Vegetation phenology dynamics as an indicator of energy and productivity functions in semi-arid savannah protected areas: a case study of Gonarezhou National Park in south-eastern Zimbabwe

Q2 Agricultural and Biological Sciences

Transactions of The Royal Society of South Africa Pub Date : 2021-07-23 DOI:10.1080/0035919X.2021.1934184

Talent Murwendo, A. Murwira, M. Masocha

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Abstract

Spatial and temporal patterns of vegetation productivity in semi-arid savanna national parks are influenced by differences in land cover and changes in time series trends. The main purpose of this paper is to analyse patterns of vegetation productivity metrics of base value, peak value, amplitude, and small and large integrals in Gonarezhou National Park (GNP) in south-eastern Zimbabwe from 1981 to 2015. Three sample sites comprising shrublands, deciduous broadleaved forested woodlands and mixed cover (shrublands, broadleaved deciduous forested woodlands and grasslands) were selected to show existing patterns of vegetation productivity for GNP. We used remotely sensed Normalised Difference Vegetation Index (NDVI) data which was further processed in the TIMESAT 3.3 program to derive productivity metrics. We then tested differences in land cover using analysis of variance and changes in time-series trends using Mann–Kendall and Theil–Sen’s tests. We note significant differences in land cover (P< 0.01) in selected samples. There are significant downward trends in the base value in shrublands (P< 0.01) and broadleaved deciduous forested woodlands (P= 0.04). Significant upward trends in the amplitude in the shrublands (P< 0.01) and mixed cover areas (P= 0.01) were noted. However, there are no changes in vegetation productivity, as indicated by the peak value and large and small integral indices. Shrublands are becoming vulnerable in terms of energy and vegetation productivity and need constant monitoring. Long-span coarse-resolution images are important stepping stones in providing a baseline for further studies from moderate and fineresolution imagery. Research on vegetation productivity using fine-resolution imagery is more suitable for GNP.

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植被物候动态作为半干旱草原保护区能量和生产力功能的指标——以津巴布韦东南部Gonarezhou国家公园为例

半干旱草原国家公园植被生产力时空格局受土地覆被差异和时间序列变化趋势的影响。本文的主要目的是分析1981 - 2015年津巴布韦东南部戈纳雷周国家公园(GNP)植被生产力指标的基数、峰值、振幅和大小积分的格局。三个样地包括灌丛地、落叶阔叶林林地和混合覆盖(灌丛地、落叶阔叶林林地和草地)，以显示国民生产总值的现有植被生产力格局。我们使用遥感的归一化植被指数(Normalised Difference Vegetation Index, NDVI)数据，这些数据在TIMESAT 3.3程序中进行了进一步处理，以获得生产力指标。然后，我们使用Mann-Kendall和Theil-Sen的测试，使用方差分析和时间序列趋势的变化来测试土地覆盖的差异。我们注意到所选样本的土地覆盖差异显著(P< 0.01)。灌丛林地和阔叶落叶林地的基值呈显著下降趋势(P< 0.01);灌丛地(P< 0.01)和混合覆盖地(P= 0.01)的幅度呈显著上升趋势。植被生产力变化不大，表现为峰值变化和大小积分指数变化。灌木地在能量和植被生产力方面变得越来越脆弱，需要不断监测。大跨度粗分辨率图像是为中分辨率和精细分辨率图像的进一步研究提供基线的重要垫脚石。利用精细分辨率影像研究植被生产力更适合GNP。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Transactions of The Royal Society of South Africa Agricultural and Biological Sciences-Agricultural and Biological Sciences (all)

CiteScore

2.80

自引率

0.00%

发文量

期刊介绍： Transactions of the Royal Society of South Africa , published on behalf of the Royal Society of South Africa since 1908, comprises a rich archive of original scientific research in and beyond South Africa. Since 1878, when it was founded as Transactions of the South African Philosophical Society, the Journal’s strength has lain in its multi- and inter-disciplinary orientation, which is aimed at ‘promoting the improvement and diffusion of science in all its branches’ (original Charter). Today this includes natural, physical, medical, environmental and earth sciences as well as any other topic that may be of interest or importance to the people of Africa. Transactions publishes original research papers, review articles, special issues, feature articles, festschriften and book reviews. While coverage emphasizes southern Africa, submissions concerning the rest of the continent are encouraged.