Biodiversity and GMOs PowerPoint PDF

Summary

This document discusses biodiversity, including ecosystem, species, and genetic diversity, and its importance for various ecosystem services. It also explains genetically modified organisms (GMOs), covering their use in food, agriculture, and other industries, while acknowledging potential risks and benefits. The presentation emphasizes the interplay of environment, health, and society and the challenges of biodiversity preservation.

Full Transcript

Biodiversi Chapter 3

ty
Genetically&
Modified
Organisms
Prepared by:
(GMO)
Ms. Rosean A. Batas & Mr. Michael Sabellon
Instructors
Learning Objectives
At the end of the lesson, you should be
able to:

Determine the interrelatedness of
society, environment, and health;
Explain the process of genetic
engineering;
Discuss different implications, issues
and impact of GMOs
 Introduction
The World Wide Fund for Nature
and Zoological Society of London
reported an annual decrease in
wildlife by 2%.
Major cause is human population
which has doubted in number
since 1960 to 7.4 billion.
Marco Lambertini, the
General Director of
WWF International
described that the
disappearance of
wildlife is at an
unprecedented rate.
Mass extinction is
described as the
disappearance of
species at a rate of
1,000 faster than
Disappearance of species in a
certain environment causes an
imbalance in the ecosystem,
producing more chaotic changes
that harm the entire ecosystem.
(Inquirer.net,2016)
BIO DIVERSITY

means “life” means “variety”
 Whatis isall
-Biodiversity
theBiodiversity?
different kinds
of life you’ll find in
one area, the
variety of animals,
plants, fungi and
even
microorganisms
like bacteria that
make up our
natural word.
 TYPES OF
BIODIVERSITY
Ecosystem Diversity

Genetic Diversity

Species Diversity
 ECOSYSTEM DIVERSITY
This refers to
variation among
groups pf
organisms in
terrestrial and
aquatic
environments.
 SPECIES DIVERSITY

This denotes
about variety of
species within a
community.
 GENETIC DIVERSITY

This pertains to
variation in genes
contained by an
organism.
Let’s Think About
This!
Why
biodiversit
y is
important?
 Why
Each is species
it important?
and
organisms work
together in ecosystems,
to maintain balance
and support life.
Biodiversity supports
everything in nature
that we need to
survive: food, clean
water, medicine and
 What is an Ecosystem?
An ecosystem is a
geographic area
where plants,
animals and other
organisms as well as
the weather and
landscapes , work/
interact together to
form a bubble of life.
 What is an Ecosystem?

Contains of biotic or
living things and
abiotic or non living
things.
Biodiversity and
Ecosystem
Defined as the vast
variety of life forms
in the entire Earth.
Enhances
ecosystem
productivity where
species no matter
how small, all have
Exampl

e:
A number of plant species means
greater variety of crops
 Greater species diversity ensures natural
sustainability for all life forms
 Healthy ecosystems can better withstand
and recover from variety of disasters.
 Ecosystem
services
1. Protection of water resources
2. Soils formation and protection
3. Nutrient storage and recycling
4. Pollution breakdown and absorption
5. Contribution to climate stability
6. Maintenance of ecosystems
7. Recovery from unpredictable event
 CHANGES IN
BIODIVERSITY
Changes to biodiversity can have severe
and unpredictable effects on the health of
all living things, including human beings.
Example:
Clearing of land may reduce plants and
other organisms and if disasters occurs , no
one could withstand and preserved the
ecosystems anymore
 THREATS TO
BIODIVERSITY
1. Habitat loss and destruction
2. Alterations in ecosystem
composition
3. Over-exploitation
4. Pollution and contamination
5. Global climate change
-Consequences of biodiversity
loss
-Nutritional Impact of
Biodiversity
*Biodiversity is a vital element of
a human being’s nutrition
because of its influence to food
production. (WHO)
*-Health, Biology, and
Biodiversty
 ENVIRONMENT-RELATED
ILLNESSES
 changes in biodiversity will banish
all this contribution and will expose
human beings to different kinds of
diseases.
 According to research, loss in biodiversity
affects human health, such as mental health
ailments, depression, Parkinson's disease,
heart disease, cancer, chronic obstructive
pulmonary disease, asthma, diabetes,
obesity, occupational injuries, dysentery,
arthritis and malaria
 Let’s Practice!
1. What are small ways that you think would
promote safekeeping our biodiversity?
2. What do you think are the common human
activities that can harm biodiversity?
3. What would be the consequences if these
human activities might be stopped and
prohibited?
 Activity
Concept Mapping. List down several concepts that the
society or human beings benefit from biodiversity. On
the other circle, enumerate the different challenges and
disadvantages that biodiversity suffers as we work our
way to acquire the benefits. On the space where the two
circles meet, list down possible ways and strategies on
how we could acquire these benefits and needs without
compromising the growth process of biodiversity
GENETICALLY MODIFIED
ORGANISMS: SCIENCE,
HEALTH, AND POLITICS
 In 1951, genetic engineering was coined by
Jack Williamson, author of the science fiction
novel Dragon’s Island.
 Genetically Modified
Organisms (GMO)
 Term used for an organism created through
genetic engineering.
 GMO as an organism, either plant, animal, or
microorganism, in which the genetic material
(DNA) has been altered in a way that does
not occur naturally by mating or natural
recombination. (WHO, 2014)
 GMOs in Food and
Agricultural Industries
1. Pest resistance
 Genetically modified plants to resist certain
pests.

