duminică, 18 mai 2014

THE BOSNIAN ARKSTORM OR THE SECOND ARKSTORM IN EUROPE IN ONLY SEVEN MOON'S .....IT'S A MOON EFFECT OR A MOONIE DEFECT?

HUMIDADE ELEVADA NO WÜRM ESTÁ COMPROVADA

DESLOCAMENTO DA CORRENTE POPULAR POLAR

QUE COLOCOU TERRITÓRIOS SOB A INFLUÊNCIA DE CICLONES EXTRA-TROPICAIS

DURANTE O VERÃO HÁ APENAS 15 A 8 MIL ANOS

FLORESTAS SOFRERAM EXPANSÃO

BIÓTOPOS ALPINOS FORAM-SE....JAVALIS CORÇOS AUROQUES Castor fiber

permaneceram a tundra onde florestas e prados suportam mamutes mastodontes e cavalos

o cavalo mexicano extingue-se com o Camelops hesternus camelo ocidental ou MacDonaldizado...

predadores como o Canis dirus extintos


vineri, 9 mai 2014

A LONGA IDADE GLACIAR ESTÁ PARADA HÁ UNS ESCASSOS MILÉNIOS DIZEM QUE ESTE INTER-GLACIAR DURARÁ MAIS 40 OU 50 MIL ANOS GRAÇAS AO ESQUECIMENTO GLOBAL OBSERVAMOS O RECUO DOS GLACIARES COMO UMA OPORTUNIDADE JÁ TINHAM RECUADO PARA AS MONTANHAS QUANDO OS VASTOS MANTOS DE GELO ESCANDINAVOS E ESCOCESES ESTALAVAM ABRIAM MOULINS E DERRETIAM

AS ÁRVORES INVADIRÃO AS ESTEPES E AS TUNDRAS DA NOVA EUROPA TEMPERADA

NO NORTE OUTRORA FRIO

A FAUNA HUMANIZADA OU NÃO ALTERAR-SE-À

TERÁ DE SE ADAPTAR A NOVO CLIMA E A NOVA VEGETAÇÃO

AS RENAS DEIXARÃO DE TER GELOS PARA ACOMPANHAR PARA O NORTE

OS MAMUTES EXTINTOS HÁ MUITO DESCONGELARÃO E O PREÇO DO MARFIM

VAI BAIXAR ...OS REBANHOS DE ANIMAIS OBVIAMENTE  GREGÁRIOS DA ESTEPE

PASSARÃO A SER SUBSTITUIDOS POR ANIMAIS MAIS SOLITÁRIOS

NO NOVO ESPAÇO FLORESTADO

CABRAS, JAVALIS, BOIS SELVAGENS E VEADOS SURGIRÃO NESSES ESPAÇOS

REQUERENDO AO CAÇADOR DO FUTURO SÉCULO 200 OU 300 OU 30,000 B.C.

TÁTICAS DE CAÇA MAIS ÁRDUAS E EQUIPAMENTO NOVO

REDES, ARCOS E FLECHAS E OBVIAMENTE GRUPOS PEQUENOS DE CAÇADORES

PARA CAÇAR UMA OU DUAS PEÇAS DE CAÇA POR DIA

DIFICILMENTE NECESSITARÃO DE GRANDES GRUPOS DE CAÇADORES

A MEIA RAÇÃO .....SERÁ A NORTE O FIM DAS CULTURAS DE CAÇA COLECTIVA

QUE TROUXERAM DURANTE UM BREVE PERÍODO A PROSPERIDADE

AOS CAÇADORES DESTE NEO-PALEOLÍTICO

TAL COMO NO PALEOLÍTICO SUPERIOR ACABARÃO OS MASSACRES DE CENTOS

DE CAVALOS OU BISONTES

E A INDÚSTRIA DE PINTORES DE MAMUTES DOS VAN PEDROGH'S VAI PRÓ

DESEMPREGO

joi, 1 mai 2014

THE STHENOS HYPOTHESIS - THE WEAK EARTH THEORY - ISOSTATIC REBOUND FROM BAD WATER DISTRIBUITION AND FAULTY TOWERS STRESS - YES THE MELTING UND REBOUND THING

