ABE 66 Land and Water Conservation Engineering PDF

Summary

This presentation covers land and water conservation engineering concepts, including soil and water conservation practices, with information on the importance of these methods.

Full Transcript

ABE 66

Land and Water
Conservation Engineering
Indie G. Dapin
Department of Agricultural and Biosystems Engineering
College of Engineering
Central Mindanao University
 Into to
Soil and Water
Conservation
Importance of Soil and Water Conservation
Philippine Land and Water
Resources

Agriculture accounts for about
80% of total water use
Philippine Land and Water
Resources
TOTAL LAND AREA: 30 M ha
Alienable and disposable : 14.2 M ha
Forest: 6.84 M ha – 23% (FMB 2010 data)
Agricultural Land Area: 12.57 M ha – 42% (2010)
Irrigated Area: 1,678,595 ha
RAINFALL:
Range: 965 – 4,064 mm
Unsay plano? Moambag pa mo?

https://www.facebook.com/watch/?v=759906312737388
Discussion Question

1. What does conservation of
natural resources imply?
2. What are the engineering
problems involved in soil
and water conservation?
Excessive?

Soil
Erosion
4 Pics 1
word

Luoy
Drought
 Pangutana sa Panaghisgot
1. What does conservation of
natural resources imply?
2. What are the engineering
problems involved in soil
and water conservation?
3. What measures can you
think of to address your
answers in 2?
Soil and water conservation
engineering

Application of engineering and biological
principles to the solution of soil and water
management problems

Conservation – implies utilization without waste
– continuous high level of crop production while
improving environmental quality
Soil conservation

Soil conservation refers to the practice of
protecting soil from erosion and other forms of
degradation to maintain its fertility and
productivity.

It involves strategies to prevent soil loss due to
wind, water, and other factors, and to enhance
the structure and composition of the soil.
Water conservation

Water conservation encompasses the strategies
and practices that are used to sustainably
manage and protect water resources.

It includes reducing water wastage, improving
water use efficiency, and ensuring the
sustainable use of available water resources.
Soil and water conservation
Soil and water conservation involves practices
aimed at preventing soil erosion, improving soil
fertility, and ensuring the sustainable use of
water resources.

Essential for maintaining agricultural
productivity, protecting natural resources, and
preventing land degradation.
Significance of
Soil and water
conservation

Agricultural Productivity
Environmental Protection
Combatting Desertification
Mitigation of Climate Change
The Role of Soil and Water Conservation in
Sustainable Development
The Role of Soil and Water Conservation in
Sustainable Development

Contribution to Sustainable Agriculture:

Preservation of Soil Fertility
Water Use Efficiency
Reduction of Environmental Footprint
The Role of Soil and Water Conservation in
Sustainable Development

Enhance resilience to climate change

Soil Health
Water Management
Soil and water conservation
engineering
Engineering problems in soil and
water conservation:

1. erosion control
2. drainage
3. irrigation
4. flood control
5. water resources development
and conservation
 Conservation Ethics
increasing population will dictate the necessity of
conserving land and water resources
decreasing population of wildlife, extinction of species – air
and water pollution, loss of habitat
soil erosion is one major cause of water pollution
conversion of prime farmlands to urban development
natural resources should be passed on to future generations The conservation ethic is an
in as good or better condition than previous generations ethic of resource use,
have left them allocation, exploitation, and
growing trend of conservation (gov’t incentives, private protection. Its primary focus
sector-led, short- and long-term economic benefits) is upon maintaining the
recycling of paper, glass, metals, etc.
health of the natural world:
waste segregation; plastic ban
increasing costs of waste disposal
its forests, fisheries, habitats,
and biological diversity.
 Rational balance of land
and water resources
utilization, development
and conservation

https://landezine-award.com/feng-river-eco-park/
Major Conservation Practices

1. erosion control
2. irrigation and drainage aproaches
3. flood control
4. water resources development and
conservation
Soil Erosion Control

caused principally by human exploitation of natural
resources and removal of protective vegetative cover
urban-rural interface problems – high population density;
increased runoff – severe changes in land use
erosion control is essential to maintain crop productivity as
well as sedimentation and pollution control in waterways
it takes nature hundreds or thousands of years to build a
cm of topsoil but get displaced in a year due to misuse
factors affecting include climate (rainfall regime), soil type,
vegetative cover, topography (slope), conservation practice
Soil Conservation
Techniques

