This document lists publications by K. Edelvang including 20 peer-reviewed papers on topics related to monitoring phytoplankton, modeling suspended sediment transport, and material transport from nearshore to basinal environments. It also lists 5 monographs on climate change impacts, rising sea levels, and the significance of aggregation in estuarine environments. Additional publications include book chapters, reports, and newspaper articles on Arctic strategy, Greenland ice melt, and potential climate change impacts on marine life.
Dr. Jack Morgan - Grazinglands and Global Climate Change: What is the Science...John Blue
Grazinglands and Global Climate Change: What is the Science Telling Us? - Dr. Jack Morgan, USDA/ARS, from the 2012 Annual Conference of the National Institute for Animal Agriculture, March 26 - 29, Denver, CO, USA.
More presentations at: http://www.trufflemedia.com/agmedia/conference/2012-decreasing-resources-increasing-regulation-advance-animal-agriculture
Talk on
Responses of fish populations to climate forcing across the North Atlantic
in the session
Comparative studies of North Atlantic ecosystems
at the conference
2nd GLOBEC Open Science Meeting Comparative Ecosystems and Climate Change 15-18 October 2002, Qingdao, P. R. China
Interpreting Climate Data - Analysing climate vulnerability- online training ...Vestlandsforsking WRNI
Interpreting Climate Data
This module provides an introduction to climate data and how to effectively use it. The following will be covered:
How regionalised climate data is produced
How to understand and interpret regionalised climate data
How to identify and communicate uncertainties
Environmental effects on fish populations: Some principles, some examples, and comparisons between large ecosystems from the Mediterranean to the Barents Sea
Dr. Jack Morgan - Grazinglands and Global Climate Change: What is the Science...John Blue
Grazinglands and Global Climate Change: What is the Science Telling Us? - Dr. Jack Morgan, USDA/ARS, from the 2012 Annual Conference of the National Institute for Animal Agriculture, March 26 - 29, Denver, CO, USA.
More presentations at: http://www.trufflemedia.com/agmedia/conference/2012-decreasing-resources-increasing-regulation-advance-animal-agriculture
Talk on
Responses of fish populations to climate forcing across the North Atlantic
in the session
Comparative studies of North Atlantic ecosystems
at the conference
2nd GLOBEC Open Science Meeting Comparative Ecosystems and Climate Change 15-18 October 2002, Qingdao, P. R. China
Interpreting Climate Data - Analysing climate vulnerability- online training ...Vestlandsforsking WRNI
Interpreting Climate Data
This module provides an introduction to climate data and how to effectively use it. The following will be covered:
How regionalised climate data is produced
How to understand and interpret regionalised climate data
How to identify and communicate uncertainties
Environmental effects on fish populations: Some principles, some examples, and comparisons between large ecosystems from the Mediterranean to the Barents Sea
This is a pdf. due to file size we are not able to upload the PowerPoint presentation you can email info@thecccw.org.uk for a copy which includes video clips
IPCC 2013 report on Climate Change - The Physical BasisGreenFacts
"Climate Change 2013: The Physical Science Basis" is a comprehensive assessment of the physical aspects of climate change, which puts a focus on the elements that are relevant to understand past, document current, and project future climate change.
The report covers observations of changes in all components of the climate system and assess the current knowledge of various processes of the climate system.
Direct global-scale instrumental observation of the climate began in the middle of the 19th century, and reconstruction of the climate using proxies such as tree rings or the content of sediment layers extends the record much further in the past.
The present assessment uses a new set of new scenarios to explore the future impacts of climate change under a range of different possible emission pathways.
impactos del cambio climatico en ecosistemas costerosXin San
Anthropogenically induced global climate change has profound implications for marine
ecosystems and the economic and social systems that depend upon them. The
relationship between temperature and individual performance is reasonably well
understood, and much climate-related research has focused on potential shifts in
distribution and abundance driven directly by temperature. However, recent work has
revealed that both abiotic changes and biological responses in the ocean will be
substantially more complex. For example, changes in ocean chemistry may be more
important than changes in temperature for the performance and survival of many
organisms. Ocean circulation, which drives larval transport, will also change, with
important consequences for population dynamics. Furthermore, climatic impacts on one
or a few leverage species may result in sweeping community-level changes. Finally,
synergistic effects between climate and other anthropogenic variables, particularly fishing
pressure, will likely exacerbate climate-induced changes. Efforts to manage and conserve
living marine systems in the face of climate change will require improvements to the
existing predictive framework. Key directions for future research include identifying key
demographic transitions that influence population dynamics, predicting changes in the
community-level impacts of ecologically dominant species, incorporating populations
ability to evolve (adapt), and understanding the scales over which climate will change and
living systems will respond.
