Abstract

Remote sensing of plant phenology as an indicator of climate change and for mapping land cover has received significant scientific interest in the past two decades. The advancing of spring events, the lengthening of the growing season, the shifting of tree lines, the decreasing sensitivity to warming and the uniformity of spring across elevations are a few of the important indicators of trends in phenology. The Sentinel-2 satellite sensors launched in June 2015 (A) and March 2017 (B), with their high temporal frequency and spatial resolution for improved land mapping missions, have contributed significantly to knowledge on vegetation over the last three years. However, despite the additional red-edge and short wave infra-red (SWIR) bands available on the Sentinel-2 multispectral instruments, with improved vegetation species detection capabilities, there has been very little research on their efficacy to track vegetation cover and its phenology. For example, out of approximately every four papers that analyse normalised difference vegetation index (NDVI) or enhanced vegetation index (EVI) derived from Sentinel-2 imagery, only one mentions either SWIR or the red-edge bands. Despite the short duration that the Sentinel-2 platforms have been operational, they have proved their potential in a wide range of phenological studies of crops, forests, natural grasslands, and other vegetated areas, and in particular through fusion of the data with those from other sensors, e.g., Sentinel-1, Landsat and MODIS. This review paper discusses the current state of vegetation phenology studies based on the first five years of Sentinel-2, their advantages, limitations, and the scope for future developments.

Highlights

  • Accurate monitoring of vegetation phenology across space and time is imperative for understanding the impact of climate change on plants and animals

  • This study showed that the yield was highly correlated with vegetation indices such as normalised difference vegetation index (NDVI), soil-adjusted vegetation index (SAVI) and the inverted red-edge chlorophyll index (IRECI), and to the leaf area index (LAI) and fraction of photosynthetically active radiation

  • The results showed better agreements for phenological metrics calculated from the expedited weekly MODIS and integrated harmonized Landsat-8 and Sentinel-2 (HLS) data

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Summary

Introduction

Accurate monitoring of vegetation phenology across space and time is imperative for understanding the impact of climate change on plants and animals. The newest European Space Agency Sentinel-2 satellites, available from 2015 (S2A) with the second sensor (S2B) launched in 2017 to double the data acquisition, provide data at much finer spatial (10–20 m) and higher temporal (up to 5 days) resolutions, currently over a shorter time series than Landsat and MODIS. Bolton et al (2020) [42] used harmonized Landsat-8 and Sentinel-2 (HLS) data to calculate LSP metrics at a spatial resolution of 30 m and temporal resolution of 1–4 days using a “multi-sensor land surface phenology (MS-LSP)” algorithm This product showed strong correlations (r = 0.9) with phenocam data for 50% green-up dates for deciduous broadleaf forests, whereas very weak correlations (r = 0.15) were found for evergreen needle leaf forests. In order to remove such artefacts from the data several approaches to normalise Bi-directional Reflectance Distribution Function (BRDF) effects have been suggested in the literature [69,70,71,72], and should be considered in phenological research

Vegetation Indices for Phenological Research in Woody Species
Phenology of Croplands
Mapping of Crops Using Time Series Data
Estimation of Crop Yield
Phenology of Grasslands
Matching Sentinel-2 with Phenocam Data in Grasslands
Mapping of Wetland Vegetation
Dealing with Mixed Pixels in Urban Areas
Performance of Sentinel-2 Red-Edge Bands in Phenological Research
Overcoming Cloud Cover
Gap Filling Techniques for Phenological Research Using Sentinel-2
Further Prospects
Findings
Conclusions

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