Unknown

Dataset Information

0

Fungal decomposition of terrestrial organic matter accelerated Early Jurassic climate warming.

ABSTRACT: Soils - constituting the largest terrestrial carbon pool - are vulnerable to climatic warming. Currently existing uncertainties regarding carbon fluxes within terrestrial systems can be addressed by studies of past carbon cycle dynamics and related climate change recorded in sedimentary successions. Here we show an example from the Early Jurassic (early Toarcian, c. 183 mya) marginal-marine strata from Poland, tracking the hinterland response to climatic changes through a super-greenhouse event. In contrast to anoxia-related enhanced carbon storage in coeval open marine environments, Total Organic Carbon (TOC) concentrations in the Polish successions are substantially reduced during this event. Increasing temperature favoured fungal-mediated decomposition of plant litter - specifically of normally resistant woody tissues. The associated injection of oxidized organic matter into the atmosphere corresponds to abrupt changes in standing vegetation and may have contributed significantly to the amplified greenhouse climate on Earth. The characteristic Toarcian signature of multiple warm pulses coinciding with rapidly decreasing carbon isotope ratios may in part be the result of a radical reduction of the terrestrial carbon pool as a response to climate change.

SUBMITTER: Pienkowski G 

PROVIDER: S-EPMC4995404 | biostudies-literature | 2016 Aug

REPOSITORIES: biostudies-literature

Json Xml
altmetric image

Publications

Fungal decomposition of terrestrial organic matter accelerated Early Jurassic climate warming.

Pieńkowski Grzegorz G   Hodbod Marta M   Ullmann Clemens V CV  

Scientific reports 20160824

Soils - constituting the largest terrestrial carbon pool - are vulnerable to climatic warming. Currently existing uncertainties regarding carbon fluxes within terrestrial systems can be addressed by studies of past carbon cycle dynamics and related climate change recorded in sedimentary successions. Here we show an example from the Early Jurassic (early Toarcian, c. 183 mya) marginal-marine strata from Poland, tracking the hinterland response to climatic changes through a super-greenhouse event.  ...[more]

Similar Datasets

Genomics Fungal decomposition of river organic matter accelerated by glacier loss_NATURE CLIMATE CHANGE, Dec 09 '20
| PRJNA684135 | ENA
Unknown Feasting on terrestrial organic matter: Dining in a dark lake changes microbial decomposition.
| S-EPMC6220883 | biostudies-literature
Unknown Silicate Fertilizer Amendment Alters Fungal Communities and Accelerates Soil Organic Matter Decomposition.
| S-EPMC6932956 | biostudies-literature
Transcriptomics The soil organic matter decomposition mechanisms in ectomycorrhizal fungi are tuned for liberating soil organic nitrogen
2018-11-30 | GSE110485 | GEO
Unknown Impacts of climate warming on terrestrial ectotherms across latitude.
| S-EPMC2373333 | biostudies-literature
Unknown Accelerated phenology of blacklegged ticks under climate warming.
| S-EPMC4342961 | biostudies-literature
Unknown Soil fertility relates to fungal-mediated decomposition and organic matter turnover in a temperate mountain forest.
| S-EPMC7611052 | biostudies-literature
Unknown Warming climate extends dryness-controlled areas of terrestrial carbon sequestration.
| S-EPMC4076677 | biostudies-literature
Unknown Extinction of herbivorous dinosaurs linked to Early Jurassic global warming event.
| S-EPMC7739499 | biostudies-literature
Unknown Future Climate Significantly Alters Fungal Plant Pathogen Dynamics during the Early Phase of Wheat Litter Decomposition.
| S-EPMC7356542 | biostudies-literature