Isostasy-Paleoclimatic records show that the Greenland Ice Sheet consistently has lost mass in response to
warming, and grown in response to cooling. 
Such changes have occurred even at times of slow or zero
sea-level change, so changing sea level cannot have been the cause of at least some of the ice-sheet
changes. In contrast, there are no documented major ice-sheet changes that occurred independent of
temperature changes. Moreover, snowfall has increased when the climate warmed, but the ice sheet lost
mass nonetheless; increased accumulation in the ice sheet's center has not been sufficient to counteract
increased melting and flow near the edges. Most documented forcings and ice-sheet responses spanned
periods of several thousand years, but limited data also show rapid response to rapid forcings.
In particular, regions near the ice margin have responded within decades. However, major changes of
central regions of the ice sheet are thought to require centuries to millennia. The paleoclimatic record
does not yet strongly constrain how rapidly a major shrinkage or nearly complete loss of the ice sheet
could occur. The evidence suggests nearly total ice-sheet loss may result from warming of more than
a few degrees above mean 20th century values, but this threshold is poorly defined (perhaps as little as
2 C or more than 7 C). Paleoclimatic records are sufficiently sketchy that the ice sheet may have grown
temporarily in response to warming, or changes may have been induced by factors other than
temperature, without having been recorded.
sea levels
around the
coastline
British
Isles for
the past 10,000-15,000 years
exhibit major regional variation
and
provide an important data base for testing models
of glacial rebound as well as models of fault activation and stress related faults
from the Late Devensian ice sheet. 
THE INPUT MODELS
The earth model E. The following assumptions concerning € are made:
the model is radially symmetrical
over the region examined, in this
case Great Britain and northwestern
Europe.
the response to surface loading is
approximated by a linear viscoelastic
Maxwell body with a realistic
radial dependence of elastic
parameters and density ALLES GUTE ALLES KLAR...
 
These'corrective terms'are functions of position and time. Their evaluation requires a knowledge
the ice models I(cp,A:t),effective thickness of the lithosphere as
well as
the
effective
viscosityFurthermore, both
He
and qmay
exhibit lateral variation.
location
(cp,A)
is consistent with both the spatio-temporal patterns of sea-level change and the 
glacio-isostatic crustal rebound in response to the unloading and extra load in stressed coastal areas like the Tagus faulty towers....and,to a lesser degree,of the ice sheet over the old Fennoscandia,and now over greenland rise in sea-level ...
Buoyancy force: vertical, opposes load
In reality, buoyancy force results in
additional horizontal force:
In reality, the weight of a load is also
resisted by the strength of the
lithosphere.
 If the load is large enough compared to
that strength, the (elastic) lithosphere
bends downwards = flexure
AN ABSTRACT OF THE THESIS OF
Ernest Robey Banks
 In the Airy-Heiskanen system, materials that compensate for
topographic variations are assumed to lie vertically beneath the
topographic features. The density of the entire crust is assumed to
be a uniform 2. 67 gr/cm3, and that of the underlying mantle 3. 27
gr/cm , or 0. 6 gr/cm greater than that of the crust. The density
of 2. 67 gr/cm3 for the earth's crust is an arithmetic mean very mean mean
(Name)
M.S.
(Degree)
in
Oceanography
presented on

ISOSTATIC AND BOuGeR GRAVITY ANOMALIES
ALONG
THE INSIDE PASSAGE OF ALASKA AND BRITISH
COLUMBIA.
Abstract approved:
Donald F. Heinrichs
A LaCoste-Romberg surface-ship gravity
describes
the
state
of
equilibrium
of a LITHOSPHERIC plate
floating
on the
A
STHENOSPHERE