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  • When I do fieldwork, I always take photos.

  • Not only because I love capturing memories (like anyone else), but because they also

  • serve as an important record of a given moment in history.

  • Like when I went to Madagascar and took hundreds of photos of erosional formations in the rolling

  • hillsides.

  • From those images, we could see how Madagascar's highlands had changed from a once widely forested

  • area to one where deforestation has resulted in serious gashes and erosional gullies called

  • Lavaka.

  • With fewer trees, the soil becomes even more vulnerable to these landslide-like events

  • - setting the stage for even more dramatic changes to come.

  • The landscape isn't permanent.

  • It's changed as continents have shifted and humans have interacted with the environment.

  • And it will continue to change.

  • Our planet is a super dynamic place.

  • Some changes happen slowly -- we'd have to watch for millions of years to see the

  • continents drift or the Rocky Mountains grow.

  • But a storm or avalanche changes the landscape in the blink of an eye.

  • Both types of change have tremendous influence over our lives, from small decisions like

  • what we'll wear today to bigger choices like where we choose to live.

  • All of these changes, above and below the Earth's surface, are part of physical geography.

  • And for the first half of the series, physical geography is the lens we'll use to tell

  • the stories of the Earth.

  • I'm Alizé Carrère and this is Crash Course Geography.

  • INTRO

  • Up 'til now we've been talking about tools and ideas that apply throughout geography.

  • But the Earth is a big and complex place.

  • So traditionally, geography is studied as two interconnected parts: physical geography

  • and human geography.

  • Physical geography is all about recognizing the characteristics of the environment and

  • the processes that create, modify and destroy those environments.

  • But remember, human-environment interactions are fundamental to studying geography.

  • So as physical geographers, we'll look for answers to our questions in the processes

  • that happen without humans and because of humans.

  • We'll be exploring a particular space: the geo-ecosphere, which is the narrow zone on

  • Earth's surface that contains all the different landscapes and major systems that interact

  • to create our dynamic planet.

  • By breaking the Earth up into distinct systems, we can look for connections that help us understand

  • complex problems like climate change or the loss of variety of life in different habitats.

  • In physical geography, we think of there being four major Earth systems.

  • First, there's the atmosphere, or the layers of air surrounding Earth that give us clouds,

  • weather, the ozone layer, and the air we breathe.

  • Then there's the hydrosphere, or all the water on, below, or above the planet's surface.

  • So all the water in the soils, under the ground, in oceans, lakes, ice caps, and streams, as

  • well as in plants, animals, our bodies, and all the water molecules in the atmosphere!

  • Next we have the lithosphere, which is the rocky outermost layer of Earth.

  • The rocks of the lithosphere form our continents and line the bottom of Earth's oceans.

  • And finally, the parts of Earth where life can exist make up the biosphere.

  • Whether it's a deep, dark, cold spot in the ocean, a barren mountaintop, or a lush, fertile

  • farm field.

  • No matter what we choose to focus on in physical geography, all four spheres will play a role.

  • Like ecosystems are communities of living things interacting in concert with their nonliving

  • environment based on these underlying Earth systems.

  • Let's go to the Thought Bubble.

  • Off the northeastern coast of what we know as Australia is the world's largest coral

  • reef: the Great Barrier Reef.

  • Well actually, it's almost 3000 individual reefs that are home to more than 9000 different

  • species of tiny, fragile-yet-resilient organisms working together to build their home.

  • Since the Great Barrier Reef, like all coral reefs, is life, the reef itself is part

  • of the biosphere.

  • Even the skeleton of each reef is built by the coral itself.

  • The hard corals of the Great Barrier Reef secrete the chemical compound calcium carbonate,

  • which hardens into limestone.

  • That limestone is part of the lithosphere and forms the rock foundation that protects

  • the corals and other organisms from the waves.

  • Even when the coral dies, the limestone remains and becomes a spot for new coral to grow and

  • thrive.

  • The Great Barrier Reef exists in the Pacific Ocean, underwater, so it's surrounded by the

  • hydrosphere.

  • And the atmosphere still interacts with this marine ecosystem through storms!

