Litcius/Paper detail

Abyssal Manganese Nodule Recording of Global Cooling and Tibetan Plateau Uplift Impacts on Asian Aridification

Xiaodong Jiang, Xiang Zhao, Xiangyu Zhao, Yu‐Min Chou, Andrew P. Roberts, James R. Hein, Jimin Yu, Xiaoming Sun, Xuefa Shi, Wei Cao, Qingsong Liu

2022Geophysical Research Letters24 citationsDOI

Abstract

Abstract The impact of central Asian aridification on the low latitude North Pacific Ocean since the late Miocene remains unclear. To address this question, we systematically studied an abyssal manganese nodule from the northwestern Pacific Ocean, which is expected to be sensitive to eolian dust sourced from central Asia. Geochemical variations and the fossilized remains of magnetotactic bacteria within the studied nodule manifest two prominent Asian aridification events at ∼8–7 Ma and 3.6–0 Ma. These results suggest that central Asian aridification impacted both primary productivity and abyssal microbial activity in the NW Pacific Ocean via eolian dust inputs. In contrast to the Pliocene aridification event, the late Miocene event was associated with a primary productivity bloom that is not evident in coeval global primary productivity records, which indicates that the ∼8–7 Asian aridification event was likely due to NE Tibetan Plateau uplift rather than to global cooling.

Topics & Concepts

AridificationGeologyGlobal coolingPlateau (mathematics)Abyssal zoneAeolian processesOceanographyPaleoceanographyPaleontologyClimate changeMathematical analysisMathematicsGeology and Paleoclimatology ResearchGeomagnetism and Paleomagnetism StudiesPaleontology and Stratigraphy of Fossils
Abyssal Manganese Nodule Recording of Global Cooling and Tibetan Plateau Uplift Impacts on Asian Aridification | Litcius