And yet we continue to wait — decade after decade, even as the earth has indeed been warming, much as
those early models predicted.
«
Those earlier models predicted management techniques, such as pasture rotation, resistant cattle and anti-tick vaccines,» he said.
Not exact matches
An
earlier study using that
model showed that the algorithms in the
model can
predict where in the brain a seizure will originate and which groups of neurons it will likely spread to as it grows.
The standard
model of the
early universe
predicts that space is full of gravitational waves, ripples in space - time left over from the first instants after the Big Bang.
When the weather - based
model developed at Rothamsted Research was used to
predict how climate change may affect the wheat crops, it was
predicted that wheat flowering dates will generally be
earlier and the incidence of the ear blight disease on the wheat crops will substantially increase.
These new results, however, contradict current
models of how galaxies evolved in the
early Universe, which do not
predict any monster galaxies at these
early times.
Then they mapped out the millions of citations to those papers, and searched for a statistical
model that best
predicted scientists» future success based on their
early publication history.
«That's a big problem for the theoretical
models of dark energy which
predicted a considerably higher amount of energy for the
early universe,» adds Dr. Matteo Martinelli, postdoc at the ITP.
«The space - time
model developed for this study could provide the basis for the next generation of wave forecast
models to
predict wave extremes and provide
early warnings to shipping companies and others to help them avoid dangerous areas at risk of rogue waves,» Fedele said.
Next, using data from an
early clinical trial in women, the researchers created a mathematical
model that
predicts these ratios in vaginal, cervical and rectal tissues given standard doses of medication taken 2 to 7 days per week.
This had been
predicted as a relic from when hot ionized plasma of the
early universe first cooled sufficiently to form neutral hydrogen and allow space to become transparent to light, and its discovery led to general acceptance among physicists that the Big Bang is the best
model for the origin and evolution of the universe.
By merging this concept of the
early universe with specific mathematical
models of the effects of dark energy, scientists were able to
predict a characteristic scale — a typical distance between concentrations of galaxies — that should be evident in the structure of the universe.
Models predict that curium, if present, was in low abundance in the
early solar system.
He did not expect to find any massive galaxies
earlier than about 9 billion years ago because theoretical
models predict that such large objects form last.
Utilizing the largest data set of mobile phone records ever analyzed to estimate human mobility, the researchers developed an innovative
model that can
predict epidemics and provide critical
early warning to policy makers.
Theoretical
models predict that migration occurs either
early in the lives of giant planets while still embedded within the protoplanetary disk, or else much later, once multiple planets are formed and interact, flinging some of them into the immediate vicinity of their star.
Surprisingly, these very different
models for the origin of irregularities in the
early Universe
predict almost identical «scale invariant» ripples in the cosmic background radiation.
Steinhardt and Turok's
model predicts a slight but specific pattern of hot and cold spots that should be detectable in the microwave radiation from the universe's
early days.
The new
model, which is a scaled - down version of an
earlier numerical
model by Shaqfeh and colleagues that provided the first large - scale, quantitative explanation of the formation of the layer, can
predict how blood cells with varying shapes, sizes, and properties — including the crescent - shaped cells that are the hallmark of sickle cell anemia — will influence blood flow.
Such a high value of r, for instance, indicates that inflation began even
earlier than some
models predicted, at one trillionth of a trillionth of a trillionth of a second after the big bang.
They hope to firm up tantalizing hints from an
earlier incarnation of the experiment, which suggested that the particle is ever so slightly more magnetic than
predicted by the prevailing standard
model of particle physics.
The authors note that there are two different
models of metastasis — one in which an advanced primary tumor disseminates metastatic cells late in its development, which would
predict little genetic difference between primary and metastatic cells, and another in which metastasis occurs
early in tumor development, which would
predict significant genetic differences in metastatic cells that have evolved separately from those in the primary tumor.
The
model breaks down at high energies (such as those
predicted in the
early Universe), giving infinite answers for the strength of particle interactions, unless physicists fudge the numbers.
According to the standard cosmological
model, which
predicts how the universe has grown and changed since its
earliest days, the universe is filled with enormous strands of dark matter, and the galaxies are embedded in this so - called cosmic web.
Without that leakage, the academy panel's own
modeling predicted that the tops of the fuel assemblies would have been exposed by
early April; as the water continued to evaporate, the odds of the assemblies» zirconium cladding catching fire would have skyrocketed.
