Terrestrial organic matter stocks were still lower, and active layer was still deeper, leading us to expect lower lateral fluxes of carbon and nutrients (à la nutrient retention theory). Instead, organic carbon and nutrients were 25 to 65% higher. https://
RT @thermokarst: Our paper on 200-years of linked nitrogen and carbon dynamics finally is finally out! Isotopes indicate gaseous N-loss in…
RT @thermokarst: Our paper on 200-years of linked nitrogen and carbon dynamics finally is finally out! Isotopes indicate gaseous N-loss in…
RT @thermokarst: Our paper on 200-years of linked nitrogen and carbon dynamics finally is finally out! Isotopes indicate gaseous N-loss in…
RT @thermokarst: Our paper on 200-years of linked nitrogen and carbon dynamics finally is finally out! Isotopes indicate gaseous N-loss in…
That looks so cool. Can’t wait to read it #basulab
Our paper on 200-years of linked nitrogen and carbon dynamics finally is finally out! Isotopes indicate gaseous N-loss in an N-limited ecosystem and interactions between soil and climate determine water availability. https://t.co/ZB9tiLsPhv
RT @thermokarst: Almost three years after initial submission, our paper on carbon and nitrogen isotopes in Glacier Bay is finally out! #Fel…
RT @thermokarst: Almost three years after initial submission, our paper on carbon and nitrogen isotopes in Glacier Bay is finally out! #Fel…
RT @thermokarst: Almost three years after initial submission, our paper on carbon and nitrogen isotopes in Glacier Bay is finally out! #Fel…
Almost three years after initial submission, our paper on carbon and nitrogen isotopes in Glacier Bay is finally out! #FeltLikePrimarySuccessionAllOverAgain https://t.co/ZB9tiLsPhv