Kim Cobb's Borneo stalagmite talk - AGU 2015Kim Cobb
This talk presents the latest results from the Borneo stalagmite project that seeks to reconstruct Western tropical Pacific hydrology over the last half million years. We discuss our results in the context of climate forcing, the El Nino-Southern Oscillation, and climate modeling studies.
Within the next 50–100 years, the warming climate will have major effects on boreal and northern hardwood forests situated near the prairie–forest border of central North America.
This biome boundary shifted to the northeast
during past episodes of global warming, and is expected to do so again. The climate of the future will likely lead to higher mortality among mature trees, due to the greater frequency of droughts, fires, forest-leveling windstorms, and outbreaks of native and exotic insect pests and diseases. In addition, increasing populations of native deer and European earthworm invasions will inhibit the establishment of tree seedlings. The expected net impact of these factors will be a “savannification” of the forest, due to loss of adult trees at a rate faster than that at which
they can be replaced. This will cause a greater magnitude and more rapid northeastward shift of the prairie–forest
border, as compared with a shift solely attributable to the direct effects of temperature change.
Climate Change and Biodiversity: Implications for Bay Area Conservation by Da...OpenSpaceCouncil
On November 10, 2010 the Bay Area Open Space Council convened a workshop at the Gordon & Betty Moore Foundation to discuss climate change and its impacts on land conservation.
Dr. David Ackerly from UC Berkeley presented on "Climate Change and Biodiversity: Implications for Bay Area Conservation."
Read more about the event here: http://openspacecouncil.org/blog/by-guest-blogger-kelly-cash-on-the-morning-of-the-day-that-the-san-francisco-giants-would-win-the-world-series-in-the-evenin/
See photos from the event here: https://www.flickr.com/photos/openspacecouncil/sets/72157625226473375/
This is a pdf. due to file size we are not able to upload the PowerPoint presentation you can email info@thecccw.org.uk for a copy which includes video clips
IPCC 2013 report on Climate Change - The Physical BasisGreenFacts
"Climate Change 2013: The Physical Science Basis" is a comprehensive assessment of the physical aspects of climate change, which puts a focus on the elements that are relevant to understand past, document current, and project future climate change.
The report covers observations of changes in all components of the climate system and assess the current knowledge of various processes of the climate system.
Direct global-scale instrumental observation of the climate began in the middle of the 19th century, and reconstruction of the climate using proxies such as tree rings or the content of sediment layers extends the record much further in the past.
The present assessment uses a new set of new scenarios to explore the future impacts of climate change under a range of different possible emission pathways.
impactos del cambio climatico en ecosistemas costerosXin San
Anthropogenically induced global climate change has profound implications for marine
ecosystems and the economic and social systems that depend upon them. The
relationship between temperature and individual performance is reasonably well
understood, and much climate-related research has focused on potential shifts in
distribution and abundance driven directly by temperature. However, recent work has
revealed that both abiotic changes and biological responses in the ocean will be
substantially more complex. For example, changes in ocean chemistry may be more
important than changes in temperature for the performance and survival of many
organisms. Ocean circulation, which drives larval transport, will also change, with
important consequences for population dynamics. Furthermore, climatic impacts on one
or a few leverage species may result in sweeping community-level changes. Finally,
synergistic effects between climate and other anthropogenic variables, particularly fishing
pressure, will likely exacerbate climate-induced changes. Efforts to manage and conserve
living marine systems in the face of climate change will require improvements to the
existing predictive framework. Key directions for future research include identifying key
demographic transitions that influence population dynamics, predicting changes in the
community-level impacts of ecologically dominant species, incorporating populations
ability to evolve (adapt), and understanding the scales over which climate will change and
living systems will respond.
Kim Cobb's Borneo stalagmite talk - AGU 2015Kim Cobb
This talk presents the latest results from the Borneo stalagmite project that seeks to reconstruct Western tropical Pacific hydrology over the last half million years. We discuss our results in the context of climate forcing, the El Nino-Southern Oscillation, and climate modeling studies.
Within the next 50–100 years, the warming climate will have major effects on boreal and northern hardwood forests situated near the prairie–forest border of central North America.
This biome boundary shifted to the northeast
during past episodes of global warming, and is expected to do so again. The climate of the future will likely lead to higher mortality among mature trees, due to the greater frequency of droughts, fires, forest-leveling windstorms, and outbreaks of native and exotic insect pests and diseases. In addition, increasing populations of native deer and European earthworm invasions will inhibit the establishment of tree seedlings. The expected net impact of these factors will be a “savannification” of the forest, due to loss of adult trees at a rate faster than that at which
they can be replaced. This will cause a greater magnitude and more rapid northeastward shift of the prairie–forest
border, as compared with a shift solely attributable to the direct effects of temperature change.
