Not exact matches
Whitworth
predicts bee populations will continue to experience cycles of increase and
decrease because of fluctuations
in agriculture prices and year - round
temperatures.
The Warming Meadow's radiators raise average soil
temperatures by about three degrees Fahrenheit,
decrease growing season soil moisture by up to twenty percent and advance the spring snowmelt date by up to a month
in order to simulate
predicted effects of climate change.
Those simulations matched historical data until 1970; after that, the simulations
predicted temperatures to keep increasing, rather than
decreasing as they did
in reality.
In one experiment, rats received
temperature and barometric pressure information and were able to combine information with the other rats to
predict an increased or
decreased chance of rain.
These Equations, IF CORRECT, will
predict the commencement of glaciation
in Antarctica, and the progressive increase
in Glaciation as Surface Pressures
decrease, and Surface
Temperatures decrease with elapsed time
in million year increments.
The GISS climate model (Hansen et al., 1992) did quite well
in predicting the
decrease in global
temperature (and increase
in stratospheric warming), and the subsequent recovery to normal, due to the 1991 Pinatubo volcanic eruption.
However, almost all climate change projections
predict increases
in temperature and
decreases in Colorado River runoff [Vano et al., 2014].
Those simulations matched historical data until 1970; after that, the simulations
predicted temperatures to keep increasing, rather than
decreasing as they did
in reality.
This directly contradicts the greenhouse effect theory, which
predicts that carbon dioxide should increase the
temperature in the lower atmosphere (the «troposphere»), and
decrease the
temperature in the middle atmosphere (the «stratosphere»).
The long sunspot cycle 23
predicts a significant
temperature decrease in cycle 24, Solheim et al, 02/2012; read more here.
In Central America,
temperature is
predicted to increase, and rainfall is
predicted to
decrease [44], making many of these areas less favorable for Bd.
say it has been
predicted that «the average
temperature in the semiarid northwest portion of China
in 2050 will be 2.2 °C higher than it was
in 2002,» and they report that based on the observed results of their study, this increase
in temperature «will lead to a significant change
in the growth stages and water use of winter wheat,» such that «crop yields at both high and low altitudes will likely increase,» by 2.6 % at low altitudes and 6.0 % at high altitudes... Even without the benefits of the aerial fertilization effect and the anti-transpiration effect of the ongoing rise
in the air's CO2 content, the increase
in temperature that is
predicted by climate models for the year 2050, if it ever comes to pass, will likely lead to increases
in winter wheat production
in the northwestern part of China, not the
decreases that climate alarmists routinely
predict.»