1bdeb577-6fdf-4e0d-9542-204e03debd3d-652104bd92867a09a20437c8-1726785462-ES module 1.pdf

Transcript

EARTH SCIENCE

LEARNING COMPETENCIES:

✓ Recognize what soil is and why it is importance
resource
✓ Identify human activities such as farming,
construction of structures, and waste disposal,
that affect the quality and quantity of soil
✓ Describe how people generate different types
of waste as they usevarious materials and
resource
✓ Explain how different types of waste affect
people’s health and theenvironment
✓ Appreciate the importance of conserving
and protecting the soilfor future generations

After going through this module, you are
expected to answer the key questions:

o How is soil formed and what are the factors that
affect its characteristics?
o What human activities are dependent on the use
of soil and how do these activities affect soil
quality?
o How do human activities affect the environment?

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 Do you remember playing with the soil when you were a kid? It is
undeniable that digging, planting, building castles, and making mud
pies out of soil is so much fun. Most of the time, people use the term
dirt and soil interchangeably. This is why most parents usually inhibit
their child from playing with soil. However, these two words are so
different. Dirt is what makes something dirty. Therefore, you are not
playing with dirt but you get dirty when playing with the soil.

The soil’s function goes beyond this context. Soil is a medium for plant
growth, a habitat for various organisms, a filter which helps clean the
water, and many more. As a whole, soil is so much different from the
simple dirt that you may be picturing.

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 Module 4: SOIL AND MAN

The Pedosphere

Soil is an essential component of Earth; it forms the pedosphere.
“Pedosphere” is derived from the Greek words pedon which
means “soil” and sfaira which means “sphere.” Soil is unconsolidated
regolith modified over time by water, air, and organic material. This
is the layer that supports the growth of plants

The Component of Soil
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 Soil Science

Soil science or the study of soil is concerned with soil characteriza
tion, classification, mapping, physical, chemical, hydrologic, minera
logical analysis, soil assessment, and evaluation. Soil science
has two divisions—edaphology and pedology.

Edaphology
Edaphology comes from the Greek word “edaphos,” which means ground.
Therefore, it is the study of soil as a habitat for living organisms. This division is
concerned with how soil influences organisms especially plants.

Pedology
Pedology comes from the Greek word “pedon,” which means soil. This
division involves the study of soil as a geologic entity, meaning, its formation,
classification, chemistry, and morphology.

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Soil Formation

As shown in picture below, the process of soil formation involves four main
steps. The first step is rock disintegration. The forces of wind, rain, freezing
and thawing water, volcanoes, and earthquakes all work together to slowly
break down rocks into smaller particles that will eventually create soil. The
second step is also termed as the early stage of soil. In this stage, simple
organisms thrive such as lichens. These lichens are especially important
because of their ability to trap water, silt, and dust in the soil. Furthermore,
when they die, they increase the
amount of organic matter in the soil. In the third step, the soil slowly
develops. It can now support plants with roots. The final step is where the soil
is developed to support thick vegetation.

Factors that affect soil formation:
1. Parent material – the source of regolith. Parent material undergoes physical
and chemical changes during the process of soil formation. When the
resulting soil is found in the same place as the parent material, it is called
residual soil. When the source of material is coming from unconsolidated
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 deposits transported by different media, the soil formed is called
transported soil.

2. Climate- It determines how temperature and moisture vary and
determines the intensity of the weathering processes.
3. Topography- Slope and aspect affect the moisture and temperature
of soil. Steep slopes facing the sun are warmer. Steep soils may be
eroded and lose their topsoil as they form.
4. Biological factors- Plants, animals, microorganisms, and humans affect
soil formation. Animals and microorganisms mix soils and formburrows
and pores. Plant roots open channels in the soils. Different types of roots
have different effects on soils. Grass roots are fibrous near the soil
surface and easily decompose, adding organic matter. Taproots open
pathways through deeper layers. Microorganisms affect chemical
exchanges between roots and soil. Humans can mix the soil so
extensively that the soil material is again considered parentmaterial.
5. Time- Time is also a component for the other factors to interact withthe
soil. Over time, soils exhibit features that reflect the other forming factors.
Soil formation processes are continuous. Recently depositedmaterial,
such as the deposition from a flood, exhibits no featuresfrom soil
development activities. The previous soil surface and underlying
horizons become buried. The time clock resets for these soils. Terraces
above the active floodplain, while similar to the floodplain, are
older land surfaces and exhibit more developmentfeatures.

Soil Texture

Soil texture is defined as the relative proportion of the particle sizes in
the soil-sand, silt, and clay. Soil is naturally composed of a mixture of
these particles and proportion of which affects other soil properties such
as soil porosity and water retention. The proportions of clay, silt, and sand
are plotted in the soil textual triangle to determine its soil type base on
particle size.

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 Soil Profile

A soil profile shows the sequence of soil horizons from the surface
down to the underlying bedrock. It varies depending on climate,
topography, rock type or parent materials, biological activity, and
time. Soil scientists use the capital letters O,A,B,C, and E to identify the
soil horizons.

O (humus or organic), composed of loose or partly decayed
organicmatter. This horizon is a habitat to many microorganisms
such as bacteria, algae, and fungi. It may be thin, thick, or absent
in some soils.

A (topsoil) is composed of mineral matter mixed with somedark organic
humus.
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E (eluviated)some have this horizon, characterized minerals and
leaching. The concentration of sand, silt particles of quartz or other
resistant minerals remained. This is the zone of eluviation. Eluviation is
the process of washing out of soil particles by the downward
percolation of water. This downward percolation of water dissolves
soluble components, which are
carried to deeper zones, along with finer sediments. This process is
called leaching.

B (subsoil) is the accumulated clay and other nutrients from the layersabove it.
This layer is often referred to as the zone of accumulation.

C (substratum) is composed of partially altered parent material. It is
characterized as partially altered bedrock. Parent material can be easily
identified in this layer. Little or no sign of soil formation is evident in this
layer.

R use for hard bedrock, which is not soil.

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 Soil Taxonomy

1. Gelisols -frozen soils; found in the coldest regions on Earth
2. Histosols -organic wetland soils; high organic content and wet
3. Spondosols – cool temperate, acidic soils; sandy and acidic soils
found in moist climates that often support dense forests
4. Andisols -volcanic ash soils; composed of volcanic ash
5. Oxisols -highly weathered tropical soils; very weathered and common in
tropical climates
6. Ventisold – shrinking and swelling soils; clay like soils that shrink and swell
7. Aridisols – dryland soils; very dry soils in arid regions
8. Ultisols- weathered tropical and subtropical soils; weathered soils
9. Mollisols-grassland soils; deep and fertile soils
10. Alfisols-moderately weathered soil; moderately
weathered productive soils found in temperate
and humid regions
11. Inceptisols-slightly developed soils; slightly developed, young soils
found on steep slopesand mountain ranges
12. Entisols -undeveloped soils; Newly formed soils found in steep rock lands

The Philippines recognizes nine soil orders according to Bureau of Soils
and Water Management (BSWM) which include alfisol, andisol,
entisol, histosol, inceptisol, mollisol, oxisol, ultisol, and vertisol.

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 Soil and Soil Quality

Soil is important in sustaining man’s existence and provides
humans with the following services:

1. Arable land for agriculture – The word arable comes from Latin
word arabilis which means “able to be plowed.” Arable lands
refer to lands that are capable of producing crops or are
suited for farming. These agricultural lands are distributed
worldwide. The Philippines, as of 2003, has 5.7 million hectares
and is 38th in rank among the countries worldwide. The United
States ranks first with 174.45 million hectares. In contrast to
arable lands, non-arable lands are those which are not suited
for farming.
2. Regulating water and filtering potential pollutants
3. Nutrient cycling
4. Foundation and support
5. Mineral deposit -Soils are mined for their mineral content-
whether it be iron, nickel, or aluminum. These soils are called
Laterites.

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 How Human Activities Degrade Soil Quality

The Food and Agriculture Organizations of the United Nations
(UN FAO) define soil degradation as a change in the soil health
status in a diminished capacity of the ecosystem to provide
goods and services for its beneficiaries. Degraded soils cannot
provide the goods and services required by its ecosystem.
Soil degradation results in the loss of arable lands and drought
and aridity. Degradation also takes away the soil’s ability to
hold water which results in increased flooding. Polluted soil
affects water quality as toxic substances in the soil are
eventually discharged in waterways. Around 40% of soil used
in agriculture worldwide are identified as degraded or
seriously degraded.

1. Soil erosion
2.Soil compaction
3. Desertification
4. Intensive agriculture
5. Urbanization or the increasing population has led to the
conversion of land to urban center

33% of global soil is moderately to highly degraded through
erosion, salinization, compaction, acidification, chemical
pollution, and nutrients depletion which hamper soil functions
and limit food production.

❖ Human Activities

Here are some human activities that leave the soil exposed and
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speed up erosion. We speed up erosion through the following
actions.

1. Agricultural Depletion - Farming can degrade the topsoil and lead to
an increase in erosion. To plant a field, a farmer must first till the soil,
breaking it up and loosening it so the new plants can take root.
Planting cover crops in the fall can help maintain the soil. In addition,
rotating the crops planted can help return nutrients to the soil to
prevent its degradation.
2. Overgrazing Animals - Grazing animals are animals that live on
large areas of grassland. They wander over the area and eat grasses
and shrubs. They can remove large amounts of the plant cover for an
area. If too many animals graze the same land area, once the tips of
grasses and shrubs have been eaten, they will use their hooves to pull
plants out by their roots.
3. Deforestation - Deforestation is another practice that can greatly
increase the rate of erosion in a region. One of the most important
barriers to erosion is plant life, as long-lived trees and other species put
down roots that literally help hold the soil together.
4. Mining operations are major contributors to erosion, especially on a
local level. Many mining techniques involve shifting large amounts of
earth, such as strip mining or mountaintop removal.
5. Development and Expansion - Urban and suburban development
can also exacerbate erosion, especially if the developers ignore the
natural state of the land. Construction of a building often begins by
clearing the area of any plants or other natural defenses against soil
erosion. In addition, some landscapers replace natural ground cover
with plant species unsuited to the climate, and these plants may not be
as effective at preventing erosion.
6. Recreational activities, like driving vehicles off-road or hiking -
Humans also cause erosion through recreational activities, like hiking
and riding off-road vehicles. An even greater amount of erosion
occurs when people drive off-road vehicles over an area. The area
eventually develops bare spots where no plants can grow. Erosion
has become a serious problem in these areas.

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 Conservation of Soil Resource

1. Increasing soil organic matter
2. Keeping the soil covered and vegetated
3. Avoiding excessive tillage
4. Manage pests and nutrients efficiently
5. Promoting crop rotation
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 6. Reducing erosion and preventing soil compaction

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 Topic 3 Human Activities, Waste, and
Waste Management

Humans cope with the progressively rising living standards through
industrialization, modernization, and innovation in technologies.
Humans exert effort to improve the ways in transportation, food
security processes in the form of agriculture, and harnessing energy
sources to make living much more comfortable to the present and
future generations. The drawback, however, is the inevitable
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production of immense amounts of waste, which are by-products of
these developments. Some of these wastes are treated properly for
proper disposal but most goes directly to the environment and
accumulates.

Excessive waste production is detrimental to human health and the
environment. However, with proper waste management, and
environment-friendly practices and policies, the harmful effects of
these wastes can be minimized. This unit focuses on
the classification of wastes, identification of its sources, and the proper
waste disposal of commonly human generated wastes that could
harm the environment.

❖ Waste
Waste refers to any discarded or rejected material mainly from
human activities and some other processes. In general, and for
simplicity, waste can be classified as solid and liquid waste.

Solid wastes, as their name implies, refers to wastes that are in solid form.
Solid wastes are further subdivided as either putrescible or non-
putrescible.

Types of solid waste:
1. Municipal waste includes materials that people in a community
no longer want because they are broken, spoiled, or no longer
useful.
2. Agricultural waste is a common form of waste derived from
farming and poultry.
3. Industrial solid waste comes from industrial sources other than
mining.
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 4. Mining waste

Liquid Wastes
Liquid wastes are those that are in liquid form, freely flowing when transported
or heated to 60°C and are not capable of being picked up by a spade or shovel.

Method of Waste Disposal

Waste may be disposed in a landfill, burned through incineration,
converted into mulch or compost, or they could berecycled.

1. Landfill is the cheapest and the most convenient method.
However, the threat of groundwater contamination reduces
the use of this practice.
Landfill Waste Management
Landfill involves the dumping of waste in a designated area.
This area resembles a pit lined with an impermeable clay
layer designed to minimize infiltration through underlying soil
layers. However, in cases where the leachates leak through
the clay layers, they contaminate the groundwater and
badly affect water quality, leading to adverse health effects
in nearby communities. Furthermore, landfill sites contribute to
increased methane and carbon dioxide levels in the
atmosphere, which contribute to the rising global
temperature. This is why landfill dumping, despite the
significantly cheaper costs involved in processing, is not highly
encouraged as a disposal method.

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 The so-called Smokey Mountain, which was once located in
Tondo, Manila, is a known example of a landfill site here in the
Philippines. It started out as an unplanned landfill in the 1950s.
In the 1980s, its population climbed to over 30,000 with
people living off scraps and wastes dumped in the landfill.
The landfill was eventually closed in the 1990s.

2. Incineration involves burning in a controlled manner using an
incinerator. Later used to generate electricity.
Incineration
Incineration uses combustion or burning of wastes to recover
energy and reduce the number of wastes going to disposal.
During incineration, waste materials are converted to gases,
particles, and heat which are later used to generate
electricity. However, combustion-based processes such as
incineration can emit harmful pollutants such as heavy
metals, dioxins, and furans into the air, land, and water,
causing harm to the environment and human health. This is
why despite its potential for energy recovery, incineration as
a waste disposal method is highly discouraged in many
countries including the Philippines, and it continues to be a
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 major subject of environmental debates globally.

3. Mulch and compost method is one of the simplest methods to
dispose of waste at homes. Composting is the method of
allowing the natural process of decomposition to transform
organic materials into humus-like material called compost.
4. Composting
Composting is a natural process of recycling decomposed
organic materials into rich fertile soils known as composts.
Thus, composting is known to contribute to the optimum
growth and development of plants. This activity also increases
plant’s resistance to pests, therefore lessening the need for
the treatment of pesticides. In the process, organic materials
and minerals, normally in the form of food wastes, are
combined. This compost pile will be decomposed by natural
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 bacteria with the presence of oxygen and then produces the
finished compost together with other byproducts, such as
water, heat, and carbon dioxide.

5. Source reduction refers to the method of designing,
manufacturing, purchasing, using, and reusing materials so
that the amount of waste or its toxicity is reduced.
6. Recycling is the method of collecting throwaway materials
and turning them into useful products.
Recycling
Recycling involves the recovery and reprocessing of materials
from products after they have been used by consumers.
Usually, waste ends up having different uses after it has been
recycled. Among the most common types of wastes recycled
are solid household wastes, such as paper, plastics, and glass.

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 ❖ Waste Management

1. Reducing the waste at the source involves buying durable
products that can be used for a long time and refraining from
buying disposable products that lead to more waste.
2. Reuse and recycle solid waste to serve another purpose.
3. Treatment of waste minimizes its effects on the environment.

Waste management in homes, schools, communities, and industries
can be done using the waste management hierarchy ofoptions.

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Legislation on Waste Management
The ever-growing problem of excessive waste production and
pollution called for policies to be implemented by government
agencies and numerous environmental organizations.

In the Philippines, most waste management practices are governed
by the Republic Act 9003 known as the Ecological Solid Waste
Management Act of 2000, which basically aims to protect the

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public’s health and the environment through proper waste disposal
and environment-friendly methods of utilizing our resources. Since its
implementation, government offices, as well as those in the private
sectors, have conducted various programs towards a greener and
cleaner country. Numerous local government units passed
ordinances banning the use of plastics and foams, which clogged
waterways and drainage systems resulting in flooding and water
pollution. Shopping mall giants, such as Shoemart and Ayala Malls,
promoted the three R’s (Reduce, Reuse, Recycle) through their
ecobag programs and nationwide recycling fairs. Segregation was
also strongly enforced through “no segregation, no collection”
campaigns

The RA 9003 also mandated the establishment of materials recovery
facilities (MRFs) in individual or clusters of barangays, schools, malls,
and other establishments. These MRFs receive, sort, and process
compostable and recyclable materials. Dump sites were closed
and were replaced with sanitary landfills whose impermeable linings
prevent leachates from polluting ground and surface waters.

Olivar III, J, et.al. (2016). Exploring Life Through Science , Quezon
City:
Phonix Publishing House, Inc..

Refran, J, et.al. (2016). Earth Science. Quezon City : Vibal Group
Inc.,

https://www.earth-science-teaching-guide?from_action=save

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