Climate Change and Biodiversity: Implications for Bay Area Conservation by Da...OpenSpaceCouncil
On November 10, 2010 the Bay Area Open Space Council convened a workshop at the Gordon & Betty Moore Foundation to discuss climate change and its impacts on land conservation.
Dr. David Ackerly from UC Berkeley presented on "Climate Change and Biodiversity: Implications for Bay Area Conservation."
Read more about the event here: http://openspacecouncil.org/blog/by-guest-blogger-kelly-cash-on-the-morning-of-the-day-that-the-san-francisco-giants-would-win-the-world-series-in-the-evenin/
See photos from the event here: https://www.flickr.com/photos/openspacecouncil/sets/72157625226473375/
Nanotechnologies promise new solutions for several applications in biomedical, industrial
and military fields. At nano-scale, a nano-machine can be considered as the most basic functional
unit. Nano-machines are tiny components consisting of an arranged set of molecules,
which are able to perform very simple tasks. Nanonetworks.
DETERMINATION OF HEAT TRANSFER COEFFICIENT OF BRAKE ROTOR DISC USING CFD SIMU...IAEME Publication
During engagement of clutches when vehicle is started or during engagement of clutch when vehicle is in motion, the friction clutch generates chatter or also called as Judder vibrations. The vibrational behaviour of friction clutches not only affects the dynamics of transmission system but also the vehicle as result of excitation transfer to body via suspensions and mountings. If excitation level is high then it may cause discomfort to passengers. In addition to those effects vibrations generated may cause wear of friction material and thereby reducing performance and life of clutches.
THE VARIATION IN PHYSICAL PROPERTIES AFFECTS THE VERTICAL COMPRESSIVE STRENGT...IAEME Publication
The present work was undertaken to determine the physical properties i.e. mass, sphericity, surface area, total surface volume changes the compressive strength of bead. The vertical compressive strength of beads was monitored under compression mode. Results showed that the compressive strength was increasing with small variations in geometrical parameters of bead. The range of compressive strength was found between 0.36 MPa to 0.80 MPa (N/mm2), and it was also observed that compressive strength increasing with incremental change in total surface volume and mass, but decreases with increase in cortical thickness.
A summary of key findings from the IPCC 5th Assessment Report by Anne Hollowed, Alaska Fisheries Science Center, USA
SICCME open session, 17 September 2014, ICES Annual Science Conference, A Coruña, Spain
Scientific talk on effects of climate variation and young fish
- general ideas about climate effects on marine ecosystems
- variations in temperature-zooplankton-North Sea cod
- spatial population structure and detecting climate effects
1. List of publications
Peer reviewed papers:
Dirk van As, Robert S. Fausto Andreas P. Ahlstrøm, Signe B. Andersen, Morten L. Andersen, Michele
Citterio, Karen Edelvang, Peter Gravesen, Horst Machguth, Faezeh M. Nick, Søren Nielsen and Anker
Weidick “Programme for Monitoring of the Greenland Ice Sheet (PROMICE): first temperature and ablation
records. GEUS Review of Survey activities 2010, p73-76
Edelvang K, Kaas H, Erichsen AC, Alvarez-Berastegui D, Bundgaard K and Jørgensen PV (2005).
Monitoring Phytoplankton in Danish Coastal Waters – An operational approach based on 3D modelling and
remote sensing. Journal of Marine Systems Vol. 57, p 13-29.
Edelvang K, Lund-Hansen L C, Christiansen C, Svenstrup Petersen O, Laima M & Berastegui D A (2002)
"Modelling of suspended matter transport from the Oder River". Journal of Coastal Research, Vol. 18, No. 1,
pp 62-74.
Christiansen C, Edelvang K, Emeis K, Graf G, Jähmlich S, Kozuch J Laima M, Leipe T, Löffler A, Lund-
Hansen LC, Miltner A, Pazdro K, Pempkowiak J, Shimmield G, Shimmield T, Smith J, Voss M and Witt G
(2002). Material transport from the nearshore to the basinal environment in the Southern Baltic Sea, I:
Processes and mass estimates. Journal of Marine Systems Vol. 35, p 133-150.
Emeis K, Christiansen C, Edelvang K, Jähmlich S, Kozuch J Laima M, Leipe T, Löffler A, Lund-Hansen LC,
Miltner A, Pazdro K, Pempkowiak J, Pollehne F, Shimmield T, Voss M and Witt G (2002). Material transport
from the nearshore to the basinal environment in the Southern Baltic Sea, II: Synthesis of data on origin and
properties of material. Journal of Marine Systems Vol. 35, p 151-168.
