Can Multiscale Thermal Infrared Imaging Help Validate and Monitor Water Stress in Alluvial Forests?

IF 2.5 3区环境科学与生态学 Q2 ECOLOGY

Ecohydrology Pub Date : 2024-09-03 DOI:10.1002/eco.2710

Julien Godfroy, Pauline Malherbe, Flavie Gerle, Baptiste Marteau, Pierre Lochin, Sara Puijalon, Jérôme Lejot, Antoine Vernay, Hervé Piégay

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Abstract

Alluvial forests are sensitive to drought induced by climate change and exacerbated by altered flow regimes. Our ability to detect and map their sensitivity to drought is crucial to evaluate the effects of climate change and adjust management practices. Therefore, we explore the potential of multiscale thermal infrared imagery (TIR) to diagnose their sensitivity to droughts. In summer 2022, we sampled leaves and phloem on Populus nigra trees from two sites with contrasted hydrological connectivity along the Ain River (France) to investigate the seasonality of water stress and act as ground truth for airborne TIR images. To map forest sensitivity to drought, we used TIR data from four airborne campaigns and Landsat archives over a larger spatial and temporal extent. Field data showed that stress conditions were reached for both sites but were higher in the site with lower groundwater connectivity, which was also the case for individual tree crown temperatures. At the forest plot scale, canopy temperature was linked to forest connectivity for two of four TIR campaigns, with higher values in the more degraded reaches. Landsat data were used to locate the areas of the riparian forest impacted by a historical drought event and monitor their recovery and proved useful to identify trends. TIR data showed promising results to help detect and map tree water stress in riparian environments. However, stress is not detected in all TIR campaigns, demonstrating that one‐shot TIR acquisitions alone are not enough to diagnose stress and complementary in‐field eco‐physiological measurements are necessary.

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多尺度热红外成像能否帮助验证和监测冲积层森林的水压力？

冲积森林对气候变化引起的干旱非常敏感，而水流机制的改变又加剧了干旱。我们探测和绘制其对干旱敏感性的能力对于评估气候变化的影响和调整管理方法至关重要。因此，我们探索了多尺度热红外图像（TIR）诊断其对干旱敏感性的潜力。2022 年夏季，我们在法国艾因河沿岸水文连通性对比强烈的两个地点采集了黑杨树的叶片和韧皮部样本，以研究水分胁迫的季节性，并作为机载热红外图像的地面实况。为了绘制森林对干旱的敏感性图，我们使用了四次机载活动的红外数据和更大时空范围内的陆地卫星档案。实地数据显示，两个地点都达到了压力条件，但地下水连通性较低的地点的压力条件更高，单棵树木的树冠温度也是如此。在森林地块尺度上，在四次 TIR 活动中的两次活动中，树冠温度与森林连通性有关，退化程度较高的林区树冠温度值较高。大地遥感卫星数据被用来定位受历史干旱事件影响的河岸森林区域并监测其恢复情况，事实证明这些数据有助于确定趋势。红外数据在帮助检测和绘制河岸环境中的树木水分胁迫图方面显示出良好的效果。然而，并不是所有的红外热像仪活动都能检测到压力，这表明仅靠一次红外热像仪采集不足以诊断压力，还需要补充实地生态生理学测量。

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

Ecohydrology 环境科学-生态学

CiteScore

5.10

自引率

7.70%

发文量

116

审稿时长

24 months

期刊介绍： Ecohydrology is an international journal publishing original scientific and review papers that aim to improve understanding of processes at the interface between ecology and hydrology and associated applications related to environmental management. Ecohydrology seeks to increase interdisciplinary insights by placing particular emphasis on interactions and associated feedbacks in both space and time between ecological systems and the hydrological cycle. Research contributions are solicited from disciplines focusing on the physical, ecological, biological, biogeochemical, geomorphological, drainage basin, mathematical and methodological aspects of ecohydrology. Research in both terrestrial and aquatic systems is of interest provided it explicitly links ecological systems and the hydrologic cycle; research such as aquatic ecological, channel engineering, or ecological or hydrological modelling is less appropriate for the journal unless it specifically addresses the criteria above. Manuscripts describing individual case studies are of interest in cases where broader insights are discussed beyond site- and species-specific results.