Climate Change: Effects on Environment and Human Health PDF

Summary

This document discusses the effects of climate change on the environment and human health. It explores global warming, the greenhouse effect, and human activities such as burning fossil fuels as contributing factors. The increasing frequency of extreme weather events and environmental hazards, like droughts and intense storms, are highlighted as consequences of climate change.

Full Transcript

In common usage**, climate change** describes global warming---the
ongoing increase in global average temperature---and its effects on
Earth\'s climate system. Climate change in a broader sense also includes
previous long-term changes to Earth\'s climate. The current rise in
global average temperature is primarily caused by humans burning fossil
fuels since the Industrial Revolution. Fossil fuel use, deforestation,
and some agricultural and industrial practices add to greenhouse gases.
These gases absorb some of the heat that the Earth radiates after it
warms from sunlight, warming the lower atmosphere. Carbon dioxide, the
primary greenhouse gas driving global warming, has grown by about 50%
and is at levels unseen for millions of years.

Climate change has an increasingly large impact on the environment.
Deserts are expanding, while heat waves and wildfires are becoming more
common. Amplified warming in the Arctic has contributed to thawing
permafrost, retreat of glaciers and sea ice decline. Higher temperatures
are also causing more intense storms, droughts, and other weather
extremes. Rapid environmental change in mountains, coral reefs, and the
Arctic is forcing many species to relocate or become extinct. Even if
efforts to minimize future warming are successful, some effects will
continue for centuries. These include ocean heating, ocean acidification
and sea level rise.

Climate change threatens people with increased flooding, extreme heat,
increased food and water scarcity, more disease, and economic loss.
Human migration and conflict can also be a result. The World Health
Organization calls climate change one of the biggest threats to global
health in the 21st century. Societies and ecosystems will experience
more severe risks without action to limit warming. Adapting to climate
change through efforts like flood control measures or drought-resistant
crops partially reduces climate change risks, although some limits to
adaptation have already been reached. Poorer communities are responsible
for a small share of global emissions, yet have the least ability to
adapt and are most vulnerable to climate change.

**Global warming** refers to the increase in the planet's overall
average temperature in recent decades. Natural processes have always
affected Earth's temperature and climate, but more recently, the
planet's temperature and climate have changed at a higher pace than
nature alone can explain. These rapid changes are due to human
activities and the widespread use of fossil fuels for energy. Fossil
fuels include coal, oil and natural gas and burning fossil fuels causes
what is known as the "greenhouse effect" in Earth's atmosphere. The
greenhouse effect happens when the sun's rays penetrate the atmosphere,
and the Earth's surface reflects that heat. Some of the gasses in the
atmosphere then trap heat over Earth. Gasses emitted by the burning of
fossil fuels are very good at trapping heat and preventing it from
leaving the atmosphere. These greenhouse gasses are carbon dioxide,
methane, nitrous oxide, chlorofluorocarbons and water vapor. The excess
heat in the atmosphere has caused the planet's average global
temperature to rise over time, otherwise known as global warming.

The Industrial Revolution, beginning in the mid-18th century, led to the
start of an anthropogenic (human-caused) rise in greenhouse gas
emissions from Europe and the United States. The invention of the
coal-fired steam engine introduced coal as a major source of energy.
Soon it was heating homes and fuelling machines in factories.

**Rising temperatures also worsen air pollution by increasing
ground-level ozone smog,** which is created when pollution from cars,
factories, and other sources react to sunlight and heat. Ground-level
ozone is the main component of smog, and the hotter things get, the more
of it we have. Dirtier air is linked to higher hospital admission rates
and higher death rates for asthmatics. It worsens the health of people
suffering from cardiac or pulmonary disease. And warmer temperatures
also significantly increase airborne pollen, which is bad news for those
who suffer from hay fever and other allergies.

The **earth\'s marine ecosystems** are under pressure as a result of
climate change. Oceans are becoming more acidic, due in large part to
their absorption of some of our excess emissions. As this acidification
accelerates, it poses a serious threat to underwater life, particularly
creatures with calcium carbonate shells or skeletons, including
mollusks, crabs, and corals. This can have a huge impact on
shellfisheries.

The increasing **number of droughts, intense storms**, and floods we\'re
seeing as our warming atmosphere holds---and then dumps---more moisture
poses risks to public health and safety too. Prolonged dry spells mean
more than just scorched lawns. Drought conditions jeopardize access to
clean drinking water, fuel out-of-control wildfires, and result in dust
storms, extreme heat events, and flash flooding in the States. Elsewhere
around the world, lack of water is a leading cause of death and serious
disease and is contributing to crop failure. At the opposite end of the
spectrum, heavier rains cause streams, rivers, and lakes to overflow,
which damages life and property, contaminates drinking water, creates
hazardous-material spills, and promotes mold infestation and unhealthy
air. A warmer, wetter world is also a boon for foodborne and waterborne
illnesses and disease-carrying insects, such as mosquitoes, fleas, and
ticks.

