Sentences with phrase «cycle account for changes»

The great victory of the Federal Reserve in the half - cycle since 2009 was not ending the global financial crisis; the crisis actually ended in March 2009 with the stroke of a pen that changed accounting rule FAS157 and eliminated mark - to - market accounting for banks (instantly removing the specter of widespread insolvencies by allowing «significant judgment» in valuing distressed assets).

And that's before accounting for some of the factors that the model doesn't consider: the disagreement in the polls, the unusual nature of Trump's candidacy and the demographic changes it is producing, Clinton's superior turnout operation, the possibility of «shy Trump» voters, the fact that the news cycle is still somewhat fluid headed into the final weekend, the declining response rates to polls, and the substantial number of high - profile polling misses around the world over the past few years.

Land use change should be sustainable The research team points out that the study's results offer a scientific basis for a sustainable landscape planning and management which takes into account the water cycle of the respective regions.

Taking all this data, and data from the body of research as a whole, there are clear differences in female and male physioligy and accounting for the hormonal changes in the female cycle is probably a good idea when trying to optimize performance and weight loss.

Throughout the business cycle we are constantly updating our financial models to account for changes in the probability of tail risk events and other inefficiencies that might alter how our clients perceive risk.

Interest rates are also posted on Account detail pages; for these pages, any changes to interest rates are updated in the nightly processing cycle on the effective date of the change.

Therefore, it is logical to rebalance portfolios over the course of the business cycle to account for these changing risks.

In other words, traditional portfolio theory does not account for the dynamism of the business cycle which results in portfolios that do not properly account for changing risks during the course of the cycle.

They include: a married person filing separately with a spouse who is itemizing; a person who is classified as a nonresident alien; and a person who has changed his accounting cycle and is not filing for a full 12 - month period.

Although the primary driver of glacial — interglacial cycles lies in the seasonal and latitudinal distribution of incoming solar energy driven by changes in the geometry of the Earth's orbit around the Sun («orbital forcing»), reconstructions and simulations together show that the full magnitude of glacial — interglacial temperature and ice volume changes can not be explained without accounting for changes in atmospheric CO2 content and the associated climate feedbacks.

By comparing modelled and observed changes in such indices, which include the global mean surface temperature, the land - ocean temperature contrast, the temperature contrast between the NH and SH, the mean magnitude of the annual cycle in temperature over land and the mean meridional temperature gradient in the NH mid-latitudes, Braganza et al. (2004) estimate that anthropogenic forcing accounts for almost all of the warming observed between 1946 and 1995 whereas warming between 1896 and 1945 is explained by a combination of anthropogenic and natural forcing and internal variability.

However, many other scientists are sceptical that CO2 - fertilisation could be strong enough to account for around 2 billion tonnes of carbon per year.Feedbacks involving different components of the carbon cycle - and climate change itself - will affect how CO2 levels respond to man - made emissions.

Natural cycles driven largely by the sun and complex systems of forcings and feedbacks account for such changes.

«The results also show that ionisation of the atmosphere by cosmic rays accounts for nearly one - third of all particles formed, although small changes in cosmic rays over the solar cycle do not affect aerosols enough to influence today's polluted climate significantly.»

If the temperature change is greater than can be accounted for by Earth's nearing the sun during the Milankovitch cycle, then something else must be contributing to the warming.

The BEST team found that greenhouse gases and volcanic eruptions could account for most of the observed temperature change, and suggest that the remainder of the variability is fairly consistent with the Atlantic Multidecadal Oscillation (AMO), an ocean cycle, and very little contribution from changes in solar activity (Figure 2).

Until the global average chimera accurately accounts for the effects from landscape changes, natural cycles, and statistical homogenization procedures, the global average temperature will never be a reliable indicator of the earth's sensitivity to CO2.

Svensmark demonstrated the amplification possible from cosmic rays and cloud formation changing the Albedo by more than enough to account for any observed temperature change over the past 150 years and other cycles come into play for the longer period global temperature variations.

I say my conclusion was «not unreasonable» because Dr. Scafetta, in a posting at WattsUpWithThat today, has also concluded that, once the natural 60 - year cycles of the great ocean oscillations are accounted for (and it may be these cycles that express themselves in changes in cloud cover such as that which Dr. Pinker had identified), the anthropogenic component in global warming is considerably less than the IPCC imagines.

The most likely candidate for that climatic variable force that comes to mind is solar variability (because I can think of no other force that can change or reverse in a different trend often enough, and quick enough to account for the historical climatic record) and the primary and secondary effects associated with this solar variability which I feel are a significant player in glacial / inter-glacial cycles, counter climatic trends when taken into consideration with these factors which are, land / ocean arrangements, mean land elevation, mean magnetic field strength of the earth (magnetic excursions), the mean state of the climate (average global temperature), the initial state of the earth's climate (how close to interglacial - glacial threshold condition it is) the state of random terrestrial (violent volcanic eruption, or a random atmospheric circulation / oceanic pattern that feeds upon itself possibly) / extra terrestrial events (super-nova in vicinity of earth or a random impact) along with Milankovitch Ccycles, counter climatic trends when taken into consideration with these factors which are, land / ocean arrangements, mean land elevation, mean magnetic field strength of the earth (magnetic excursions), the mean state of the climate (average global temperature), the initial state of the earth's climate (how close to interglacial - glacial threshold condition it is) the state of random terrestrial (violent volcanic eruption, or a random atmospheric circulation / oceanic pattern that feeds upon itself possibly) / extra terrestrial events (super-nova in vicinity of earth or a random impact) along with Milankovitch CyclesCycles.

It seems pretty much accounted for by a combination of solar cycle and net toa radiant flux changes.

Since such models can not account for the climate system's apparent sensitivity to small perturbations in solar energy apparently brought about by the very long term changes in the Earth's orbit about the Sun, they may also underestimate climate sensitivity to energy output fluctuations caused by solar activity, even during the eleven - year Schwabe cycle.

The forcing from changes in total solar irradiance alone does not seem to account for these observations, implying the existence of this unknown amplifying mechanism.The cosmic ray - ionization mechanism is too weak to influence global concentrations of CCN or their change over the last century or during a solar cycle in any climatically significant way.

Although natural events like the solar cycle alter climate, these occurrences alone can not account for the rate of change that scientists see today.

A panel discussion brought together intergovernmental organizations, national and local government and the private sector to discuss how climate change impacts will be mostly felt on the water cycle, therefore existing water laws, transboundary agreements, water rights or concessions for water abstraction might need to be revisited and made more flexible to take into account the increasing variability in water availability.

Variations in ocean circulation speeds account for significant instances of climate change, changing the hydrological cycle and altering atmospheric circulation patterns as well.

An effective accounting system will not only need to be robust enough to encompass the fuel life cycle, but also address uncertainties and allow for changes over time as better assessment tools and methods become available.

Features of the ocean - carbon cycle that we did not account for may also be changing and could influence ocean carbon uptake in the future.

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For example, the hierarchical organisation should be flexible so that it can adapt to take account of a concurrent disability of one parent and so that the balance between enmeshment and disengagement can vary in response to changes within its developmental life cycle.