D-Index & Metrics Best Publications

Pamela S. Naden

University of Leeds
United Kingdom

D-Index & Metrics D-index (Discipline H-index) only includes papers and citation values for an examined discipline in contrast to General H-index which accounts for publications across all disciplines.

Discipline name Citations Publications World Ranking National Ranking

Earth Science D-index 32 Citations 4,323 91 World Ranking 5689 National Ranking 603

Overview

What is she best known for?

The fields of study she is best known for:

Agriculture
Hydrology
Drainage basin

Pamela S. Naden focuses on Hydrology, Sediment, Drainage basin, Water quality and Hydrology. In her articles, Pamela S. Naden combines various disciplines, including Hydrology and Context. Her research in Sediment intersects with topics in Aquatic ecosystem and Environmental resource management.

Her work on Hydrograph as part of her general Drainage basin study is frequently connected to Frequency, Frequency distribution and Limit, thereby bridging the divide between different branches of science. Her work is dedicated to discovering how Hydrology, Suspended solids are connected with Current and other disciplines. Her studies deal with areas such as Sustainability and Water resources as well as Deposition.

Her most cited work include:

The impacts of fine sediment on riverine fish (307 citations)
THE IMPACT OF FINE SEDIMENT ON MACRO-INVERTEBRATES (257 citations)
Trends in Dissolved Organic Carbon in UK Rivers and Lakes (229 citations)

What are the main themes of her work throughout her whole career to date?

Her primary areas of study are Hydrology, Sediment, Hydrology, Drainage basin and Water quality. Pamela S. Naden studies Hydrology, focusing on STREAMS in particular. Pamela S. Naden interconnects Organic matter, Aquatic ecosystem, Biota, Benthic zone and Erosion in the investigation of issues within Sediment.

Her study in Hydrology is interdisciplinary in nature, drawing from both Pollutant, Climate change, Slurry, Drainage and Nitrate. Her Drainage basin study combines topics from a wide range of disciplines, such as Freshwater fish, Storm, Agriculture and Fluvial. Her Water quality research is multidisciplinary, incorporating elements of Suspended solids, Water pollution, Tributary, Pollution and Water resources.

She most often published in these fields:

Hydrology (54.08%)
Sediment (32.65%)
Hydrology (25.51%)

What were the highlights of her more recent work (between 2012-2021)?

Hydrology (54.08%)
Sediment (32.65%)
Drainage basin (19.39%)

In recent papers she was focusing on the following fields of study:

Her primary scientific interests are in Hydrology, Sediment, Drainage basin, Hydrology and Water quality. Her research in Hydrology intersects with topics in Nutrient, Vegetation and Chemical oxygen demand. Her Sediment research incorporates themes from Spawning habitat, Habitat, Aquatic ecosystem, Biota and Benthic zone.

Her studies examine the connections between Drainage basin and genetics, as well as such issues in Organic matter, with regards to Range, Salmo, Geologic Sediments, Trout and Brown trout. Within one scientific family, Pamela S. Naden focuses on topics pertaining to Sewage treatment under Hydrology, and may sometimes address concerns connected to Water pollution, Tributary and Growing season. Her Water quality study combines topics in areas such as Erosion, Pollution and Water resources.

Between 2012 and 2021, her most popular works were:

Understanding the controls on deposited fine sediment in the streams of agricultural catchments (54 citations)
Identifying priorities for nutrient mitigation using river concentration–flow relationships: The Thames basin, UK (54 citations)
Interactions between diatoms and fine sediment (54 citations)

In her most recent research, the most cited papers focused on:

Agriculture
Hydrology
Drainage basin

The scientist’s investigation covers issues in Hydrology, Sediment, Drainage basin, Benthic zone and Hydrology. Hydrology connects with themes related to Nitrate in her study. Pamela S. Naden frequently studies issues relating to Erosion and Sediment.

Her studies deal with areas such as Organic matter, Benthos, Salmonidae, Vegetation and Environmental monitoring as well as Drainage basin. Her Benthic zone research incorporates elements of Macrophyte, Habitat, Food chain, Siltation and Diatom. As part of the same scientific family, Pamela S. Naden usually focuses on Hydrology, concentrating on Sewage treatment and intersecting with Water Framework Directive, Water pollution and Pollutant.

This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.

Best Publications

The impacts of fine sediment on riverine fish

Paul Kemp;David Sear;Adrian Collins;Pamela Naden.
Hydrological Processes (2011)

548 Citations

THE IMPACT OF FINE SEDIMENT ON MACRO-INVERTEBRATES

J. I. Jones;J. F. Murphy;A. L. Collins;A. L. Collins;D. A. Sear.
River Research and Applications (2012)

439 Citations

Trends in Dissolved Organic Carbon in UK Rivers and Lakes

Fred Worrall;Ron Harriman;Chris D. Evans;Carol D. Watts.
Biogeochemistry (2004)

300 Citations

Flood frequency estimation by continuous simulation for a gauged upland catchment (with uncertainty)

D.S Cameron;K.J Beven;J Tawn;S Blazkova.
Journal of Hydrology (1999)

268 Citations

The relationship between fine sediment and macrophytes in rivers

J.I. Jones;A.L. Collins;A.L. Collins;P.S. Naden;D.A. Sear.
River Research and Applications (2012)

195 Citations

Flood frequency estimation by continuous simulation under climate change (with uncertainty)

D. Cameron;D. Cameron;K. Beven;P. Naden.
Hydrology and Earth System Sciences (2000)

183 Citations

Sediment targets for informing river catchment management: international experience and prospects

A L Collins;A L Collins;P S Naden;D A Sear;J I Jones.
Hydrological Processes (2011)

133 Citations

The influence of macrophyte growth, typical of eutrophic conditions, on river flow velocities and turbulence production

Pamela Naden;Ponnambalam Rameshwaran;Owen Mountford;Coralie Robertson.
Hydrological Processes (2006)

108 Citations

Processes affecting transfer of sediment and colloids, with associated phosphorus, from intensively farmed grasslands: an overview of key issues

P.M Haygarth;G.S Bilotta;R. Bol;R.E Brazier.
Hydrological Processes (2006)

103 Citations

Effects of storm events on mobilisation and in-stream processing of dissolved organic matter (DOM) in a Welsh peatland catchment.

Kari Austnes;Kari Austnes;Christopher D. Evans;Caroline Eliot-Laize;Pamela S. Naden.
Biogeochemistry (2010)

98 Citations

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