  • Believe it or not, these delicate-looking coral reefs are most successful in areas where

  • the hydrosphere and the atmosphere clash, creating lots of waves.

  • It's estimated that thousands of cubic kilometers of ocean waters flow through the Great Barrier

  • Reef each year, bringing food, oxygen, and keeping temperatures moderate for the organisms

  • that call the reef home.

  • Clashes between the atmosphere and hydrosphere can become destructive, though.

  • All four spheres are involved when the high winds and towering waves brought by Pacific

  • cyclones destroy softer corals and damage the more hearty corals.

  • But cyclones bring cooler water into these shallow ecosystems and can clean up the reef

  • by whisking away sediment that has built up over time.

  • Thanks, Thought Bubble.

  • By looking for interactions between all the Earth systems we can identify what helps the

  • ecosystem thrive.

  • We'll talk more next episode about how the Earth formed these spheres and how it moves.

  • For now though, we can start thinking like physical geographers and askwhat causes

  • these four spheres to interact?”

  • The Earth's atmosphere, hydrosphere, lithosphere, and biosphere are driven and influenced by

  • the Sun and insolation, or incoming solar radiation.

  • For example, the Sun's energy heats up liquid water, causing it to evaporate into water

  • vapor.

  • That water vapor may condense in the atmosphere, forming clouds and rain.

  • That rain may enter a river, a lake, or become frozen in a glacier.

  • Over time, that glacier might move down a mountainside, altering Earth's surface and

  • providing a habitat for the smallest of bacteria.

  • As physical geographers, our area of study is everything the light touches -- and more.

  • That's a lot of surface area to cover!

  • Literally!

  • So just like you can be a doctor but spend most of your time studying the heart to become

  • a cardiologist, physical geographers break up the geo-ecosphere and specialize in different

  • realms and processes.

  • Like what if we visitGuatemala to look at bananas?

  • No, wait, we already did that, although it could be a great geo-ecosphere example too.

  • Instead, let's do a similar deep dive into the banana-less Iceland!

  • And explore like different types of physical geographers.

  • Let's start with the land itself, which was originally settled by Nordic people around

  • 870 CE.

  • Though it seems to have been known about long before the 9th century by Greek explorers

  • and Irish hermits and monks.

  • And it had other names, likeSnow landorGardar's Isle,” according to the

  • Sagas of Icelanders.

  • It sits on the northern section of the Mid-Atlantic ridge, an underwater mountain range that runs

  • north to south in the Atlantic Ocean.

  • The topography, or shape of the land, is a result of processes happening both above and

  • below the surface.

  • From time to time, lava spills out from fissures in the crust, which means Iceland is still

  • growing!

  • We're starting to picture the geomorphology of Iceland.

  • As geomorphologists, we're interested in the origin and evolution of the shape of Earth's

  • surface, like what role weathering plays in how life survives on Earth.

  • Or how the island changes because of the glaciers that have grown and retreated for ages, scraping

  • the surface into the peaks, lakes, and streams that are there today.

  • If wedig in,” we'd find most of the soils in Iceland are volcanic soils called

  • andisols.

  • These soils form from volcanic ash and are super rich in nutrients, which in the past

  • allowed forests and grasslands to dominate the landscape.

  • But about 1000 years ago, settlers cut down many of the forests.

  • Cattle and sheep grazing became possible year-round, leading to overgrazing that ultimately exposed

  • the rich topsoil to erosion.

  • Sothere's a lot less nutritious soil for plants these days.

  • Pedology is the study of soil types and how they form, and pedologists have helped with

  • the extensive soil conservation efforts that have been in place for more than a century.

  • The rare combination of glaciers and volcanoes not only influences the land, it also influences

  • the water.

  • Hydrology is the study of how water is moved, managed, and distributed above and below Earth's

  • surface -- like in rivers and lakes and oceans and groundwater.

  • As hydrologists in Iceland, we'd be very busy keeping track of the water distribution

  • and movement.

  • We might want to map the sources of sediment flowing into a river, but we might also ask,

  • which parts of a city are most at risk for flooding?”

