Sentences with phrase «global scale dynamics»

It is possible with a handful of equations to capture those key global scale dynamics and to use them

«The enlarged group would be geographically diversified with a large portfolio of businesses across both regulated and developing markets, with the scale and resources to address the dynamics of a rapidly changing global industry.»

Sentinel - 3 measurements like this will be used to monitor and understand large - scale global dynamics and provide critical information for ocean and weather forecasting.

«NASA is at the forefront of the scientific investigation of the dynamics of the Earth's climate on a global scale,» said John Grunsfeld, associate administrator for the Science Mission Directorate at NASA Headquarters in Washington.

We demonstrate that influenza evolution within infected humans recapitulates many evolutionary dynamics observed at the global scale.

Such efforts have revealed more global dynamics, such as CO dissociation from myoglobin, but without atomic - scale resolution.

Building on his investigations into consciousness and social dynamics, Lutyens has worked on large - scale projects that involve broad, global surroundings.

We emphasize the importance of considering methane dynamics at all scales, especially its production and consumption and the role microorganisms play in both these processes, to our understanding of current and future global methane emissions.

A very consistent understanding is thus emerging of the coupled ocean and atmosphere dynamics that have caused the recent decadal - scale departure from the longer - term global warming trend.

Whether the activity of TCs (TC - scale dynamics and cumulus convection together) is determined by the global climatic condition (SST, atmospheric composition and general circulation).

This line from the 2007 report's chapter on human health is about as straightforward as any language can be: «Despite the known causal links between climate and malaria transmission dynamics, there is still much uncertainty about the potential impact of climate change on malaria at local and global scales.»

Syllabus: Lecture 1: Introduction to Global Atmospheric Modelling Lecture 2: Types of Atmospheric and Climate Models Lecture 3: Energy Balance Models Lecture 4: 1D Radiative - Convective Models Lecture 5: General Circulation Models (GCMs) Lecture 6: Atmospheric Radiation Budget Lecture 7: Dynamics of the Atmosphere Lecture 8: Parametrizations of Subgrid - Scale Physical Processes Lecture 9: Chemistry of the Atmosphere Lecture 10: Basic Methods of Solving Model Equations Lecture 11: Coupled Chemistry - Climate Models (CCMs) Lecture 12: Applications of CCMs: Recent developments of atmospheric dynamics and chemistry Lecture 13: Applications of CCMs: Future Polar Ozone Lecture 14: Applications of CCMs: Impact of Transport Emissions Lecture 15: Towards an Earth System Model

The latest assessment of the Intergovernmental Panel on Climate Change noted these concerns: «Despite the known causal links between climate and malaria transmission dynamics, there is still much uncertainty about the potential impact of climate change on malaria at local and global scales.»

The demonstrated ability of GRACE to measure interannual OBP variability on a global scale is unprecedented and has important implications for assessing deep ocean heat content and ocean dynamics.

However, global - scale vegetation model development has strongly focused on productivity processes whereas, apart from major disturbances such as fire, the dynamics of carbon turnover have been largely ignored.

Climate at the regional or global scale is often presumed to be responsible for these changes (5 ⇓ ⇓ ⇓ ⇓ ⇓ ⇓ ⇓ ⇓ — 14), with surprisingly little attention being paid to the possible effects of endogenous processes despite the fact that competition is often an important force driving stand dynamics and succession (15 ⇓ ⇓ — 18).

Further investigation using high - resolution modeling approaches that better resolve the boundary conditions and fine - scale physical processes (44 ⇓ — 46) and / or using analyses that focus on the underlying large - scale climate dynamics of individual extreme events (8) could help to overcome the limitations of simulated precipitation and temperature in the current generation of global climate models.

Although we can not establish a clear connection between SAA dynamics and global warming, the strong correlation between the former and global sea level supports the idea that global warming may be at least partly controlled by deep Earth processes triggering geomagnetic phenomena, such as the South Atlantic Anomaly, on a century time scale.