Edelvang, K., Erichsen, A., Gustavson, K., Bundgaard, K. and Dahl-Madsen, K.I. (2001) “The Change in
Primary Production of Danish Coastal Waters”. In: Jørgensen, A.M., Fenger, J., Halsnæs, K. (Eds.) Climate
Change Research - Danish Contributions. Danish Climate Centre, pp 277-291.
Jørgensen PV & Edelvang K (1999) CASI data utilized for mapping suspended matter concentrations in
sediment plumes and verification of 2-D hydrodynamic modeling. International Journal of Remote Sensing Vol.
21, No. 11, pp 2247-2258.
Edelvang K (1999) In situ settling velocities and concentrations of suspended sediment in spill plumes,
Øresund, Denmark. In Vollmer M (ed) Large scale constructions in coastal environments. Springer Verlag,
pp 181-89.
Austen I, Andersen T & Edelvang K (1999) “The influence of benthic diatoms and invertebrates on the
erodibility of an intertidal mud flat, the Danish Wadden Sea”. Estuarine, Coastal and Shelf Science 49, p 99-
111.
Edelvang K (1997) "Tidal variation of settling diameters on a mud tidal flat." Helgoländer Meeresunter-
suchungen 51, pp 269-279.
Edelvang K & Austen I (1997) "The temporal variation of flocs and fecal pellets in a tidal channel." Estuarine,
Coastal and Shelf Science 44, pp 361-367.
Pejrup M, Larsen M and Edelvang K (1997) "A fine-grained sediment budget for the Sylt-Rømø tidal area."
Helgoländer Meeresuntersuchungen 51, pp 253-268.
Edelvang K (1996) "A study of the significance of flocculation for the in situ settling velocities of sus pended
particles in a tidal channel." Archives of Hydrobiology Special Issues. Advances in Limnology 47, p 461-467.
2. Pejrup M & Edelvang K (1996) "Measurements of field settling velocities in the Elbe estuary.” Journal of Sea
Research 36 (1/2), pp 109-113.
Larsen M, Pejrup M and Edelvang K (1996) "A fine-grained sediment budget for a small tidal area, Königs-
hafen, Sylt, Germany." Geografisk Tidsskrift 1996, pp 1-10.
Edelvang K, Larsen M & Pejrup M (1992) "Tidal Variation in Field Settling Velocities of Suspended Sediment
in a Tidal Channel." Geografisk Tidsskrift 92, pp 116-121.
Monographies:
Edelvang, K. (2006) “Klimaforandringer, natur, mennesker og samfund”. Vand og vejr om 100 år.
Søndergaard, M., Kronvang, B., Pejrup, M. og Sand-Jensen, K. (eds.). Forlaget Hovedland. ISBN 87-7739-
889-0. p 122-135.
Når havet stiger. – nyt klima – nyt liv? Rapport fra to scenarieværksteder afholdt i februar 2004.
Teknologirådet - i samarbejde med en planlægningsgruppe.ISBN: 87-90221-90. Rapporten kan downloades
på Teknologirådets hjemmeside www.tekno.dk.
Edelvang K (1995) "The significance of aggregation in an estuarine environment." Geographica Hafniensia
A5 ISBN 87-87945-18-5, pp 105 (PhD afhandling).
Edelvang K & Larsen M (1995) "The flocculation of fine-grained sediment in the estuary of Ho Bugt,
Denmark." Folia Geographica Danica, ISBN 87-7421-930-8, pp 120.
Other:
Andersen, N.O., Fejerskov, O., Nosch, M.L., Qvortrup, L., Østergård, L. Andersen, O.S., Edelvang, K.,
Staunstrup, J., ”En ny strategi for Arktis”. Kronik i Politiken 22. august 2011.
http://politiken.dk/debat/kroniker/ECE1367279/en-ny-strategi-for-arktis/
Edelvang, K., Ahlstrøm, A. og Andersen, S.B. “Indlandsisen smelter og så stiger havet”. Kronik i Ingeniøren
4. november 2011. http://ing.dk/artikel/123612-indlandsisen-smelter-og-saa-stiger-havet
Gustavson K., Buch E., Dahl K., Middelboe A-L., Borum J., MacKenzie B.R., Vissen A.W., Møhlenberg F.,
Eriksen A., Edelvang K., Bundgaard K., Garde K. og Wängberg S-Å (2001) “Klimaændringer og mulige
effekter på dyre- og plantelivet i danske farvande”. Skov- og Naturstyrelsen Rapport.
Edelvang K (1995) "Mississippi - flod og slette." Geography book in Danish for 6th-10th grade, Book No. 1 in
the series "The USA Library" (USA-biblioteket), Munksgaard, ISBN 87-16-11410-8, pp 80.
1 April 2015