ABE-31-Chapter-1-Introduction.pptx.pdf

Transcript

Central Mindanao University
Musuan, Maramag, Bukidnon

ABE 31:
Introduction to Water
Management and Irrigation
Chapter 1: Introduction

Topics

Concept of Water Management & Irrigation
Water Management in the Philippines
Overview of Philippine Irrigation
Irrigation Terminologies
Chapter 1: Introduction

Intended Learning Outcome
Explain the basic concepts of water management, irrigation the benefits
and effects of irrigation and drainage

Discuss water management in the Philippines and irrigation status

Compare the different types of irrigation systems in the Philippines

Discuss the basic terminologies in irrigation
Concept of Water
Management &
Irrigation
What is Water Management?
❑ is the control and movement of water
resources to minimize damage to life
and property and to maximize
efficient beneficial use. (USDA)

❑ is the activity of planning,
developing, distributing and optimum
use of water resources under defined
water policies and
regulations. (Wikipedia)
What is Water Management?
❑ is the integrated process of intake,
conveyance, regulation,
measurement, distribution,
application and use of irrigation water
and drainage of excess water with
proper amount and at right time for
the purpose of increasing crop
production and water economy in
conjunction with improved agricultural
practices.
What is Water Management in Agriculture?
❑ Agricultural water management includes the
management of water used in crop
production (both rainfed and irrigated),
livestock production and inland fisheries.
❑ Agricultural water management seeks to
use water in a way that provides crop and
animals the amount of water they need,
enhances productivity and conserves
natural resources for the benefit of
downstream users and ecosystems
services.
Irrigation Water Management
❑ is the act of timing and regulating water
applications in a way that will satisfy the
water requirement of the crop without the
waste of water, soil, plant nutrients or energy.
Irrigation Water Management
OBJECTIVES :
1. Maximize water utilization
a. Supply the right amount of water to meet crop needs
b. More effective utilization of rainfall
c. Control or reduction of conveyance, distribution and
farm losses
d. Adoption of suitable scheme of distribution and
application of irrigation water
e. Reduction of drainage problems
2. Promote increased production
a. Proper land use
b. Proper cultural practices
c. better farm management technique
Characteristics and Water Needs of Some Crops (PCCARD, 1983)
Crop Growing Average Consumptive Seasonal
Period Depth of use (mm/day) water
(day) Rootzone Requirement
(cm) (cm)
Corn 90-120 80-100 4-7 60
Rice 100-130 15-35 4-6 100
Sugarcane 270-365 100-120 4-8 150-250
Tobacco 90-120 90 5-8 40-60
Cotton 150-180 120-125 5-8 70-130
Cassava 180-200 50-75 4-6 100-150
Sweet Potato 60-120 100-150 3-6 46
Irish Potato 100-150 40-60 - 40-50
Fruit Trees 240-365 100-500 7 90-120
Vegetables 30-60 40-50 4-6 30-50
 Major Components of Water
Management
Irrigation -is the artificial application of water to the soil essential for plants
growth.

the agricultural process of applying controlled amounts of water to land
to assist in the production of crops, as well as to grow landscape plants
and lawns.

refers to the artificial application of water to the soil to assist in the
growing of agricultural and forest crops, maintenance of landscapes,
and revegetation of disturbed soils in dry areas and during periods of
inadequate rainfall.
Drainage- is the removal of excess water from the field.
Why we need to manage the water?
❖ Non-uniform distribution of water round the year
Shortage of water resulting to drought
Excess of Water resulting from floods
❖ Different water regime (level) of crops
❖ Uncertainty of rainfall
❖ Intensive cropping to meet the food requirement
❖ Cultivation of high yielding varieties require more water
Water Management in the Philippines
WATER SOURCES
❑ The Philippines obtains its
water supply from different
sources.
These include:
❖ Rainfall
421 principal rivers 18 river basins

❖ Surface water resources, e.g
rivers, lakes, and reservoirs
❖ Groundwater resources

59 natural lakes 100,000 ha + freshwater
swamps
(Source: NWRB, FAO 2011 )
WATER SOURCES
❑ The five principal river basins cover more than 5,000km2 are
the ff.