These
models accurately
predict how much water was locked up in the form of ice
early in the history of our solar system, billions of years ago, before making its way to Earth.
So far, these
early results showed that physical conditions where the air and the ocean interact must be a vital part of any successful hurricane forecasting
model and would help explain, and
predict, how a storm might intensify as it moves through across the water based on the physical stress at the ocean's surface.
«For gamma ray bursts,
models predict that an
early X-ray emission would be seen,» said Aaron Tohuvavohu, Swift science operations and research assistant, Penn State.
As leading climate
models predict that sea level rise will make the islands uninhabitable by 2070, 2050 or even as
early as 2030, the country is striking back with an ambitious programme of island restoration.
We will develop mathematical
models to
predict the pathways of differentiation from naive to memory and effector T - cell subsets based on the characterisation of surface marker expression, transcription factors and cytokines production at
early and late time points after immunisation.
ALMA observations by a team of astronomers led by Nadia Murillo and Shih - Ping Lai have found the youngest disk around a protostar to date, at an
earlier stage than
predicted by most
models.
Consequently, in the past 20 years his research has evolved from an
early focus on prioritizing the effects that humans have on coral reefs and the role that marine protected areas play in conserving biological diversity and ecological processes, to developing theoretical and simulation
models of coral reefs that will help
predict and suggest alternatives to reduce detrimental effects, to developing practical means to restore degraded reefs through manipulation of the food web and management.
Methods: In seeking a mathematical kinetics
model to
predict oxidation penetration and minor element depletion, the PNNL team began with a generic
model and
earlier studies that involved moving interfaces, oxidation kinetics, and heterogeneous reactions at the interface of two phases.
Some
models necessarily
predict the existence of primordial black holes, so their discovery could help unlock important clues about the universe's
early days,» says Tanaka.
By studying different
models of just how mass is positioned in the galaxy cluster, astronomers could
predict one more light path for Refsdal, one that would delay the light reaching the telescope until late 2015 or
early 2016.
This «global greening» was
predicted in the
early days of Earth System
modelling and has been reported in scientific papers and the IPCC for many years.
Some theoretical
models have
predicted that dark galaxies were common in the
early universe when galaxies had more difficulty forming stars — partly because their density of gas was not sufficient to form stars — and only later did galaxies begin to ignite stars, becoming like the galaxies we see today.
Our European correspondent Georg Kacher
predicted earlier this year that Audi would introduce Q2, Q6, and Q8
models by 2020.
When it becomes available in the winter at the end of 2018 (with hybrid
models right behind in
early 2019), we
predict that the all - new RAV4 will premiere, yet again, at the forefront — both for the Toyota brand and the segment.
And were the
models earlier (say 10 years ago)
predicting the current speed at which the Greenland ice sheets are melting?
Although these
models predict a significant weakening for the future, they do not suggest this as
early as the observations show it (see Fig. 2 of our paper).
I have heard it stated that climate
models «
predict» that
early signs of climate warming will be more pronounced in the Northern Hemisphere and especially over land.
«An ongoing US Department of Energy - backed research project led by a US Navy scientist
predicts that the Arctic could lose its summer sea ice cover as
early as 2016 — 84 years ahead of conventional
model projections.»
I need to go back to the original paper and see, but it would be interesting to run the
model from an
earlier starting point and see if it would have
predicted sunspot Cycle 19 in 1957.
In contrast to Trenberth's 2015 lament that atmospheric circulation patterns are not robustly simulated by CO2 - driven climate
models,
predicting storm tracks and blocking are the most critical factors for providing
early warnings.
This was
predicted by the
early Manabe
models because greater polar warming and greater global water vapor reduces baroclinicity and the motions necessary to restore balance.
The bad news is that as more is understood about global warming, and as we compare what has happened to what was
predicted by the average
models (from the actual science, not from popular sensationalized media), the
earlier scientific predictions have turned out to be too conservative, not as you say «too alarmist».
The global temperature will increase -
predicted by Hansen's
model from
early eighties.
Or maybe, «As shown in Figures 1.4 and 1.5, since the end of the 1992 Pinatubo volcano,
models have
predicted a steady upward trend in global average temperatures, but the observed series have been comparatively trendless, and thus the range of
model warming predictions since the
early 1990s can be seen to have been biased towards more warming than was subsequently observed.»
Early models (TAR I think),
predicted Antarctic land ice would increase as warming seas resulted in more moisture being blown over Antarctica and falling as snow.