Bt Corn
 GMOs in Food and
Agricultural Industries
2. Virus resistance
 Genetically modified plants to resist certain
viruses.
Ex. GM Papaya or
Rainbow papaya
 GMOs in Food and
Agricultural Industries
3. Herbicide tolerance
 Genetically modified
plants to tolerate
herbicide.
Ex. Roundup ready
soybean
 GMOs in Food and
Agricultural Industries
4. Fortification
 Genetically modified
plants fortified with
certain minerals.
Ex.
Golden rice
 GMOs in Food and
Agricultural Industries

5. Cosmetic preservation
 Genetically modified plants
resist natural discoloration
Ex.
Arctic Apple
 GMOs in Food and
Agricultural Industries
6. Increase growth rate
 Genetically modified
organism that has
higher yield in growth
than normal species.
Ex.
AquAdvantage
salmon
 GMOs in Non-Food Crops and
Microorganisms
1. Flower production
 Modified color and extended vase life of
flowers
Ex.
Blue Roses
 GMOs in Non-Food Crops and
Microorganisms
2. Paper production
 Modified characteristics of trees for higher
yield of paper production
Ex.
Poplar trees
 GMOs in Non-Food Crops and
Microorganisms
3. Pharmaceutical
productions
 Modified plants to
produce pharmaceutical
products.

Periwinkle plants
 GMOs in Non-Food Crops and
Microorganisms
4. Bioremediation
 Use of modified plants that
can resist in the
bioremediation of polluted
sites.
 Ex. Shrub tobacco
 GMOs in Non-Food Crops and
Microorganisms
5. Enzyme and drug
production
 Use of modified
microorganisms that can
produce enzymes for food
processing and medicines.

CGTase
 GMOs in Non-Food Crops and
Microorganisms
6. GMOs in the medical field
 Genetic engineering is
playing a significant role
from diagnosis to treatment
of human-dreaded
diseases.
Humulin
 Benefits of GMOs
 Higher efficiency in farming
 Increase in harvest
 Control in fertility
 Increase in food processing
 Improvement of desirable characteristics
 Nutritional and pharmaceutical enhancement
 Reduce the use of fertilizer and pesticides
 Potential Risks of GMOs

1. Since genetic engineering is still a young
branch of science, there are inadequate studies
on the effects of GMOs to humans and the
environment.
 Potential Risks of GMOs

2. Genetic engineering promotes mutation in
organisms which the long term effect is still
unknown,
 Potential Risks of GMOs
3. Human consumption of GMOs might have the
following effects:
 More allergic reactions
 Gene mutation
 Antibiotic resistance
 Nutritional value
Potential Environmental Risks
Caused by GMOs
1. Risk in gene flow
2. Emergence of new forms of resistance and
secondary pests and weed problems
3. Recombination of Virus and Bacteria to
produce new pathogens
 Other direct and indirect
Environmental Risks Caused by
GMOs
1. Direct environmental risks are:
 Introduction of the GMOs in the natural
environment may cause disruption of the
natural communities through competition or
interference;
 Other direct and indirect
Environmental Risks Caused by
GMOs
 The possibility of unexpected behavior of the
GMOs in the environment if it escapes its
intended use and may post threats or
become pest.
 Other direct and indirect
Environmental Risks Caused by
GMOs
 May cause harmful effects to ecosystem
processes if GMOs interfere with the natural
biochemical cycles
 Persistence of GMO genes after its harvest
which may cause negative impacts to the
consumer of GMO products.
 Other direct and indirect
Environmental Risks Caused by
GMOs
2. Indirect environmental risks are:
 Alteration of agricultural practices like
managing negative impacts of GMOs to the
environment such as evolution of insects,
pests, and weeds that became resistant to
GMOs crops
 Other direct and indirect
Environmental Risks Caused by
GMOs
 May have impacts to biodiversity caused by
the alteration in agricultural practices;
 May have varied environmental impacts due
to GMOs interaction and release in the
natural environment.
Potential Human Health Risks
Caused by GMOs
 Consumption of GMOs may have adverse
effects since it is not naturally or organically
produced.
 Consumption of GMOs may alter the balance
of existing microorganisms in the human
digestive system
Potential Human Health Risks
Caused by GMOs
 Production of toxins may be detrimental to
human health;
 Production of allergens may have adverse
effects on humans.
Potential Risks that raise major
concern are:
 Human Genome Project (HGP)
 Mutation of genetically engineered
microorganisms
 Cloning
 GMOs in Philippine Context

 The GMO concern started in the 1990s with
the creation of the National Committee on
Biosafety of the Philippines (NCBP) through
Executive Order No. 430 of 1990.
GMOs in Philippine Context

 In 2002, the Department of Agriculture
release Administrative Order No. 8, the
guideline for the importation and release into
the environment of GM plants and plant
product.
 GMOs in Philippine Context

 The Philippines was marked to be the first
country in Asia to approved commercial
cultivation of GMOs when GM corn planting
was approved in 2002 (Serapio and Dela
Cruz, 2016)
 GMOs in Philippine Context

 In 2004, the Philippines was classified by
International Service for acquisition of agri-
biotech applications
 Sen. Juan Flavier, authored a bill on the
mandatory labelling of food and food
products with GMOs.
 GMOs in Philippine Context

 In 2006, Philippines became part of the
Cartegana Protocol on Biosafety
 Executive Order No. 514 was issued to
address the biosafety requirements.
GMOs in Philippine Context
 GMOs in Philippine Context
 In March 7, 2016, five government agencies
namely, the DOST, Department of Agriculture,
DENR, DOH, DILG, passed a Joint
Department Circular No. 1, s. 2016 on rules
and regulations for the research and
development, handling and use,
transboundary movement.
References:
cloning - Google Zoeken. (n.d.). https://www.google.com/search?q=cloning
Serafica, J.P.J, Pawilen, G.T, Caslib, B.N, Alata, E.J.P (2018). “Science, Technology and
Society”
Thank
You!