Citation:

Ulrich, D., S. Voelker, J. Renee Brooks, AND F. Meinzer. Insect and Pathogen Influences on Tree-ring Stable Isotopes. Chapter 25, Stable Isotopes in Tree Rings: Inferring Physiological, Climatic and Environmental Responses. Springer, Heidelberg, Germany, 8:711-736, (2022). https://doi.org/10.1007/978-3-030-92698-4_25

Impact/Purpose:

This is a review chapter on the influence of insects and pathogens on tree physiology as determined from stable isotope analysis within tree rings. This chapter will be part of an upcoming book entitled "Stable Isotopes in Tree Rings: Inferring Physiological, Climatic and Environmental Responses". Understanding long-term insect and pathogen effects on host tree physiology can help forest managers respond to insect and pathogen outbreaks, and understand when insect and pathogen effects on tree physiology will be exacerbated by drought and other climate impacts.

Description:

Understanding long-term insect and pathogen effects on host tree physiology can help forest managers respond to insect and pathogen outbreaks, and understand when insect and pathogen effects on tree physiology will be exacerbated by climate change. Leaf-level physiological processes modify the carbon (C) and oxygen (O) stable isotopic composition of elements taken up from the environment, and these modifications are recorded in tree-rings (see Chapters 9, 10, 16 and 17). Therefore, tree-ring stable isotopes are affected by both the tree’s environment and the tree’s physiological responses to the environment, including insects and pathogens. Tree-ring stable isotopes provide unique insights into the long-term effects of insects and pathogens on host tree physiology. However, insect and pathogen impacts on tree-ring stable isotopes are often overlooked, yet can substantially alter interpretations of tree-ring stable isotopes for reconstructions of climate and physiology. In this chapter, we discuss 1) the effects of insects (defoliators, wood-boring, leaf-feeding), pests (parasitic plants), and pathogens (root and foliar fungi) on host physiology (growth, hormonal regulation, gas exchange, water relations, and carbon and nutrient use) as they relate to signals possibly recorded by C and O stable isotopes in tree-rings, 2) how tree-ring stable isotopes reveal insect and pathogen impacts and the interacting effects of pathogens and climate on host physiology, and 3) the importance of considering insect and pathogen impacts for interpreting tree-ring stable isotopes to reconstruct past climate or physiology.

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