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Post‐drainage stand growth and peat mineralization impair water quality from forested peatlands

Mika Nieminen, Eliza Maher Hasselquist, Virginia Mosquera, Liisa Ukonmaanaho, Tapani Sallantaus, Sakari Sarkkola

2022Journal of Environmental Quality17 citationsDOIOpen Access PDF

Abstract

Many recent studies have indicated upward trends in carbon and nutrient concentrations from drained peatland forests over time since their initial drainage, but the mechanisms behind these trends are still poorly understood. We gathered data on nitrogen and phosphorus concentrations discharged from 37 drained boreal peatland forests where we also had data on peat and tree stand characteristics. We found that tree stand volume and peat bulk density were positively correlated with the nitrogen and phosphorus concentrations discharged from particularly the deep-peated sites. We interpret these results to indicate that a plausible reason for the reported upward trends in nutrient concentrations is the maturing and growing of the tree stands over time since initial drainage and the consequent increasing evapotranspiration capacity, which results in lowered soil water levels and enhanced aerobic peat mineralization. We discuss how our results should be considered in the management of drained peatland forests.

Topics & Concepts

PeatEnvironmental scienceDrainageBorealMineralization (soil science)NutrientHydrology (agriculture)EvapotranspirationWater qualityPhosphorusBulk densityEcologySoil waterSoil scienceGeologyChemistryBiologyOrganic chemistryGeotechnical engineeringPeatlands and Wetlands EcologyCoastal wetland ecosystem dynamicsBotany and Plant Ecology Studies
Post‐drainage stand growth and peat mineralization impair water quality from forested peatlands | Litcius