Dissolved Organic Matter in Freshwater Ecosystems: Nature, Origins and Ecological Significance

Allbwn ymchwil: Llyfr/AdroddiadLlyfradolygiad gan gymheiriaid

StandardStandard

Dissolved Organic Matter in Freshwater Ecosystems: Nature, Origins and Ecological Significance. / Johnes, Penny (Golygydd); Evershed, Richard P. (Golygydd); Jones, Davey L. (Golygydd) et al.
Springer, 2023.

Allbwn ymchwil: Llyfr/AdroddiadLlyfradolygiad gan gymheiriaid

HarvardHarvard

APA

Johnes, P., Evershed, R. P., Jones, D. L., & Maberly, S. C. (Gol.) (2023). Dissolved Organic Matter in Freshwater Ecosystems: Nature, Origins and Ecological Significance. Springer.

CBE

MLA

VancouverVancouver

Author

Johnes, Penny (Golygydd) ; Evershed, Richard P. (Golygydd) ; Jones, Davey L. (Golygydd) et al. / Dissolved Organic Matter in Freshwater Ecosystems: Nature, Origins and Ecological Significance. Springer, 2023.

RIS

TY - BOOK

T1 - Dissolved Organic Matter in Freshwater Ecosystems: Nature, Origins and Ecological Significance

A2 - Johnes, Penny

A2 - Evershed, Richard P.

A2 - Jones, Davey L.

A2 - Maberly, Stephen C.

PY - 2023

Y1 - 2023

N2 - This book contains a collection of papers from the special issue on DOM in Freshwater Ecosystems: Nature, Origins and Ecological Significance, published in Vol. 164, Issue 1 (164-1), 2023. of the journal Biogeochemistry. Nutrient flux to fresh waters is increasing globally wherever there is sustained economic development, generating extensive and undesirable impacts on freshwater ecosystems. Dissolved Organic Matter (DOM) is a key component in this flux, yet its nature, origins and ultimate ecological impacts in freshwater ecosystems are poorly understood. Much research is now underway to characterise DOM in fresh waters, to predict its composition relative to contributing sources in the catchment and to determine its likely ecosystem role within receiving waters. This book brings together some of the latest thinking from this research. Itsynthesises the state of the science and the history of the interest in DOM in freshwaters and identifies the novel approaches that allow the molecular scale to be probed. These techniques are applied at scale to reveal how catchments of different character determine the nature and supply of DOM in fresh waters and explores its ecological role and significance. The chapters, “DOM in freshwaters: state of the science and future challenges”, “Characterisation of riverine dissolved organic matter using a complementary suite of chromatographic and mass spectrometric methods”, “Optical quality of dissolved organic matter in throughfall and stemflow varies across tree species and season in a temperateheadwater forest”, “Fingerprinting the elemental composition and chemodiversity of Arctic vegetation leachates: consequences for dissolved organic matter dynamics in Arctic environments”, “Determining patterns in the composition of dissolved organic matter in freshwaters according to land use and management”, “Landscape controls on riverine export of dissolved organic carbon from Great”, “Isotopic evidence for sources of dissolved carbon and the role of organic matter respiration in the Fraser River basin, Canada”, “Dissolved organic nutrients at the interface of fresh and marine waters: flow regime changes, biogeochemical cascades and picocyanobacterial blooms.

AB - This book contains a collection of papers from the special issue on DOM in Freshwater Ecosystems: Nature, Origins and Ecological Significance, published in Vol. 164, Issue 1 (164-1), 2023. of the journal Biogeochemistry. Nutrient flux to fresh waters is increasing globally wherever there is sustained economic development, generating extensive and undesirable impacts on freshwater ecosystems. Dissolved Organic Matter (DOM) is a key component in this flux, yet its nature, origins and ultimate ecological impacts in freshwater ecosystems are poorly understood. Much research is now underway to characterise DOM in fresh waters, to predict its composition relative to contributing sources in the catchment and to determine its likely ecosystem role within receiving waters. This book brings together some of the latest thinking from this research. Itsynthesises the state of the science and the history of the interest in DOM in freshwaters and identifies the novel approaches that allow the molecular scale to be probed. These techniques are applied at scale to reveal how catchments of different character determine the nature and supply of DOM in fresh waters and explores its ecological role and significance. The chapters, “DOM in freshwaters: state of the science and future challenges”, “Characterisation of riverine dissolved organic matter using a complementary suite of chromatographic and mass spectrometric methods”, “Optical quality of dissolved organic matter in throughfall and stemflow varies across tree species and season in a temperateheadwater forest”, “Fingerprinting the elemental composition and chemodiversity of Arctic vegetation leachates: consequences for dissolved organic matter dynamics in Arctic environments”, “Determining patterns in the composition of dissolved organic matter in freshwaters according to land use and management”, “Landscape controls on riverine export of dissolved organic carbon from Great”, “Isotopic evidence for sources of dissolved carbon and the role of organic matter respiration in the Fraser River basin, Canada”, “Dissolved organic nutrients at the interface of fresh and marine waters: flow regime changes, biogeochemical cascades and picocyanobacterial blooms.

M3 - Book

SN - 9783031446917

BT - Dissolved Organic Matter in Freshwater Ecosystems: Nature, Origins and Ecological Significance

PB - Springer

ER -