GE ELEC 1 Agricultural & Aquacultural Practices PDF

Summary

This document provides an overview of agricultural and aquacultural practices. It details various methods and techniques, including traditional and modern practices, and discusses the goals and importance of sustainable agricultural practices.

Full Transcript

GE ELEC 1
MODULE 3: AGRICULTURAL & AQUACULTURAL PRACTICES
❖ Agriculture- practice of cultivating and raising Rely on manual labor and natural
animals to produce food, fiber, medicinal plants, processes.
and other products essential to sustain human life. Focus on sustainability and harmony
❖ It involves various activities such as farming, with the environment.
animal husbandry, and agroforestry, which are Examples: terracing, crop rotation,
fundamental to providing food and raw materials organic farming, and the use of
for society. traditional seeds.

Goals of Agriculture 1. RICE TERRACING (Banaue Rice Terraces)
Food Security- ensure a stable and sufficient Method: Farmers carve terraces into the
supply of food to meet the nutritional needs of a mountainsides, controlling water flow for
growing global population. irrigation.
Economic Sustainability- create viable
Significance: Helps in sustainable rice
livelihoods for farmers and contribute to local,
production in mountainous regions and
national, and global economies.
preserves cultural heritage.
Environmental Stewardship- minimize the
✓ It promotes food security, particularly
environmental impact of agricultural practices
for rice, the staple food in the
and promote sustainability.
Philippines.
Resource Efficiency- maximize the efficient use
of natural resources such as water, soil, and 2. SLASH-AND-BURN (Kaingin)
energy.
Innovation and Technology Advancement- Method: Farmers clear a patch of land by
adopt and promote technological advancement cutting and burning vegetation to plant crops.
to improve agricultural productivity and Significance: Although widely discouraged due
resilience. to its environmental impacts, this method has
traditionally been used to clear forests for
❖ Agricultural Practices- refer to the methods farming.
and techniques used in farming to grow crops ✓ It’s a subsistence practice in rural areas,
and raise animals. contributing to local food production.
Vary based on geography, climate, 3. MULTI – CROPPING
available technology, and cultural
traditions. Method: Planting different types of crops on
They include everything from land the same place of land simultaneously.
preparation, sowing, irrigation, pest Significance: Increases biodiversity and
control, and harvesting to post-harvest maximizes land use, reducing the risk of crop
processing and animal husbandry. failure and supporting local economies.

Two General Practices 4. CROP ROTATION

1. Traditional Method: Growing different crops in the same
field across different seasons (planned
2. Modern sequence).
❖ Traditional Practices Significance: A typical rotation could be corn
Often based on indigenous knowledge (which depletes nitrogen), followed by legumes
passed down through generations. (which fix nitrogen into the soil), and then cereal
crop like wheat or barley.

