Abstract
Crops under various types of stresses, such as stress caused by heavy metals, drought and pest/disease exhibit similar changes in physiological-biochemical parameters (e.g., leaf area index [LAI] and chlorophyll). Thus, differentiating between heavy metal stress and nonheavy metal stress presents a great challenge. However, different stressors in crops do cause variations in spatiotemporal characteristics. This study aims to develop a spatiotemporal index based on LAI time series to identify heavy metal stress under complex stressors on a regional scale. The experimental area is located in Zhuzhou City, Hunan Province. The situ measured data and Sentinel-2A images from 2017 and 2018 were collected. First, a series of LAI in rice growth stages was simulated based on the WOrld FOod STudies (WOFOST) model incorporated with Sentinel 2 images. Second, the local Moran’s I and dynamic time warping (DTW) of LAI were calculated. Third, a stress index based on spatial and temporal features (SIST) was established to assess heavy metal stress levels according to the spatial autocorrelation and temporal dissimilarity of LAI. Results revealed the following: (1) The DTW of LAI is a good indicator for distinguishing stress levels. Specifically, rice subjected to high stress levels exhibits high DTW values. (2) Rice under heavy metal stress is well correlated with high-high SIST clusters. (3) Rice plants subjected to high pollution are observed in the northwest of the study regions and rice under low heavy metal stress is found in the south. The results suggest that SIST based on a sensitive indicator of rice biochemical impairment can be used to accurately detect regional heavy metal stress in rice. Combining spatial-temporal features and spectral information appears to be a highly promising method for discriminating heavy metal stress from complex stressors.
Highlights
Heavy metals, such as Cadmium (Cd), in paddy rice fields can efficiently accumulate in rice grain, straws, and roots [1] due to their high ingestion rate [2], disturb various physiological processes [3], and have adverse effects on human health [4]
To distinguish heavy metal stress from other stresses, we considered stress levels, the temporal dissimilarity measured by dynamic time warping (DTW) and local Moran’s I and developed a stress index based on spatial and temporal characteristics (SIST)
Heavy metal stress can be distinguished from other types of stress using these spatio-temporal characteristics of rice leaf area index (LAI) series
Summary
Heavy metals, such as Cadmium (Cd), in paddy rice fields can efficiently accumulate in rice grain, straws, and roots [1] due to their high ingestion rate [2], disturb various physiological processes [3], and have adverse effects on human health [4]. Field surveys can accurately detect heavy metal concentrations in paddy fields [5], they are often time consuming and expensive and do not facilitate mapping the extent of heavy metal contamination for lager regions. Remote sensing techniques enable the examination of the influence of heavy metal contamination on rice at a large scale. Researchers have attempted to measure heavy metal stress levels by using physiological and spectral features, because heavy metal contaminants have direct or indirect influences on physiological. Public Health 2020, 17, 2265; doi:10.3390/ijerph17072265 www.mdpi.com/journal/ijerph
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