Not exact matches
«Our study also showed that the levels of both grass and birch pollen
increased during the study period and that the
length of the pollen
season has
increased.
The end result: an
increase in
length of the snow - free
season, by about one week per decade from 1975 to 2016.
The
length of the smoke wave
season, the period between the first and last smoke wave day, is estimated to
increase by an average of 15 days in more than 62.5 percent of the counties.
«The
length of the hurricane
season has been expanding,» he says, «
increasing by about five days per decade — about 15 days since 1970.»
In the case of Arctic whales, the changes in sea ice might benefit their populations, at least in the short term: the loss and earlier retreat of sea ice opens up new habitats and, in some areas of the Arctic, has also led to an
increase in food production and the
length of their feeding
season.
That's because double cropping effectively
increases the
length of the active growing
season — the period during which cropland evapotranspiration rivals that of native vegetation.
Ziska, L. et al., 2011: Recent warming by latitude associated with
increased length of ragweed pollen
season in central North America.
Consistent with observed
increases in surface temperature, there have been decreases in the
length of river and lake ice
seasons.
Similarly, expected future
increases in precipitation and
length of growing
season would tend to
increase methane production.
The
length of the frost - free
season has
increased in most mid - and high - latitude regions of both hemispheres.
We show that fire weather
seasons have lengthened across 29.6 million km2 (25.3 %) of the Earth's vegetated surface, resulting in an 18.7 %
increase in global mean fire weather
season length.
In addition, when correlations were constrained to the time period that satellite burned area observations were available from the Moderate Resolution Imaging Spectroradiometer (MODIS)(2001 - 2012), and thus where estimates of land - use change carbon emissions were more certain2, correlations between fire weather
season length, long fire
season affected area and net land carbon fluxes
increased substantially to ρ = − 0.797 and ρ = − 0.825, respectively, n = 12, P < 0.01).
In contrast to all other continents in our analysis, Australia showed no significant trends in biome - level fire
season length, but we identified regional
increases in the frequency of anomalously long fire weather
seasons, especially from 1996 to 2013 (Fig. 3b).
Fire weather
season length and long fire weather
season affected area significantly
increased across all vegetated continents except Australia.
South America's tropical and subtropical forests, grasslands and savannas have experienced tremendous fire weather
season length changes, with a median
increase of 33 days over the last 35 years (Fig. 3a and Table 6).
Fire weather
season length and long fire weather
season affected area
increased significantly across all continents except Australia (Table 1).
The
length of the wildfire
season may also be
increasing, research has shown.
But because the Crosstrek is, as it always has been, basically a jacked - up Impreza with more serious four -
season tires and fender cladding, not an SUV on a compact car platform and its own blown - out «tophat,» it turns out to be a «tweener, with just a 1.2 - inch
increase in wheelbase, 0.6 - inch
increase in overall
length, and 0.9 - inch wider body compared with the model it replaces.
• A580 transmission with Auto Stick and four - bolt flange • Hag 215 axle (3.06 ratio) with four - bolt flange • Modified air cleaner / induction system • Injector covers replace engine cover (pia) • Prop shaft with four - bolt flanges • «Hemi Orange» block treatment • Revised clean air duct • Modified air cleaner box CHASSIS • New wheel / tire assembly (three -
season, non-directional); 20 - inch front wheels and 245 / 45/20 tires (forged); 20 - inch rear wheels and 255 / 45/20 tires (forged) • Lower ride height (with spring
length) • Brakes (new rotors, red calipers, and hoses) • Exhaust system with 3.5 - inch tips and revised tuning • TIRE FIT system (sealant and compressor) • ESP — unique calibration and three - position switching • Cooling module (42 mm core) and radiator hoses • Revised damper tuning and spring rates •
Increased output fuel pump • Modified front and rear suspension knuckles • MK 25E ABS system (July 2005 implementation) ELECTRICAL SYSTEMS • Unique engine controller (NGC LEO) calibration • Unique transmission calibration • Custom cluster graphics (180 mph and 300 kph)
We show that fire weather
seasons have lengthened across 29.6 million km2 (25.3 %) of the Earth's vegetated surface, resulting in an 18.7 %
increase in global mean fire weather
season length.
Although data are not complete, and sometimes contradictory, the weight of evidence from past studies shows on a global scale that precipitation, runoff, atmospheric water vapor, soil moisture, evapotranspiration, growing
season length, and wintertime mountain glacier mass are all
increasing.
The better metrics are
length of active wildfire
season, which has
increased by about 2 months in the western US in the last 40 years, and area burned, which has also doubled... Future projections indicate a dramatic
increase in area burned.»
