P. W. Hazlett scite author profile

Logging disturbances in boreal forest watersheds can alter biogeochemical processes in soils by changing forest composition, plant uptake rates, soil conditions, moisture and temperature regimes, soil microbial activity, and water fluxes. In general, these changes have often led to short-term increases in soil nutrient availability followed by increased mobility and losses by leaching to receiving waters. Among the studies we reviewed, dissolved organic carbon (DOC) exports usually increased after logging, and nitrogen (N) mineralization and nitrification often increased with resulting increased N availability and exports to receiving waters. Similar processes and responses occurred for phosphorus (P), but to a lesser extent than for N. In most cases, base cations were released and exported to receiving waters after logging. Several studies demonstrated that stem-only or partial-harvest logging reduced the impacts on nutrient release and exports in comparison to whole-tree clear-cutting. Despite these logging-induced increases in soil nutrient availability and movement to receiving waters, most studies reported little or no change in soil chemical properties. However, responses to logging were highly variable and often site specific. The likelihood, extent and magnitude of logging impacts on soil nutrient cycling and exports in boreal forest watersheds will be dependent on soil types, stand and site conditions, hydrological connectivity, post-logging weather patterns, and type and timing of harvest activities. Additionally, logging impacts can interact with, and be confounded by, atmospheric pollutant deposition and climate change. Further watershed-level empirical studies and modeling efforts are required to elucidate these interactions, to improve predictive capabilities, and to advance forest management guidelines for sustaining forest soil productivity and limiting nutrient exports.Résumé : Les perturbations causées par la récolte du bois dans les bassins versants de la forêt boréale peuvent affecter les processus biochimiques des sols en modifiant la composition de la forêt, les taux d'absorption par les plantes, les conditions du sol, les régimes de température et d'humidité, l'activité des microorganismes du sol, et les mouvements de l'eau. En général, ces modifications engendrent souvent des augmentations de courte durée de la disponibilité des nutriments du sol, suivi par une augmentation de la mobilité et des pertes par lessivage vers les eaux réceptrices. Les études analysées font état d'une augmentation des exportations de carbone organique dissout (DOC) après la coupe, et d'une minéralisation de l'azote (N) avec une augmentation fréquente de la nitrification conduisant à une augmentation de la disponibilité de N et son exportation vers les eaux réceptrices. On observe des processus et réactions similaires pour le phosphore (P), mais à un moindre degré que pour le N. Dans la plupart des cas, il y a relâchement des cations basiques et exportation vers les eaux réceptrices après la coupe. Plusieurs étud...

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Declining Acidic Deposition Begins Reversal of Forest-Soil Acidification in the Northeastern U.S. and Eastern Canada

Lawrence

Hazlett

Fernandez

et al. 2015

Environ. Sci. Technol.

160

140

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Decreasing trends in acidic deposition levels over the past several decades have led to partial chemical recovery of surface waters. However, depletion of soil Ca from acidic deposition has slowed surface water recovery and led to the impairment of both aquatic and terrestrial ecosystems. Nevertheless, documentation of acidic deposition effects on soils has been limited, and little is known regarding soil responses to ongoing acidic deposition decreases. In this study, resampling of soils in eastern Canada and the northeastern U.S. was done at 27 sites exposed to reductions in wet SO4(2-) deposition of 5.7-76%, over intervals of 8-24 y. Decreases of exchangeable Al in the O horizon and increases in pH in the O and B horizons were seen at most sites. Among all sites, reductions in SO4(2-) deposition were positively correlated with ratios (final sampling/initial sampling) of base saturation (P < 0.01) and negatively correlated with exchangeable Al ratios (P < 0.05) in the O horizon. However, base saturation in the B horizon decreased at one-third of the sites, with no increases. These results are unique in showing that the effects of acidic deposition on North American soils have begun to reverse.

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P. W. Hazlett

Logging impacts on the biogeochemistry of boreal forest soils and nutrient export to aquatic systems: A review

Declining Acidic Deposition Begins Reversal of Forest-Soil Acidification in the Northeastern U.S. and Eastern Canada

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