Contour Plowing
Terracing
Cover Cropping
No-Till Farming
Windbreaks
Irrigation and drainage

involves water and its movement on land surface or
through soil mass for optimum crop growth
drainage – land improvement; leaching – reclaim saline or
sodic soils; maintain low water table
irrigation – increase crop production, improve germination,
control air temperature, applying chemicals
development of reservoirs (storage facilities) to provide
water at places and times at which it is not available
increase cropping intensity; crop intensification
groundwater extraction and recharge; land subsidence
Water Conservation
Techniques

Drip Irrigation
Rainwater Harvesting
Mulching
Check Dams
Controlled Grazing
Integrated Soil and Water
Conservation Approaches

Agroforestry
Watershed Management
Conservation Agriculture
Flood control
floods cause loss of life, crops, and
property as well as cause health hazards,
water pollution, and interruption of basic
services (transportation, communication,
etc.)
flood losses will increase in the future
because of continued development and
unpredictable weather patterns
flood control consists of prevention of
overland flow on low lands and the
reduction of flow in streams during and
after heavy storms
Water Resources Development
and Conservation
agriculture accounts for between 60-80% of total water
use
about 40% (Todd, 1979) of the water for irrigation was
not available to crops
losses include conveyance, seepage, percolation,
evaporation and transpiration
elimination/reduction of losses; improve efficiency

water harvesting techniques; groundwater recharge
in water-short areas, soil water is conserved by
modified tillage and crop management techniques,
level terracing, contouring, pitting, reservoirs, and other
physical means of retaining rainfall in the soil and
reducing evapotranspiration
Major Conservation Practices
Soil and water conservation is essential for sustainable development,
ensuring the long-term productivity of agricultural systems, protecting
natural resources, and mitigating the impacts of climate change.

A variety of techniques and methods are available to conserve soil and
water, each suited to different environmental conditions and
agricultural practices.

Integrating soil and water conservation into broader land management
and agricultural practices is critical for achieving sustainability goals
and protecting the environment for future generations.
 Challenge question

1. What qualities make
ABEngers particularly well-
equipped to address and
engage in soil and water
conservation efforts?
Engineers in soil sound soil and water conservation is based on full integration of
engineering, atmospheric, plant and soil sciences
and water soil physical, chemical and engineering characteristics
soil-plant-water-environment interactions
conservation creation of proper environment for optimum plant and animal
production
Engineers in soil rural-urban interface; air and water pollution control
social and economic aspect; local and national gov’t policies,
and water laws and regulations
conservation ground and satellite mapping techniques (GIS), weather records
and prediction, soil survey reports, computers, numerical
simulations (modeling)
 What is Hydrology?
Hydrology is the science that encompasses
the occurrence, distribution, movement,
and properties of the waters of the earth
and their relationship with the
environment within each phase of the
hydrologic cycle (USGS).

Hydrology is the study of the distribution
and movement of water both on and below
the Earth’s surface, as well as the impact
of human activity on water availability
and conditions (National Geographic).
https://www.usgs.gov/special-topics/water-science-school/science/what-hydrology
https://education.nationalgeographic.org/resource/hydrology/
Hydrologic
cycle
also known as the Water Cycle

describes how water is exchanged
through Earth's land (surface and
subsurface), ocean, and
atmosphere.

https://education.nationalgeographic.org/resource/hydrologic-cycle/
 Review
the
Hydrologic
cycle

https://education.nationalgeographic.org/resource/hydrologic-cycle/
END