Fires in western forests began
increasing abruptly in the 1980s, as measured by area burned, the number of large fires, and
length of the fire
season.
For corn, small long - term average temperature
increases will shorten the duration of reproductive development, leading to yield declines, 4 even when offset by carbon dioxide (CO2) stimulation.5, 6 For soybeans, yields have a two in three chance of
increasing early in this century due to CO2 fertilization, but these
increases are projected to be offset later in the century by higher temperature stress7 (see Figure 18.2 for projections of
increases in the frost - free
season length and the number of summer days with temperatures over 95 °F).
This phase change of water causes a powerful local feedback, which, together with moderate global warming, can substantially
increase the
length of the melt
season.
According to the press release: «This trio of images shows changes between 1979 and 2007 in the average date of melt onset in the spring (left), the first autumn freeze (center), and the total average
increase in the
length of the Arctic sea ice melt
season.
The melting
season — i.e. the
length of time in which continuous melting occurs — has
increased on average by 6.4 days for every decade between 1979 and 2007.
Temperatures are continuing to rise with consequent
increases in evaporation and atmospheric humidity and reductions in snow amount and snow
season length in many regions.
(PDF) It notes that, based on data collected from study plots over a 13 - year period and survey data covering 27 years on the tundra of Ellesmere Island in Nunavut, Canada, an area where both temperatures and the
length of the growing
season has
increased in recent decades:
Higher temperatures will
increase growing
season lengths, metabolic rates, and rates of nitrogen mineralization at high latitudes and altitudes, thereby
increasing productivity.
Our results indicated that vegetation greenness in the Great Basin
increased significantly during the study period... [C] limate warming played a strong role in extending GSL [growing
season length] that in turn resulted in the upward trend in mean vegetation greenness during 1982 — 2011.
The average
season length (the time between the reported first wildfire discovery date and the last wildfire control date)
increased by 78 days (64 %), comparing 1970 to 1986 with 1987 to 2003.
What the report says about farming and climate change: Since 1901, the consecutive number of frost - free days and the
length of the growing
season have
increased for the seven contiguous U.S. regions used in this assessment.
We show that over extratropical regions where wheat and maize are harvested, the
increase in growing
season length from 1956 to 2005 can be attributed to
increasing greenhouse gas concentrations.
The
length of the growing
season in interior Alaska has
increased 45 % over the last century7 and that trend is projected to continue.8 This could improve conditions for agriculture where moisture is adequate, but will reduce water storage and
increase the risks of more extensive wildfire and insect outbreaks across much of Alaska.9, 10 Changes in dates of snowmelt and freeze - up would influence seasonal migration of birds and other animals,
increase the likelihood and rate of northerly range expansion of native and non-native species, alter the habitats of both ecologically important and endangered species, and affect ocean currents.11
«We do know that if you heat up the oceans, you tend to
increase the
length of hurricane
season and have storms earlier and later in
season,» Masters said.
Growing
season length is related to number of frost days, and has been projected to
increase as climate warms.
Recent warming by latitude associated with
increased length of ragweed pollen
season in central North America.
They find that the projected future
increases to growing
season length result in greater vegetation productivity and biomass, though this plateaus at the end of of the 21st century.
Conversely, food production in northern countries, especially in industrialized nations, could
increase due to the effects of global warming
increasing the
length of the growing
season.
All of these parameters show what we would expect in a warming climate: daily minimum, maximum, and average temperatures are
increasing, cooling degree days, growing degree days and growing
season length are
increasing, heating degree days are decreasing, the counts of warm days are
increasing and cool days are decreasing.
Increased dry -
season length over southern Amazonia in recent decades and its implication for future climate projection.
Global warming is likely to
increase the number of people at risk of dengue epidemics by expanding both the area suitable for the mosquito vectors and the
length of dengue transmission
season in temperate areas.
Their projections show an
increase to growing
season length, vegetation productivity (outside of the southeastern US) and biomass, as well as
increased plant water - use efficiency.They also find that vegetation feedbacks may
increase warming in summer at higher latitudes and reduce summer warming at lower latitudes.
Chp 11 pp 850 «Snow
season length and snow depth are very likely to decrease in most of North America except in the northernmost part of Canada where maximum snow depth is likely to
increase» Box 11.1, Figure 2.
We are suffering terrible climate change damage — consider the decline in run - off in the Murray Basin, rising temperatures,
increasing frequency and violence in extreme weather events,
increased ferocity of bushfires and
length of the fire danger
season,
increasing acidity of the oceans and rise in sea levels, the decline in rainfall in the southern half of the country, the damage to the Great Barrier Reef, etc. — we should reduce our CO2 production levels for our own benefit.