**Global village** describes the phenomenon of the entire world becoming
more interconnected as the result of the propagation of media
technologies throughout the world. The term was coined by Canadian media
theorist Marshall McLuhan in his books **The Gutenberg Galaxy: The
Making of Typographic Man** (1962) and **Understanding Media** (1964).
Literary scholar Sue-Im Lee describes how the term global village has
come to designate "**the dominant term for expressing a global
coexistence altered by transnational commerce, migration, and
culture".** Marshall McLuhan, who was a Canadian thinker, coined the
term \'global village\' in the 1960s. It indicates the daily production
and consumption of media, images, and content by global audiences. **The
term \"global village\" means all parts of the world as they are being
brought together by the internet and other electronic communication
interconnections.** The new reality of the digital age has implications
for forming new socially meaningful structures within the context of
culture. Interchanging messages, stories, opinions, posts, and videos
through channels on telecommunication pathways can cause
miscommunication. Within the global village framework, individuals
transcend the micro-, meso- and macro-dynamics of their life on a daily
basis. Individuals tend to get involved in complex communities of
networks stretching worldwide. The increasing density of electronically
established and maintained human interconnections can form new socially
significant clusters. Electronic media have the ability to impact
individuals differently for various reasons, such as their religion,
politics, beliefs, business, money etc. The time in which messages are
received also affects how a message is understood.

**Robotics** is the intersection of science, engineering and technology
that produces machines, called robots, that replicate or substitute for
human actions. Robots perform basic and repetitive tasks with greater
efficiency and accuracy than humans, making them ideal for industries
like manufacturing. Within mechanical engineering, robotics is the
design and construction of the physical structures of robots, while in
computer science, robotics focuses on robotic automation algorithms.
Other disciplines contributing to robotics include electrical, control,
software, information, electronic, telecommunication, computer,
mechatronic, and materials engineering. The goal of most robotics is to
design machines that can help and assist humans. Many robots are built
to do jobs that are hazardous to people, such as finding survivors in
unstable ruins, and exploring space, mines and shipwrecks. Others
replace people in jobs that are boring, repetitive, or unpleasant, such
as cleaning, monitoring, transporting, and assembling. Today, robotics
is a rapidly growing field, as technological advances continue;
researching, designing, and building new robots serve various practical
purposes.

**Automation algorithms**: An algorithm is a set of procedures. In
software development, algorithms typically take the form of a series of
commands or operations that a program performs to accomplish a given
task. That said, not all algorithms are software. You could make a good
case that a recipe, for example, is a type of algorithm, because it\'s
also a set of procedures. Automation is the application of technology,
programs, robotics or processes to achieve outcomes with minimal human
input. Humans might set up the tools and processes that perform
automated tasks, but once launched, an automated workflow runs mostly or
entirely on its own. (Automation includes the use of various equipment
and control systems such as machinery, processes in factories, boilers,
and heat-treating ovens, switching on telephone networks, steering,
stabilization of ships, aircraft and other applications and vehicles
with reduced human intervention.) Earlier in the computer age,
automation wasn\'t a core focus of tasks like software development. But
over the past decade or so, the idea that programmers and IT operations
teams should automate as much work as possible has become widespread.
Today, automation goes hand-in-hand with practices like DevOps and
continuous delivery.

**Information technology (IT)** is a set of related fields that
encompass computer systems, software, programming languages, and data
and information processing, and storage. IT forms part of information
and communications technology (ICT). An information technology system
(IT system) is generally an information system, a communications system,
or, more specifically speaking, a computer system --- including all
hardware, software, and peripheral equipment --- operated by a limited
group of IT users, and an IT project usually refers to the commissioning
and implementation of an IT system. IT systems play a vital role in
facilitating efficient data management, enhancing communication
networks, and supporting organizational processes across various
industries. Successful IT projects require meticulous planning, seamless
integration, and ongoing maintenance to ensure optimal functionality and
alignment with organizational objectives. The term is commonly used as a
synonym for computers and computer networks, but it also encompasses
other information distribution technologies such as television and
telephones. Several products or services within an economy are
associated with information technology, including computer hardware,
software, electronics, semiconductors, internet, telecom equipment, and
e-commerce. Information technology is a branch of computer science,
defined as the study of procedures, structures, and the processing of
various types of data.

**Innovation** is the practical implementation of ideas that result in
the introduction of new goods or services or improvement in offering
goods or services. Innovation often takes place through the development
of more-effective products, processes, services, technologies, art works
or business models that innovators make available to markets,
governments and society. Innovation is the multi-stage process whereby
organizations transform ideas into new/improved products, service or
processes, in order to advance, compete and differentiate themselves
successfully in their marketplace.

**Artificial intelligence** **(AI)** **Artificial intelligence is the
science of making machines that can think like humans. It can do things
that are considered \"smart.\" AI technology can process large amounts
of data in ways, unlike humans. The goal for AI is to be able to do
things such as recognize patterns, make decisions, and judge like
humans.** Such machines may be called AIs. Some high-profile
applications of AI include advanced web search engines (e.g., Google
Search); recommendation systems (used by YouTube, Amazon, and Netflix);
interacting via human speech (e.g., Google Assistant, Siri, and Alexa);
autonomous vehicles (e.g., Waymo); generative and creative tools (e.g.,
ChatGPT, and AI art); and superhuman play and analysis in strategy games
(e.g., chess). However, many AI applications are not perceived as AI:
\"A lot of cutting-edge AI has filtered into general applications, often
without being called AI because once something becomes useful enough and
common enough it\'s not labeled AI anymore.\"