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1. POND CULTURE
❖ Modern Practices
Raising fish in enclosed ponds where water
Make use of scientific and
quality and feed can be controlled. Common for
technological advancement to increase
species like tilapia and catfish.
productivity.
Focus on efficiency, yield optimization, 2. CAGE CULTURE
and scalability.
Often involve machinery, synthetic Fish are grown in cages or enclosures
fertilizers, and genetically modified submerged in natural water bodies such as lakes,
organisms (GMOs). rivers, or the ocean. This allows access to natural
Examples: precision farming, use of water flow with confining the fish.
chemical pesticides and fertilizers, and 3. INTEGRATED MULTI-TROPHIC
genetic engineering crops. AQUACULTURE (IMTA)
1. GMO SEED TECHNOLOGY Practice where multiple species are farmed
Method: Farmers use hybrid seeds, especially together in a complementary way.
for crops like rice, corn, and vegetables to 4. SEAWEED AND ALGAE FARMING
increase yields and pest resistance
Significance: Boosts food production, helping Cultivating marine plants or food, cosmetics, or
ensure a steady supply of food for local markets biofuel. This is often done in open water or
and export controlled tanks.
5. SHELLFISH FARMING
Genetically Modified Organisms:
Cultivating species like oysters, clams, and
✓ Created by directly altering the plants mussels in natural bodies of water, often using
genetic material using biotechnology racks, bags or cages anchored to the sea floor.
✓ This involves inserting, deleting, or
modifying genes, often from entirely Impacts of Agricultural and Aquacultural Practices
different species, to introduce new traits ✓ Soil Degradation
that would be difficult or impossible to ✓ Water Quality
achieve through traditional breeding. ✓ Biodiversity Loss
2. AQUAPONICS AND HYDROPONICS SOIL DEGRADATION
Method: Uses nutrient-rich water to grow crops Soil Erosion- Over plowing, monoculture, and
without soil, often in urban settings or areas with deforestation expose soil to wind and water
poor soil quality. erosion, stripping away topsoil that is vital for
Significance: Allows year-round food fertility.
production contributes to food security, Nutrient Depletion- Repeated planting of the
particularly in urban centers or regions where same crops without crop rotation or adequate
traditional farming is challenging. fertilization depletes essential nutrients, reducing
Agriculture Practices soil fertility.
Salinization- Irrigation in poorly drained soils
Refer to methods and techniques used to can lead to the accumulation of salts in the soil,
cultivate aquatic organisms such as fish, making it less productive for plant growth.
shellfish, and plants in controlled environments.
These practices are applied to enhance food WATER QUALITY
production, conserve aquatic species, and Nutrient Runoff
support economic activities. Pesticide and Herbicide Contamination
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Sedimentation Distinct seasons, deciduous trees
Aquaculture Pollution- Fish farms can release Example: Eastern U.S., Europe.
uneaten feed, faces, and chemicals (like
antibiotics and pesticides) into water bodies, TUNDRAS
polluting local ecosystems and contributing to
algal blooms Cold, treeless, permafrost regions
Example: Arctic tundra
BIODIVERSITY LOSS
Types of Biomes Aquatic
Habitat Destruction- Clearing forests and
wetlands for leads to habitat loss for many FRESH WATER BIOMES
species.
Overuse of Chemicals- Harm beneficial insects,
Lakes, rivers, wetlands
birds, and other wildlife, disrupting ecosystems Crucial for drinking water and habitats
and reducing biodiversity. MARINE BIOMES
Invasive Species- Involve farming non-native
species that can escape into the wild and Ocean, coral reefs, estuaries
outcompete local species, disrupting ecosystems Cover 71% of earth, immense biodiversity

INTRO TO BIOMES Philippine Biomes
TROPICAL RAINFORESTS
Large ecological area defined by climate,
soil, plants, and animals. High biodiversity, home to endemic species
Essential for climate regulation and (e.g., Rafflesia arnoldii)
biodiversity. Threats: Deforestation for agriculture and
urbanization
Types of Biomes
CORAL REEFS
✓ Terrestrial
✓ Aquatic Biomes Vital for local fisheries and tourism
Types of Biomes Terrestrial Threats: Climate change, destructive fishing
practices.
TROPICAL RAINFORESTS
MANGROVE FORESTS
High temperatures, heavy rainfall, rich
biodiversity. Protect coastlines, support fisheries
Examples: Amazon, Congo, Southeast Asia, Threats: Coastal development and pollution
Philippine rainforests. DEFORESTATION
SAVANNAS Logging, agriculture, and urbanization
Grasslands with scattered trees, seasonal Consequences: Habitat loss, increased
rainfall. greenhouse gases.
Examples: African Serengeti POLLUTION
DESERTS Industrial waste, urban runoff, plastic waste
Low precipitation, water-conserving plants. Impact: Eutrophication, marine life threat
Example: Sahara Desert URBANIZATION
TEMPERATURE FORESTS
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Rapid city growth leading to habitat Artificial reefs and coral restoration
destruction Renewable energy for reducing carbon
Example: Urban heat islands, flooding. footprint
CASE STUDIES: Human Activities in the Philippine Initiatives
Philippines
Harnessing Technology for Forest
Mindanao Deforestation Conservation
✓ Utilize digital tools for data collection
Agricultural expansion, loss of habitats,
and monitoring
landslides
✓ Mobile applications for reporting illegal
Manila Bay Pollution activities

Industrial and urban runoff, rehabilitation
challenges
Cebu City Development
Loss of green spaces, flooding risks.
Typhoon Haiyan
Example of climate change impact, need for
disaster preparedness
Conservation Efforts
Protected areas, marine sanctuaries,
community-based initiatives
Example: Apo Island Marine Protected Areas
(MPAs)

Exploring Environmental Management
Approaches
Restoration Initiatives
Reforestation and coastal reforestation
programs
Example: Mangrove restoration in Iloilo
Sustainable Practices
Organic farming, sustainable fisheries
Example: Sustainable fishing in Palawan
Technology & Innovation in Conservation
Innovative Solutions
Remote sensing for forest monitoring

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