This review paper summarizes current understanding of the transport of organic carbon to,
and the fate of organic carbon within, the East Siberian Arctic Shelf (ESAS), and of …

Climatic changes in the Northern Hemisphere have led to remarkable environmental
changes in the Arctic Ocean, which is surrounded by permafrost. These changes include …

Abstract The rapidly changing East Siberian Arctic Shelf (ESAS) receives large amounts of
terrestrial organic carbon (OC) from coastal erosion and Russian‐Arctic rivers. Climate …

The Lena River integrates biogeochemical signals from its vast drainage basin, and the
integrated signal reaches far out over the Arctic Ocean. Transformation of riverine organic …

Shelf seas are among the most active biogeochemical marine environments and the East
Siberian Sea is a prime example. This sea is supplied by seawater from both the Atlantic …

The East Siberian Arctic Shelf (ESAS) is the broadest and shallowest continental shelf in the
world. It is characterized by both the highest rate of coastal erosion in the world and a large …

This study aims to improve understanding of carbon cycling in the Buor-Khaya Bay (BKB)
and adjacent part of the Laptev Sea by studying the inter-annual, seasonal, and meso-scale …

Quantified research on the Arctic Ocean carbon system is poorly understood, limited by the
scarce available data. Measuring the associated phytoplankton responses to air–sea CO2 …

Abstract The East Siberian Sea (ESS) is the largest, shallowest and most icebound Arctic
marginal sea. It receives substantial input of terrigenous material and climate-vulnerable old …

The Arctic is undergoing dramatic changes which cover the entire range of natural
processes, from extreme increases in the temperatures of air, soil, and water, to changes in …