In this project, we will assess the role of sea ice dynamics on the upper part of the Arctic Ocean energy budget and on primary production using for the first time a Lagrangian sea ice model, neXtSIM, coupled to an ocean -
marine ecosystem model.
Not exact matches
Matyas Ripszam has also examined the effects of higher temperature and different concentration of organic carbon content on the distribution of pollutants in
modelled real - life
marine ecosystems, so called mesocosms.
This
model is widely used by both UK and international groups for research into ocean circulation, climate and
marine ecosystems, and operationally as part of the UK Met Office's weather forecasting.
Obtaining accurate sea surface temperatures is important for a range of applications — from weather prediction to climate
modeling to understanding
marine ecosystem fluctuations.
These
models depict
marine ecosystems at various time periods from 1880 to 2007.
This session examined the biogeochemical processes that are likely to affect the evolution of the Earth system over the coming decades, with a focus on the dynamics of
marine and terrestrial
ecosystems and the development of improved understanding through (a) fieldwork and laboratory experiments, (b) development of new observational datasets, both modern and palaeo, and (c) simulations using numerical
models.
Job Description: We are looking for a Master's level candidate or Postdoc with background in
marine ecosystems and excellent field,
modeling, communication and team - work skills to work towards the improvement of harmful algal blooms detection for user - relevant coastal water monitoring and environmental reporting based on validated Earth Observation and in situ optical data.
The department's main research focus is the investigation and the
modeling of the dynamics of
marine environments /
ecosystems with a focus on the Baltic Sea.
Previously a postdoctoral research associate at the NOAA NEFSC's Woods Hole Laboratory, Fay's research focuses on spatial
modeling and statistical analyses of
marine fisheries populations with an expertise in quantitative fisheries science and
ecosystem modeling.
Marine Biologist Tom Iliffe, also from Texas A&M University at Galveston, said: «Providing a
model for the basic function of this globally - distributed
ecosystem is an important contribution to coastal groundwater ecology and establishes a baseline for evaluating how sea level rise, seaside touristic development and other stressors will impact the viability of these lightless, food - poor systems.»
Marine planktonic
ecosystem dynamics, biogeochemical cycling and ocean - atmosphere - land carbon system, ocean acidification, climate change and ocean circulation, satellite ocean color, air - sea gas exchange, numerical
modeling, data analysis, and data assimilation
His special interest is in Arctic
marine system ecology, C flux in
marine ecosystems and physical - biological coupled
models of primary production.
to Dive conservation and other efforts leading to a healthy
ecosystem at Turneffe Atoll supporting sustainable social and economic benefits for Belize and serving as a
model for similar coastal
marine environments throughout the world.
Approximately 30 miles long and 10 miles across, Turneffe has evolved as a
model coastal
marine ecosystem.
Remote Sensing and Geospatial Analysis,
Marine Conservation,
Ecosystem Services, Time Series Analysis and
Modeling, Ecology
- ARAMATE (The reconstruction of
ecosystem and climate variability in the north Atlantic region using annually resolved archives of
marine and terrestrial
ecosystems)- CLIM - ARCH-DATE (Integration of high resolution climate archives with archaeological and documentary evidence for the precise dating of maritime cultural and climatic events)- CLIVASH2k (Climate variability in Antarctica and Southern Hemisphere in the past 2000 years)- CoralHydro2k (Tropical ocean hydroclimate and temperature from coral archives)- Global T CFR (Global gridded temperature reconstruction method comparisons)- GMST reconstructions - Iso2k (A global synthesis of Common Era hydroclimate using water isotopes)- MULTICHRON (Constraining
modeled multidecadal climate variability in the Atlantic using proxies derived from
marine bivalve shells and coralline algae)- PALEOLINK (The missing link in the Past — Downscaling paleoclimatic Earth System
Models)- PSR2k (Proxy Surrogate Reconstruction 2k)
«We are becoming increasingly certain that the world's
marine ecosystems are reaching tipping points,» Bruno said, adding, «We really have no power or
model to foresee» the impact.
The project at the University of Texas at Austin will develop conceptual and numerical
models to analyze conditions under which gas will be expelled from existing
marine accumulations of gas hydrate into the ocean, which could potentially have a damaging effect to the
ecosystem.
However, these
models do not yet include many processes and reservoirs that may be important, such as peat, buried carbon in permafrost soils, wild fires, ocean eddies and the response of
marine ecosystems to ocean acidification.
He also studies the impact of changes in sea ice on
marine planktonic
ecosystems by developing biophysical
models such as the coupled Biology - Ice - Ocean
Modeling and Assimilation System (BIOMAS).