Fire up Biosensor Technology to Assess the Vitality of Trees after Wildfires.
Eleftherios TouloupakisIsabela Calegari MoiaRaffaella Margherita ZampieriClaudia CocozzaNiccolò FrassinelliEnrico MarchiCristiano FoderiTiziana Di LorenzoNegar RezaieValerio Giorgio MuzziniMaria Laura TraversiAlessio GiovannelliPublished in: Biosensors (2024)
The development of tools to quickly identify the fate of damaged trees after a stress event such as a wildfire is of great importance. In this context, an innovative approach to assess irreversible physiological damage in trees could help to support the planning of management decisions for disturbed sites to restore biodiversity, protect the environment and understand the adaptations of ecosystem functionality. The vitality of trees can be estimated by several physiological indicators, such as cambium activity and the amount of starch and soluble sugars, while the accumulation of ethanol in the cambial cells and phloem is considered an alarm sign of cell death. However, their determination requires time-consuming laboratory protocols, making the approach impractical in the field. Biosensors hold considerable promise for substantially advancing this field. The general objective of this review is to define a system for quantifying the plant vitality in forest areas exposed to fire. This review describes recent electrochemical biosensors that can detect plant molecules, focusing on biosensors for glucose, fructose, and ethanol as indicators of tree vitality.
Keyphrases
- label free
- cell death
- cell cycle arrest
- climate change
- gold nanoparticles
- molecularly imprinted
- oxidative stress
- ionic liquid
- quantum dots
- big data
- sensitive detection
- machine learning
- mass spectrometry
- high intensity
- stress induced
- cell wall
- adipose tissue
- signaling pathway
- insulin resistance
- deep learning
- liquid chromatography