Developments in Meteorology
Meteorology
Scientific Federation is going to conduct a conference
on Earth Science & Geo Science
at Amsterdam, Netherlands on August
13-14, 2018. Meteorology is one of
session where presentations can be done at Summit.
Meteorology is the study of the atmosphere,
atmospheric phenomena, and atmospheric effects on our weather. The atmosphere
is the gaseous layer of the physical environment that surrounds a planet.
Earth’s atmosphere is roughly 100 to 125 kilometers (65-75 miles) thick. Gravity
keeps the atmosphere from expanding much farther. Meteorology
focuses on the lower parts of the atmosphere, primarily the troposphere, where
most weather takes place.
Meteorologists
use scientific principles to observe, explain, and forecast our weather. They
often focus on atmospheric research or operational weather forecasting.
Research meteorologists cover several sub disciplines of meteorology to
include: climate modeling, remote sensing, air quality, atmospheric physics,
and climate change. They also research the relationship between the atmosphere
and Earth’s climates, oceans, and biological life.
The
development of meteorology is deeply connected to developments in science,
math, and technology. The Greek philosopher Aristotle wrote the first major
study of the atmosphere around 340 BCE. Many of Aristotle’s ideas were
incorrect, however, because he did not believe it was necessary to make
scientific observations. The latest news of Meteorology is fighting plant
disease at warm temperatures keeps food on the table. An issue of global
concern is the anticipated shortage of agricultural output to meet the steady
rise in human population. Michigan State University scientists understand that
overcoming crop loss due to disease and adverse weather will be key in
achieving this goal.
Dr.
Jieying HE, Dr. Bouya DIOP, and Mr. Ulric
Lyons are presenting oral presentation on Meteorology.
The
impact of internal changes in meteorology on the local and global growth rates
of atmospheric methane is assessed in a nineteen year simulation using a
tropospheric chemical transport model forced by ECMWF meteorological analyses
from 1980 to 1998. A very simple CH4 chemistry scheme has been implemented,
using prescribed OH fields. There are no internal variations in modeled methane
emissions or in the OH fields, so any changes in the modeled growth rate arise
from changes in meteorology. The methane simulation shows significant internal
variability at both local and global scales. The local scale variability is
comparable in magnitude to the internal variability found in surface
observations and shows some clear correlation with observed changes in growth
rates. This suggests that, even over internal timescales, meteorology could be
important in driving the internal fluctuations of atmospheric methane at the
surface.
We
would like to formally invite you to be a participant in the upcoming
“International Congress & Expo on Earth Science & Geo Science”. Theme
of the conference is focused on Stimulating and Analyzing the Changes of Earth
& Climate, the conference will analyze the recent advancements and new
modes that can be enforced to the research to take Earth Science & Geo
Science, one step further.
0 comments: