MST 01 - Environmental Science Prelims Reviewer PDF

Summary

This document is a reviewer for a prelim exam in environmental science for first-year BS Psychology students, including topics such as environmentalism, natural science study, social science, and natural resources.

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MST 01 – ENVIRONMENTAL SCIENCE
BS Psychology | 1st Semester | Prelims

Environmentalism - a social movement dedicated
to trying to sustain the earth’s life support
MODULE 1: FUNDAMENTALS OF
systems for all forms of life. Practiced more in the
ENVIRONMENTAL SCIENCE
political and ethical arenas than in the realm of
science

Environment and Environmental Science Natural Science - study the laws that govern
natural phenomena
Biology - living organisms
Environment - is everything around us. It includes
Chemistry - chemicals and their
the living and nonliving things with which we
interactions
interact in a complex web of relationships that
Earth Science - earth’s nonliving systems
connect us to one another and to the world we
and the planet as a whole
live in
Physics - matter and energy
Humans exist within the environment
Social Science - the study of human populations,
- Humans and the world around us depend
which includes economics, political science,
completely on the environment for
sociology, history, philosophy, and ethics
survival, leisure time. (hindi natin kaya
mabuhay nang wala ang environment)
GOALS OF ENVIRONMENTAL SCIENCE:
- Natural systems have been degraded by
To develop a sustainable world
pollution, erosion, and species extinction.
Understand and solve environmental
Environmental changes threaten
problems
long-term health and survival.
Sustain human population
Environmental Science - an interdisciplinary study
Dr. Rex N. Olinares
of how humans interact with the living and
- Father of Environmental Science
nonliving parts of the environment
- Professor emeritus at UP
- Proposed that sanitation and hygienic
GOALS OF ENVIRONMENTAL SCIENCE:
measures are necessary to prevent spread
To learn how life on the earth has survived
of microorganism
and thrived
- Sanitation is the root cause of
To understand how we interact with the
environmental pollution
environment
To find ways to deal with the
environmental problems and live more Natural Resources
sustainably
Natural Resources
KEY COMPONENTS OF ENVIRONMENTAL - resources that exist without any actions of
SCIENCE: humankind
- substances and energy sources need for
Ecology survival
- biological science studying the interaction
of living things with each other and the Classifications:
environment Renewable Resources - can be used repeatedly
Organisms and Species and does not run out because it is naturally
- Organisms: each belongs to a species replaces
- Species: groups with unique Solar Energy - sun producing energy in
characteristics distinguishing them from the form of heat and light. It is unlimited.
other groups Wind Power - moving air created as the
The Study of Ecosystems sun heat the earth’s surface. As long as
- Ecosystem: set of organisms within a the sun is shining, the wind remains an
defined area infinite, renewable source
- Interactions: among organisms and with Flowing Water - creates energy that can
their nonliving environment be captured and turned into electricity
 (Hydroelectricity power). Water is 6. E.E is valuable part of science instruction.
constantly renewed by the water cycle It molds students into smug crusader
Geothermal Energy - the earth is whose initial foundation of knowledge is
constantly being warmed up by its core so shaky at best
when we use geothermala power, we don’t
use up resources like we do when we burn IMPORTANCE OF ENVIRONMENTAL SCIENCE:
gas - Self-fulfillment and social development of
the child
Non-Renewable Resources - Not replenished with - Increases engagement in science
the speed at which it is consumed - Understand food chains and the nature’s
Oil - a liquid fossil fuel. Most are still deep ecological balance
under the ground - Understanding and appreciating how the
Coal - a block or brownish rock. We burn environment is used for making a living
coal to create energy and promoting material culture.

Why are Natural Resources Important?
MODULE 2: ECOLOGICAL AND BIOLOGICAL
- Without natural resources, humans would
CONCEPTS OF THE ENVIRONMENT
not survive. People use natural resources
everyday, directly or indirectly.
MAIN LEVELS OF STUDY IN ECOLOGY:
- Organism
Environmental Education - Population
- Community
Environmental Education - Ecosystem
- Interdisciplinary process that aims at
equipping people with the knowledge,
attitudes, skills, and motivation that they CONCEPTS OF ZERO WASTE:
need to help resolve environmental issues - Refuse
- Awareness, Knowledge, Attitude, Skills, - Reduce
Participation - Reuse
- Recycle
GOAL OF ENVIRONMENTAL SCIENCE: - Rot
- Develop a world population that is aware -
of, and concerned about the Ecosystem
environmental and its associated
problems, and which has the knowledge,
skills, attitudes, motivations, and Ecosystem
commitment to work individually and - ecological system
collectively towards solutions of current - Ecology - from the greek word “oikos”
problems (house), and “logos” (study of)
- Study of the earth’s households, including
1. Society prepares its citizens to carry out plants, animals, microorganism, and
their responsibilities through its system of people that live together as
education interdependent components
2. E.E. must consider all aspects of - An assemblage of living and non-living
environment elements contained within a boundary
3. E.E. must emphasize on enduring such that these elements have functional
continuity, linking actions of today top the relationships with each other and can
consequences for tomorrow and the need maintain the flow of energy and complete
to think globally the chemical cycle
4. E.E. must aid young citizen in developing a
sense of responsibility and commitment to Ecnomics
the future, and prepare them to carry out - Economic Theory: About resources
the role safeguarding and improving the limitation and availability and how it can
environment upon which sll life depends meet the infinite needs of manind
5. E.E teaches students critical thinking and - Economic Theory: resources can be
informs them of environmental science as exploited as long as its profitable
it really is; an ongoing search for truth
 - Animals, micro-organism and other
user of plants.
- Heterotrophs are predators
a. Biophages - animal
consume other
animals/plants/other
organisms
b. Saprophages - refers to
heterotrophic feeds on
dead organic matters
Abiotic
- Non-living. It includes science like
chemistry, physics, and geology
- Interactions of abiotic factors
result in weather, seasonal
changes, tides, air quality, and
water quality
- Abiotic Components: form the
environment and determine the
type/structure of ecosystem

TYPES OF ECOSYSTEM

Terrestrial Ecosystem - land-based
community, interactions of biotic and
abiotic components in a govern area
Forest Ecosystem - dynamic complex of
organisms and community, trees are a key
component
Grassland Ecosystem - vegetation is
dominated by grasses and other
herbaceous (non-woody) plants
Desert Ecosystem - extremely dry
environments
Tundra Ecosystems - treeless regions
found in the Arctic and on the tops of
mountains, where the climate is cold and
windy, and rainfall is scanr
Components of Ecosystem Freshwater Ecosystems - biotic species
and their growth and adaptation, and
associated biological productivity,
According to standpoint of trophic level: nutrient cycling, and energy flows among
Autotrophic
inland aquatic microbial, plant, and animal
- related to components in which
communities, are integrated with their
activity is photosynthesis – the
environment
production of organic matter from
Marine Ecosystem - aquatic environments
simple & drawn from the
with high levels of dissolved salt
surrounding & build into a complex
organic material. According to structure
- In photosynthesis, Biotic
CO2 + H2O + Energy from Light - Producers (Autotrophs): All green
CO2 + H2O + Eight + plants. They use solar energy,
Carbohydrates/Sugar chlorophyll, inorganic nutrients and
Heterotrophic water to produce their own food.
- Transformation of primary (Photosynthesis)
products to secondary products - Consumers: They consume the
from the plants. organic compounds in plant and
- Rearrangement of synthesis animal tissues by eating.
- Decomposition is included
 - Herbivores (plant feeders) Commensalism - symbiotic relationship
Primary consumers where one benefits and one does not
- Carnivores (meat eaters) benefit but is unharmed
Secondary consumers Parasitism - symbiotic relationship where
- Omnivores (general one benefits and one is unharmed
feeders)
- Decomposers: They are tiny
Limiting Factors in an Ecosystem
organisms includes bacteria and
fungi, which turn organic
compounds in dead plants and Population - a group of potentially
animals into inorganic materials. interbreeding and interacting individuals
They cause the continual of the same species living in the same
recirculation of chemicals within place at the same time
ecosystem (nutrient cycle) Community - a group of populations in a
particular area
According to functions of ecosystem Ecosystem - a geographic area where
Energy Circuit/Flow organisms, as well as weather and
- Energy flows through the structural landscape, work together to form a bubble
elements of an ecosystem Biomes - large complexes of ecosystem
a. Food Chain - a linear with similar characteristics
sequence of organisms
through which nutrients IN INTERBREEDING, THERE IS:
and energy pass as one Gene flow
organisms eat another Life of its own
b. Food Web - all of the Unique way of allocating resources
interconnected and ○ Regulate growth
overlapping food chains in ○ Cooperate for defense
an ecosystem
GENERAL FORMS OF COMPETITION
GRAZING FOOD CHAIN Scramble Competition - high population
- organisms feeding on living organisms density, no enough resources for growth
DETRITUS FOOD CHAIN and development
- organisms feeding on dead organisms Contest Competition - some members of
population get more resource denying
Nutrient Cycling other members of that resource
- nutrients are alternately bound up (imbalance of allocation)
in living organisms, freed in the Predation - prey-predator relationships,
environment and bound up again balances ecosystem
in living tissues
a. Closed system – system UNIQUE FEATURES OF POPULATION
that neither receive inputs Age structure - ratio of the various age
from nor contributes classes to each other at a given time. It is
outputs to the external determined by finding individual ages of
environment members of the population
b. Open system – system with ○ Density - number of individuals
exchange of materials and expressed per unit of space or
energy to the surrounding area
environment Population parameters affected by Density:
- Birth rate
- Death rate
Relationships in the Ecosystem
- Growth rate
○ Abundance - number of
Competition - two or more organisms rely individuals in a given area (no
on the same environmental source boundary)
Predation - behavior of one animal Distribution on Time and Space
feeding one another ○ Birth Rate/Natality - production
Mutualism - symbiotic relationship where of new individuals in a population
both organisms benefit the inherent ability of population
to increase
 ○ Death Rate/Mortality - number of 4. Disease Transmission - parasites/diseases
individuals dying in a given time are favored in congested areas
period 5. Physical Interference - will interrupt
physiological behavior among individuals
Mortality rate (qx) – dt/Nt x 100
Where: d = no. of ind. that died at an interval of time
N = no. alive at the beginning of the period MODULE 3: ENVIRONMENTAL CHEMISTRY

○ Population Growth Rate - some
of the forces influencing growth Environmental Chemistry
rate: Environmental Chemistry
Mortality (d) and natality - deals with the study of the chemical and
(b): rate of increase = (b-d) biochemical phenomena that occur in
Immigration (i) – influx of nature
new individuals into a - It is an interdisciplinary science that
population involves physics, life science, agriculture,
Emigration (e) – dispersal material science, public health, sanitary
of individuals from a engineering, and so many more disciplines
population related to environment and other areas of
science
TYPES OF LIMITING FACTORS

Environmental Indicators
Biotic Factors: Abiotic Factors:
- Food - Water Envrionmental Indicators
- Predation - Living space - are measures or standards that we use to
- Disease - Global help us see what is happening in the
- Parasitism warming environment.
- Invasive Combos: - developed to be the basis for comparison
species - Habitat - usually starts through experiments
- Competition Destruction wherein
- Shelter - a criterion is developed and presented to
- Soil the government for approval to become a
standard.
- it can be developed and used at a wide
variety of geographic scales, from local to
ADVANTAGES regional to national levels.
1. Protection - plants gain protection from - developed based on quantitative
adverse environmental condition in measurements or statistics of
clumped distribution environmental condition that are tracked
2. Reproduction - critical level of population over time
to maintain genetic material. Higher no.
Will serve as defense mechanism PHYSICAL PARAMETERS:
3. Genetic Mechanism - able to compete and 1. Turbidity - measure of the
survive within sp. Will form ability to light-transmitting properties of water
compete w/ other sp. (interspecific) 2. Color - can indicate presence of organic
4. Division of Labor and Cooperation - each substances
member has improved efficiency - Indicate if the water is safe to drink
- Can be used as a quantitive assessment
DISADVANTAGES of potentially hazardous or toxic organic
1. Intraspecific competition - steeper materials in water
competition due to same needs 3. Ordor and Taste - indication that water
can be use for human consumption
2. Increase in level of stress - physical - Human perceptions of water
proximity of others in population will quality
increase stress in individual - Sour (hydrochloric acide), salty
3. Alteration of the Environment - higher (sodium chloride), sweet (sucrose),
population will cause environment to be bitter (caffeine)
unhealthy 4. Temperature - affects some of the
important physical properties and
 characteristics of water: thermal capacity, - water is classified as the basis of
density, specific weight, viscosity, surface concentration of calcium carbonate
tension, specific conductivity, salinity and 7. Biological Oxygen Demand (BOD) -
solubility of dissolved gases and etc. represents amount of exoygen required by
- Chemical and biological reaction rates living organism for oxidation of
increase with increasing temperature. biodegradable organic matters present in
5. Conductivity - indicate how pure the water water under aerobic condition
is - a direct measurement of quality of
- water with high specific conductivity is oxygen needed for biodegradation of
not pure organic matter and indirect measurement
of quantity of biodegradable organic
CHEMICAL PARAMETERS: matter in water
1. Chloride Ion - normally all types of water - when biodegradable organic matter is
contain chloride ion but its concentration added in water, microorganism utilizes
is very low in natural water system dissolved oxygen to oxidize organic
- chloride ion concentration increases in matter
case of urine and sewage contaminated 8. Chemical Oxygen Demand (COD) -
water Measures the amount of oxygen needed to
2. Ammonia (NH3) - comes from oxidize organic matter using strong
decomposition of organic matter like chemical oxidizing agents like K2Cr2O7.
protein, amino acids, etc. - Valuable for determining organic matter
- its concentration increases during water in water with toxic or antimicrobial
disinfection process using chloramine chemicals.
- first oxidized into nitrate and then into - K2Cr2O7 is strong oxidizing agents and it
nitrate oxidizes both biodegradable and
3. Nitrate - If concentration of nitrite is non-biodegradable organic matter
greater in drinking water, it brings serious - so COD values are always higher than
health hazard to the consumers. BOD for a given sample (Karki, 2018).
- Disease caused by high concentration of - COD calculation involves mixing a water
nitrite in infants is called Blue baby sample with K2Cr2O7 in sulfuric acid,
syndrome, which is characterized by blue adding AgSO4 and HgSO4, and titrating
coloration of skin. the remaining K2Cr2O7 with ferrous
- Level of nitrite in drinking water should ammonium sulfate.
not exceed 3mg/ltr 9. Dissolved Oxygen (DO) - oxygen is highly
soluble and get dissolved in water in the
4. Nitrate - is most stable oxidized form of form of DO
nitrogen - DO is a source of oxygen for aquatic
- In water nitrate comes from organic aerobic organism like fishes, aerobic
matter decomposition and from bacteria, etc.
atmospheric nitrogen fixation. - DO is an important characteristics of
- Like nitrite, Nitrate should not exceed natural water system that determines its
3mg/ltr in drinking water. It is because quality
nitrate can be reduced into nitrite in gut of - If DO is absent in water, aquatic
infants and causes nitrite poisoning organism cannot survive
5. Phosphate (H2PO4) - Phosphate in water 10. pH - Measures water alkalinity and acidity.
sources comes from agricultural wastes, - Alkaline water: Contains NH3, OH-, Ca++,
sewage and from industrial effluent. Mg++; leads to certain mineral deficiencies
- Karki (2018) described phosphate as not and reduces disinfection efficiency.
toxic to human being but it is important - Acidic water: Contains dissolved acids
chemical in natural water system like pond and dissolved carbon dioxide; corrodes
because its high concentration facilitates pipelines and contains excess minerals.
eutrophication. - Ideal pH for drinking water: 6.5-8.5
6. Hardness - merely due to salt of calcium (Karki, 2018).
and magnesium
- temporary hardness is due to carbonate BIOLOGICAL PARAMETERS:
and bicarbonate of calcium and - Used to determine if water can be utilized
magnesium, while permanent hardness is for drinking, swimming, and other forms of
due to chloride and sulfate of calcium and human contact
magnesium
 - As the streamflow increases in response to Carbon Cycle
rainfall, coliform bacteria frequently are - Nature’s way of reusing carbon atoms,
deposited into the ground water system, which travel from the atmosphere into
and, subsequently, released into the water organisms in the Earth and then back into
as the streamflow recedes the atmosphere over and over again
- Indicators: Different types of - Most carbon is stored in rocks and
microorganisms, algae, small animals such sediments, while the rest is stored in the
as protozoa, and crustaceans, bacteria ocean, atmosphere, and living organisms
such as total coliform bacteria, fecal
coliform bacteria, and fecal streptococcus
bacteria

Environmental Chemistry
The elements and compounds that sustain us are
cycled endlessly through living things and through
the environment. The ecosystems have many
biogeochemical cycles operating as a part of the
system, for example the water cycle, the carbon
cycle, the nitrogen cycle, phosphorous cycle and
sulfur cycle. All chemical elements occurring in
organisms are part of biogeochemical cycles

Nitrogen Cycle
- Nitrogen is converted into many forms,
consecutively passing from the
atmosphere to the soil to organism and
back into the atmosphere.
- Processes: nitrogen fixation, nitrification,
denitrification, decay, and putrefacation

Biogechemical Cycle
- Refers to the movement of elements and
compounds cycling continuously between
Earth and its organisms or the ways in
which an element or compound like water,
moves between its various living and
nonliving forms and locations in the
biosphere

Water Cycle or Hydrologic Cycle
- Continuous movement of water within the
Earth and atmosphere
- Complex system, many processes
- Liquid water evaporates into water vapor,
condenses to form clouds, and
precipitates back to earth in the form of
rain and snow

Oxygen Cycle
- Helps to move oxygen through teh three
central regions of the earth
 - Involves production and consumption of soil and with the decay of dead bodies of
oxygen, which leads to a constant level of organisms and plants, sulfur comes back to the
oxygen available in the atmosphere soil. The sulfur cycle integrates soil, air and water
and one part of the sulfur forms sediments.
Sulphur is incorporated in plants as-SH in
proteins, passes to heterotrophs through the food
chain and is released to the soil through dead
tissues and feces.

Phosphorus Cycle
- Describes the transformation and
translocation of phosphorus in soil, water,
and living and dead organic materials

Sulfur Cycle
- Describes the movement of sulfur through
the geosphere and biosphere
- Sulfur is released from rocks through
weathering, and then assimilated by
microbes and plants. It is then passed up
the food chain and assimilated by plants
and animals, and released when they
decompose

TYPE 1: Gaseous Sulfur Cycle

Application of Environmental Chemistry

Sulphur enters the atmosphere through bacterial
1. Heavy metal contamination of land by
emission (H2S), fossil fuel burning (SO2),
industry. These can then be transported
windblown sea salts (SO2 -4 ) and volcanic
into water bodies and be taken up by
emissions (H2S, SO2, and SO2-4 ).
living organisms.
2. PAHs (Polycyclic Aromatic Hydrocarbon)
TYPE 2: Sedimentary Sulfur Cycle
in large bodies of water contaminated by
oil spills or leaks. Many of the PAHs are
carcinogens and are extremely toxic. They
are regulated by concentration (ppb)
using environmental chemistry and
chromatography laboratory testing.
3. Nutrients leaching from agricultural land
into water courses, which can lead to algal
blooms and eutrophication.
Sulphur / sulfur tied up in inorganic and organic 4. Urban runoff of pollutants washing off
deposits is released by weathering and impervious surfaces (roads, parking lots,
decomposition. Sulfur is found in water, rocks, and
and rooftops) during rain storms. Typical
 pollutants include gasoline, motor oil and contributes to the area of waste site
other hydrocarbon compounds, metals, management and remediation in terms of
nutrients and sediment (soil). pollution identification through the
5. Organometallic compounds analysis of environmental samples, the
design of pollution abatement systems
Risk/Hazard and Environmental Impact and remediation strategies through the
Assessments: The process of risk detailed understanding of pollutant
assessment is commonly used in many behavior in the environment and in
countries to base environmental policy quantifying hazards and risks associated
decisions to the pollutant(s) of concern.
Environmental Management: Policy: The link between chemical
environmental Chemistry contributes to behavior and chemical effects is used to
this aspect through the development of decide on allowable levels of a pollutant in
new chemical products as well as through the environment (i.e. in the field of
the assessment of the life cycle of a environmental quality criteria). This
chemical. approach to environmental criteria is
Groundwater Protection: the issues (or gaining momentum in the US and Europe.
questions to be answered) in protecting a
groundwater source from, say, pollution
by waste site leachate or polluted soils
Urban runoff of pollutants washing off
impervious surfaces (roads, parking lots,
and rooftops) during rain storms. Typical
pollutants include gasoline, motor oil and
other hydrocarbon compounds, metals,
nutrients and sediment (soil).
Surface Water Quality Protection: key
questions in surface water quality relate to
where the pollutant will end up and what
will its effects on the aquatic ecosystem
be. The chemical behavior of the pollutant
will determine its fate in a system.
Soil Protection: Methods for the
assessment of soil quality and the impact
by substances using various chemical and
Eco toxicological indicators of soil
pollution
Groundwater Protection: the issues (or
questions to be answered) in protecting a
groundwater source from, say, pollution
by waste site leachate or polluted soils
Cleaner production and Waste
Management: Environmental Chemistry