Study: Logging Destabilizes Forest Soil Carbon

- by John Cramer, Decem­ber 2, 2014, Dart­mouth College

Log­ging does­n’t imme­di­ate­ly jet­ti­son car­bon stored in a forest’s min­er­al soils into the atmos­phere but trig­gers a grad­ual release that may con­tribute to cli­mate change over decades, a Dart­mouth Col­lege study finds.

The results are the first evi­dence of a region­al trend of low­er car­bon pools in soils of har­vest­ed hard­wood forests com­pared to mature or pris­tine hard­wood forests. The find­ings appear in the jour­nal Glob­al Change Biol­o­gy Bioen­er­gy. A PDF of the study is avail­able on request.

Despite sci­en­tists’ grow­ing appre­ci­a­tion for soil’s role in the glob­al car­bon cycle, min­er­al soil car­bon pools are large­ly under­stud­ied and pre­vi­ous stud­ies have pro­duced dif­fer­ing results about log­ging’s impact. For exam­ple, the U.S. For­est Ser­vice assumes that all soil car­bon pools do not change after tim­ber harvesting.

The Dart­mouth researchers looked at how tim­ber har­vest­ing affects min­er­al soil car­bon over 100 years fol­low­ing har­vest in the north­east­ern Unit­ed States, where soils account for at least 50 per­cent of total ecosys­tem car­bon stor­age. Min­er­al soils, which under­lie the car­bon-rich organ­ic lay­er of the soil, make up the major­i­ty of that stor­age, but are some­times not includ­ed in car­bon stud­ies due to the dif­fi­cul­ty in col­lect­ing sam­ples from the rocky, dif­fi­cult ter­rain. The researchers hypoth­e­sized that the min­er­al soil car­bon would be low­er in forests that had been har­vest­ed in the last cen­tu­ry than in forests that were more than 100 years old. They col­lect­ed min­er­al soil cores from 20 forests in sev­en areas across the north­east­ern Unit­ed States and com­pared the rel­a­tive amounts of car­bon in the soil from forests that were logged five years ago, 25 years ago, 50 years ago, 75 years ago and 100 years ago.

The results showed no sig­nif­i­cant dif­fer­ences between min­er­al soil car­bon in the old­er ver­sus har­vest­ed forests. But there was a sig­nif­i­cant rela­tion­ship between the time since for­est har­vest and the size of the car­bon pools, which sug­gest­ed a grad­ual decline in car­bon across the region that may last for decades after har­vest­ing and result in increased atmos­pher­ic car­bon dioxide.

“Our study sug­gests that for­est har­vest does cause bio­geo­chem­i­cal changes in min­er­al soil, but that a small change in a car­bon pool may be dif­fi­cult to detect when com­par­ing large, vari­able car­bon pools,” says lead author Chelsea Petrenko) (for­mer­ly Vario), a doc­tor­al can­di­date in the Grad­u­ate Pro­gram in Ecol­o­gy and Evo­lu­tion­ary Biol­o­gy and a trainee in Dart­mouth’s IGERT pro­gram for Polar Envi­ron­men­tal Change. “Our results are con­sis­tent with pre­vi­ous stud­ies that found that soil car­bon pools have a grad­ual and slow response to dis­tur­bance, which may last for sev­er­al decades fol­low­ing harvest.”

A pre­vi­ous Dart­mouth study found that clear-cut­ting releas­es detectible amounts of car­bon stored in deep for­est soils, chal­leng­ing the notion that burn­ing woody bio­mass for ener­gy is more car­bon-neu­tral than fos­sil fuels. “Min­er­al soil, which is the most sig­nif­i­cant ecosys­tem car­bon pool in tem­per­ate forests, should be stud­ied more close­ly before the car­bon neu­tral­i­ty of bioen­er­gy from local wood in tem­per­ate forests is assert­ed,” says Petrenko, whose research focus­es on the bio­geo­chem­istry of warm­ing ecosys­tems and the impact on cli­mate change.


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