  • As of 2020 about 10% of Iceland is covered in icy glaciers.

  • And yet, magma is also close to the surface, providing heat for the geysers and hot springs.

  • The heat means there's an increase in the volume of water in rivers due to the ice melting

  • and increasing runoff.

  • But we'd also study and even help Icelanders manage their water resources to generate hydropower,

  • or power generated from moving water.

  • As of 2015, almost 100% of electricity in Iceland came from renewable sources -- like

  • wind and solar -- and 73% came from hydropower.

  • The people of Iceland use the physical geography to heat their homes and power their lives.

  • As an island in the North Atlantic Ocean, Iceland's weather and climate are affected

  • by the seas and oceans surrounding it.

  • In Iceland, climatology, or the study of atmosphere and weather patterns over time, is interconnected

  • with oceanography, or the study of the past, present, and future features of the oceans.

  • As climatologists, we might ask how a change of energy in the atmosphere impacts the biosphere

  • and hydrosphere.

  • The North Atlantic Drift Current brings warm waters northward, which helps moderate Iceland's

  • climate and give it damp, cool summers and relatively mild winters despite being so far

  • north.

  • But not all winters in Iceland are mild.

  • Every so often, the atmospheric energy will change and a storm will batter the island,

  • illustrating how the meteorology -- or study of atmospheric processes and phenomena -- associated

  • with the island can be extreme.

  • For example, a blizzard in December of 2019 dumped up to 3 meters -- which is over 9 feet!

  • -- of snow.

  • Even still, the usually temperate climate allows the biosphere to thrive.

  • Iceland is rich in life that makes up biogeography -- or the study of the distribution of plants

  • and animals in an area.

  • For example, Iceland is home to lots of birdlife and marine mammals.

  • Puffins, skuas, and kittiwakes make Icelandic sea cliffs their summer nesting home.

  • Arctic fox, reindeer, and rabbits are found here, and the occasional polar bear passes

  • by as she travels by on icebergs from Greenland.

  • The flora has a harder time.

  • Things like overgrazing, deforestation, the movement of glaciers, and volcanic activity,

  • limit growth.

  • Grasses and low growing shrubs like heather grow, but few large trees exist.

  • So as biogeographers in Iceland, we might investigate how vegetation along the sides

  • of streams affects flooding.

  • Or we might get involved in conservation planning and establishing protected areas.

  • Our focus would be on where the biosphere and hydrosphere meet.

  • All these different "spheres" of the Earth could be their own field -- and some of them are.

  • For example, ecologists study the biosphere and look at what physically happens as different

  • species interact across the landscape.

  • But a geographer focuses on how ecological processes are distributed across space, and

  • how species move and change over time.

  • What differentiates physical geography from other scientific fields is the focus on spatial

  • patterns in the landscapes.

  • Physical geographers investigate not only variation from place to place in the various

  • spheres, but also the complex interaction within and between different spheres and how

  • they change over time and across scales.

  • The Earth has a story that extends back over 4.5 billion years -- which we'll talk more

  • about next time.

  • Describing those dynamic twists and turns helps us understand our role here, our future,

  • and the future of the planet.

  • Many maps and borders represent modern geopolitical divisions that have often been decided without

  • the consultation, permission, or recognition of the land's original inhabitants.

  • Many geographical place names also don't reflect the Indigenous or Arboriginal peoples languages.

  • So we at Crash Course want to acknowledge these peoples' traditional and ongoing relationship

  • with that land and all the physical and human geographical elements of it.

  • We encourage you to learn about the history of the place you call home through resources

  • like native-land.ca and by engaging with your local Indigenous and Aboriginal nations through

  • the websites and resources they provide.

  • Thanks for watching this episode of Crash Course Geography which was made with the help

  • of all these nice people.

  • If you would like to help keep Crash Course free for everyone, forever, you can join our

  • community on Patreon.

When I do fieldwork, I always take photos.

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What is Physical Geography? Crash Course Geography #4(What is Physical Geography? Crash Course Geography #4)

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    香蕉先生 發佈於 2022 年 06 月 03 日
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