Elucidating the phenology of the Sundarbans mangrove forest using 18-year time series of MODIS vegetation indices

IF 1 Q4 ECOLOGY Tropics Pub Date : 2020-01-01 DOI:10.3759/tropics.ms19-11
M. S. N. Mandal, M. Kamruzzaman, T. Hosaka
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引用次数: 7

Abstract

Mangrove forests are the most carbon-rich ecosystems in the world however, baseline information on its phenology is poor. Information on seasonal changes in canopy greenness, which reflects the level of photosynthetic activity, is helpful for understanding seasonal patterns of carbon uptake by mangrove forests. To elucidate the periodicity, timing, and length of the active photosynthetic season, we examined temporal patterns in enhanced vegetation index (EVI) and normalized difference vegetation index (NDVI) derived from 18-year (2001 - 2018) Moderate Resolution Imaging Spectroradiometer images for four major forest types in the Sundarbans, Bangladesh. We identified a dominant cycle for the time-series of EVI and NDVI after Fourier transformation. We also estimated four phenological dates among the forest types: the start of the season (SOS), time of maximum greenness (MaxGreen), end of the season (EOS), and length of the season (LOS). Fourier analysis revealed that both the NDVI and EVI exhibited distinct cycles per year for all forest types, suggesting that there are annual cycles of canopy greenness. The SOS as estimated using the EVI and NDVI was consistently from late May to mid-June across forest types. However, the MaxGreen, EOS and LOS estimated varied between the two indices. Because EVI-based phenological dates match better with phenological information at the ground level than do NDVI-based dates, the EVI would be better than the NDVI for depicting changes in canopy greenness. The results of this study provide baseline information for future phenological changes in the Sundarbans.
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利用MODIS植被指数18年时间序列分析孙德尔本斯红树林物候特征
红树林是世界上碳含量最高的生态系统,然而,关于其物候的基线信息却很少。反映光合作用水平的林冠绿度的季节变化信息有助于了解红树林碳吸收的季节模式。为了阐明活跃光合季节的周期性、时间和长度,我们研究了孟加拉国孙德尔本斯四种主要森林类型的18年(2001 - 2018)中分辨率成像光谱仪图像的增强植被指数(EVI)和归一化植被指数(NDVI)的时间模式。在傅里叶变换后,我们确定了EVI和NDVI时间序列的主导周期。我们还估算了4个物候日期:季节开始(SOS)、最大绿度时间(MaxGreen)、季节结束(EOS)和季节长度(LOS)。傅里叶分析表明,所有森林类型的NDVI和EVI均表现出不同的年循环,表明林冠绿度存在年循环。利用EVI和NDVI估算的SOS在5月下旬至6月中旬在不同森林类型间保持一致。然而,MaxGreen、EOS和LOS的估计值在两个指数之间存在差异。由于基于EVI的物候数据比基于NDVI的物候数据更符合地面物候信息,因此EVI比NDVI更能描述林冠绿度的变化。本研究结果为孙德尔本斯地区未来物候变化提供了基础信息。
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来源期刊
Tropics
Tropics ECOLOGY-
CiteScore
1.40
自引率
0.00%
发文量
7
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