research (CSIR), P.O. Box 395, Pretoria 0001, South AfricaNatural Resources and Environment Unit, The Council for Scientific and Industrial Research (CSIR), P.O. Box 395, Pretoria 0001, South AfricaNatural Resources and Environment Unit, The Council for Scientific and Industrial Research (CSIR), P.O. Box 395, Pretoria 0001, South AfricaUnderstanding the spatio-temporal dynamics of land surface phenology is important to understanding changes in landscape ecological processes of semi-arid savannas in Southern Africa. The aim of the study was to determine the influence of variation in tree cover percentage on land surface phenological response in the semi-arid savanna of Southern Africa. Various land surface phenological metrics for the green-up and senescing periods of the vegetation were retrieved from leaf index area (LAI) seasonal time series (2001 to 2015) maps for a study region in South Africa. Tree cover (%) data for 100 randomly selected polygons grouped into three tree cover classes, low (<20%, n = 44), medium (20–40%, n = 22) and high (>40%, n = 34), were used to determine the influence of varying tree cover (%) on the phenological metrics by means of the t-test. The differences in the means between tree cover classes were statistically significant (t-test p < 0.05) for the senescence period metrics but not for the green-up period metrics. The categorical data results were supported by regression results involving tree cover and the various phenological metrics, where tree cover (%) explained 40% of the variance in day of the year at end of growing season compared to 3% for the start of the growing season. An analysis of the impact of rainfall on the land surface phenological metrics showed that rainfall influences the green-up period metrics but not the senescence period metrics. Quantifying the contribution of tree cover to the day of the year at end of growing season could be important in the assessment of the spatial variability of a savanna ecological process such as the risk of fire spread with time.https://www.mdpi.com/2072-4292/9/7/689land surface phenologyremote sensingtree coverrainfallsemi-arid savannaSouthern Africa
collection DOAJ
language English
format Article
sources DOAJ
author Moses A. Cho
Abel Ramoelo
Luthando Dziba
spellingShingle Moses A. Cho
Abel Ramoelo
Luthando Dziba
Response of Land Surface Phenology to Variation in Tree Cover during Green-Up and Senescence Periods in the Semi-Arid Savanna of Southern Africa
Remote Sensing
land surface phenology
remote sensing
tree cover
rainfall
semi-arid savanna
Southern Africa
author_facet Moses A. Cho
Abel Ramoelo
Luthando Dziba
author_sort Moses A. Cho
title Response of Land Surface Phenology to Variation in Tree Cover during Green-Up and Senescence Periods in the Semi-Arid Savanna of Southern Africa
title_short Response of Land Surface Phenology to Variation in Tree Cover during Green-Up and Senescence Periods in the Semi-Arid Savanna of Southern Africa
title_full Response of Land Surface Phenology to Variation in Tree Cover during Green-Up and Senescence Periods in the Semi-Arid Savanna of Southern Africa
title_fullStr Response of Land Surface Phenology to Variation in Tree Cover during Green-Up and Senescence Periods in the Semi-Arid Savanna of Southern Africa
title_full_unstemmed Response of Land Surface Phenology to Variation in Tree Cover during Green-Up and Senescence Periods in the Semi-Arid Savanna of Southern Africa
title_sort response of land surface phenology to variation in tree cover during green-up and senescence periods in the semi-arid savanna of southern africa
publisher MDPI AG
series Remote Sensing
issn 2072-4292
publishDate 2017-07-01
description Understanding the spatio-temporal dynamics of land surface phenology is important to understanding changes in landscape ecological processes of semi-arid savannas in Southern Africa. The aim of the study was to determine the influence of variation in tree cover percentage on land surface phenological response in the semi-arid savanna of Southern Africa. Various land surface phenological metrics for the green-up and senescing periods of the vegetation were retrieved from leaf index area (LAI) seasonal time series (2001 to 2015) maps for a study region in South Africa. Tree cover (%) data for 100 randomly selected polygons grouped into three tree cover classes, low (<20%, n = 44), medium (20–40%, n = 22) and high (>40%, n = 34), were used to determine the influence of varying tree cover (%) on the phenological metrics by means of the t-test. The differences in the means between tree cover classes were statistically significant (t-test p < 0.05) for the senescence period metrics but not for the green-up period metrics. The categorical data results were supported by regression results involving tree cover and the various phenological metrics, where tree cover (%) explained 40% of the variance in day of the year at end of growing season compared to 3% for the start of the growing season. An analysis of the impact of rainfall on the land surface phenological metrics showed that rainfall influences the green-up period metrics but not the senescence period metrics. Quantifying the contribution of tree cover to the day of the year at end of growing season could be important in the assessment of the spatial variability of a savanna ecological process such as the risk of fire spread with time.
topic land surface phenology
remote sensing
tree cover
rainfall
semi-arid savanna
Southern Africa
url https://www.mdpi.com/2072-4292/9/7/689
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AT abelramoelo responseoflandsurfacephenologytovariationintreecoverduringgreenupandsenescenceperiodsinthesemiaridsavannaofsouthernafrica
AT luthandodziba responseoflandsurfacephenologytovariationintreecoverduringgreenupandsenescenceperiodsinthesemiaridsavannaofsouthernafrica
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