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Forest defoliator outbreaks alter nutrient cycling in northern waters

Environmental Studies and Forestry

Forest defoliator outbreaks alter nutrient cycling in northern waters

S. G. Woodman, S. Khoury, et al.

In a groundbreaking study by Samuel G. Woodman and colleagues, it was revealed that insect defoliators significantly influence biogeochemical cycles in boreal lake catchments. By altering water chemistry through reduced leaf area, they drive remarkable changes in dissolved organic carbon and nitrogen concentrations. This research uncovers the often overlooked role of defoliators in ecosystem dynamics over a staggering 32-year period.... show more
Abstract
Insect defoliators alter biogeochemical cycles from land into receiving waters by consuming terrestrial biomass and releasing biolabile frass. Here, we related insect outbreaks to water chemistry across 12 boreal lake catchments over 32-years. We report, on average, 27% lower dissolved organic carbon (DOC) and 112% higher dissolved inorganic nitrogen (DIN) concentrations in lake waters when defoliators covered entire catchments and reduced leaf area. DOC reductions reached 32% when deciduous stands dominated. Within-year changes in DOC from insect outbreaks exceeded 86% of between-year trends across a larger dataset of 266 boreal and north temperate lakes from 1990 to 2016. Similarly, within-year increases in DIN from insect outbreaks exceeded local, between-year changes in DIN by 12-times, on average. As insect defoliator outbreaks occur at least every 5 years across a wider 439,661 km^2 boreal ecozone of Ontario, we suggest they are an underappreciated driver of biogeochemical cycles in forest catchments of this region.
Publisher
Nature Communications
Published On
Nov 03, 2021
Authors
Samuel G. Woodman, Sacha Khoury, Ronald E. Fournier, Erik J. S. Emilson, John M. Gunn, James A. Rusak, Andrew J. Tanentzap
DOI
https://doi.org/10.1038/s41467-021-26666-1
Tags
insect defoliators
biogeochemical cycles
boreal lakes
water chemistry
dissolved organic carbon
dissolved inorganic nitrogen
terrestrial biomass

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