Sentences with phrase «increases under high temperatures»

In particular, the rate of protein synthesis strongly increases under high temperatures even though the numbers of ribosomes and their associated rRNAs decreases.

More importantly, the new coating's ability to maintain superior adhesion under high temperatures leads to increased building safety for occupants.

Some are more resilient to increased temperatures and might be able to survive and compete under higher future temperatures.

I'm leaving under the tropics where the temperature and humidity are high and i noticed during hots days my heart beat increase a lot.

The increased surface area of the low - temperature radiator provides a 25 percent reduction in intake temperature and guarantees high power and torque output under all operating conditions and regardless of the outside temperature, even when the engine is operating at full load.

The Automatic Differential Brake serves as a transverse lock between the two wheels, and Fading Compensation increasing brake pressure as required under extremely high brake temperatures, helps to maintain the brake forces required even under extreme conditions.

It increases coral survival under higher water temperatures and pollution by 16 to 50 times.

Just like the distributions under Boltzman's laws, the number of detectable states will increase (increased variability) and states characterstic of higher temperature will take an increasing share of the distribution as the temperature rises.

«We also present a set of global vulnerability drivers that are known with high confidence: (1) droughts eventually occur everywhere; (2) warming produces hotter droughts; (3) atmospheric moisture demand increases nonlinearly with temperature during drought; (4) mortality can occur faster in hotter drought, consistent with fundamental physiology; (5) shorter droughts occur more frequently than longer droughts and can become lethal under warming, increasing the frequency of lethal drought nonlinearly; and (6) mortality happens rapidly relative to growth intervals needed for forest recovery.

After observing plants grown in California over 16 years, under altered CO2, nitrogen, temperature and water levels, researchers concluded that only higher nitrogen levels increased plant growth, while higher temperatures hindered the plants.

The project received funding from the Research Council of Norway's NORKLIMA programme.The researchers succeeded in reducing uncertainty around the climatic effects of feedback mechanisms, and their findings indicate a lowered estimate of probable global temperature increase as a result of human - induced emissions of greenhouse gases.The project researchers were able to carry out their calculations thanks to the free use of the high - performance computing facility in Oslo under the Norwegian Metacenter for Computational Science (Notur).

Crop yields are likely to increase at higher latitudes under some scenarios of global average temperature increase - and depending on the crop.

Model projections for precipitation changes are less certain than those for temperature.12, 2 Under a higher emissions scenario (A2), global climate models (GCMs) project average winter and spring precipitation by late this century (2071 - 2099) to increase 10 % to 20 % relative to 1971 - 2000, while changes in summer and fall are not expected to be larger than natural variations.

Even in areas where precipitation does not decrease, these increases in surface evaporation and loss of water from plants lead to more rapid drying of soils if the effects of higher temperatures are not offset by other changes (such as reduced wind speed or increased humidity).5 As soil dries out, a larger proportion of the incoming heat from the sun goes into heating the soil and adjacent air rather than evaporating its moisture, resulting in hotter summers under drier climatic conditions.6

Maps show projected change in average surface air temperature in the later part of this century (2071 - 2099) relative to the later part of the last century (1970 - 1999) under a scenario that assumes substantial reductions in heat trapping gases (B1) and a higher emissions scenario that assumes continued increases in global emissions (A2).

Under «Second law», you will find: «The second law states that spontaneous natural processes increase entropy overall, or in another formulation that heat can spontaneously be conducted or radiated only from a higher - temperature region to a lower - temperature region, but not the other way around.»

The research, led by Australian researchers from the CSIRO and Bureau of Meteorology, predicts that Australia's national average temperature will increase by 2.8 - 5.1 °C by 2090 in a high emissions scenario, compared to 0.6 - 1.7 °C under a low global emissions scenario.

The high winds and low temperatures resulted in a substantial increase in consumer demand for energy, putting the electricity system, in particular, under major additional pressure.

«Climate science» as it is used by warmists implies adherence to a set of beliefs: (1) Increasing greenhouse gas concentrations will warm the Earth's surface and atmosphere; (2) Human production of CO2 is producing significant increases in CO2 concentration; (3) The rate of rise of temperature in the 20th and 21st centuries is unprecedented compared to the rates of change of temperature in the previous two millennia and this can only be due to rising greenhouse gas concentrations; (4) The climate of the 19th century was ideal and may be taken as a standard to compare against any current climate; (5) global climate models, while still not perfect, are good enough to indicate that continued use of fossil fuels at projected rates in the 21st century will cause the CO2 concentration to rise to a high level by 2100 (possibly 700 to 900 ppm); (6) The global average temperature under this condition will rise more than 3 °C from the late 19th century ideal; (7) The negative impact on humanity of such a rise will be enormous; (8) The only alternative to such a disaster is to immediately and sharply reduce CO2 emissions (reducing emissions in 2050 by 80 % compared to today's rate) and continue further reductions after 2050; (9) Even with such draconian CO2 reductions, the CO2 concentration is likely to reach at least 450 to 500 ppm by 2100 resulting in significant damage to humanity; (10) Such reductions in CO2 emissions are technically feasible and economically affordable while providing adequate energy to a growing world population that is increasingly industrializing.

The increased water temperature will cause symbiotic bacteria in corals of the Great Barrier Reef to produce toxically high levels of oxygen, which will kill colonies of coral that are centuries or even millennia old and occupy the equivalent of Japan's landmass under water.

In considering the full range of IPCC scenarios, global net emissions would need to begin in approximately 2070 under scenarios seeking to keep temperature increases at the possible lowest levels, and progressively later for high - temperature stabilization levels;

The frequency and intensity of forest fires in the region have been increasing along with rising temperatures.5, 7,13 An average of around 9.9 million acres (4 million hectares) of boreal forest burned annually in Russia from 1975 to 2005 — and that rate more than doubled in the 1990s.15 One of West Siberia's largest forest fires on record occurred in 2003, claiming some 47 million acres (20 million hectares) of land7, 15 and emitting heat - trapping emissions equal to the total cuts in emissions the European Union pledged under the Kyoto Protocol.2, 7,16 Higher temperatures and thawing permafrost are probably contributing to the rising frequency and severity of forest fires in West Siberia.5, 7,14

«Our findings do not contradict the main conclusions of the IPCC on impacts, adaptation and vulnerability related to climate change... The negative impacts under unmitigated climate change in the future pose substantial risks to most parts of the world, with risks increasing at higher global average temperatures.»

All of these studies, as well as our more recent ones, include the moderating effect of atmospheric stabilization aloft under high CO2 conditions, rather than simply increasing the sea surface temperature alone.