✔ Cagayan river basin in North Luzon (25, 469 km2)
✔ Mindanao river basin in Mindanao Island(23,169 km2)
✔ Agusan river basin in Mindanao Island (10,921 km2)
✔ Pampanga river basin in Luzon Island (9,759 km2)
✔ Agno river basin in Luzon Island (5,952km2)
WATER SOURCES
WATER PRECIPITATION IN DEPTH WATER PRECIPITATION IN VOLUME

2,348 mm/year 704.4 billion m3/year
Long term average annual precipitation in depth Long term average annual precipitation in volume
(mm/yr, 2017) (billion m3/yr, 2017)

This is the sum of renewable groundwater and renewable surface water sources (both internal and external)

RENEWABLE WATER WATER RESOURCES PER WATER
RESOURCES CAPITA DEPENDENCY

479 billion m3/year 4,565 m3/ person/year 0%
Water from outside the country
Total Renewable water sources, 2017 Renewable water per inhabitant, 2017 2017

Source: https://worldometers.info
Water Management Sector
❑ Government Institutions governing Water resources in the Philippines (National Level)
Institution (National Level) Mandate and Function

DENR: FMB, EMB Primarily responsible for the management, conservation and development
(Department of Environment and Natural Resources: of forest lands and watersheds and maintaining water quality.
Forest Management Bureau, Environmental
Management Bureau)

DA: BSWM Authority on matters relative to the utilization and management of soil and
(Department of Agriculture: Bureau of Soil and Water water as vital resources; Design, construction and maintenance of SWIPs
Management)

NPC Authority to take water from any public stream, river, creek, lake or waterfall
(National Power Corporation) for power generation; complete jurisdiction and control over watersheds
surrounding the reservoirs of plants and/ or projects.

PNOC Jurisdiction, control management, protection, development and
(Philippine National Oil Corporation) rehabilitation of watershed reserves.

NIA Improve, construct and administer all national irrigation system of the
(National Irrigation Administration) country.

DOE Allocate reforestation, watershed management health and environment
(Department of Energy) enhancement fund.
Water Management Sector
❑ Government Institutions governing Water resources in the Philippines (National level)
Institution (National Level) Mandate and Function
DOH Set quality standards for water testing, treatment and surveillance and
(Department of Health) sanitary practices.
DPWH Set technical standards for engineering surveys design and construction of
(Department of Public Works and Highways) level I water systems
NEDA Policy making and infrastructure, coordination of activities of various
(National Economic and Development Authority) sectors
NCIP Formulate and implement policies for the protection of indigenous people,
(National Commission on Indigenous People) e.g. ancestral domain in critical watersheds
NWRB Coordinate and regulate water resources management and development
(National Water Resources Board) and water uses.
Joint Executive and Legislative Address the water crisis including supply, distribution, finance, privatization
Water Crisis Commission of state-run water facilities, protection and conservation of water sheds and
pilferage of water.

(Source: SANREM CRSP-SEA, 2002)
Water Management Sector
Government Institutions governing Water resources in the Philippines (Local level)
Institution (Local Level) Mandate and Function

LGUs Implement community- based forestry projects and
(Local Government Units) management communal forest with an area not exceeding 50
sq.km and enforce laws, etc.

LWUA Own and operate water supply and distribution systems for
(Local Water Utilities Administration) domestic, industrial, municipal and agricultural uses

MAYNILAD; MWSS Policy making and infrastructure, coordination of activities of
(Metropolitan Waterworks and Sewerage System) various sectors

(Source: SANREM CRSP-SEA, 2002)
 Water Management Sector
❑ The interference of major institutions involved in water resources governance

NWRB NEDA DPWH NIA DILG PNOC NPC DENR DOH

National

Water Policy Water Water Quality
Administration Management Monitoring
Local

LGU LWUA MWSS

Source: SANREM CRSP-SEA, 2002
Overview of Irrigation, purpose,
advantages, benefits and effects of
irrigation and agricultural drainage
Overview of Philippine Irrigation
Agricultural Land- 10.3M ha
Considered irrigable- 3.1M ha (up to 3%slope)
National Irrigation Administration- responsible for irrigation
development and management
Created under Republic Act RA 3601 on June 22, 1963
Categories of Irrigation Systems:
✔ National Irrigation System (NIS)
✔ Communal Irrigation System (CIS)
✔ Private Irrigation System
PhP 9.4B- allocated budget in 2019
Overview of Philippine Irrigation
❑ Comparison between the national and communal irrigation systems
For Comparison National Irrigation System Communal Irrigation System

Area, (ha) > 1000 < 1000

Implementation/ Construction National Irrigation NIA with farmers participation
Administration
Operation and Maintenance NIA and Irrigators Irrigators Association
Association
Water Charges Farmers pay for irrigation Farmers pay amortization
service
Purpose of water charges Purpose of water charges Capital cost recovery

Source: nia.gov.ph
Overview of Philippine Irrigation
❑ Republic Act No. 10969 (2018)
Also known as “Free Irrigation Services Act”

Scope of irrigation service
✔ all farmers with landholdings of 8 hectares and below are
hereby exempted from paying irrigation service fee (ISF), for
water derived from national irrigation system (NIS) and
communal irrigation system (CIS) that were, or to be funded,
constructed, maintained and administered by NIA or other
government agencies including those that have been turned
over to irrigator associations (IAs).
Overview: Bukidnon
Pulangi River- is one of the major tributaries of the Rio Grande
de Mindanao, an extensive river system
- It is the longest river in Bukidnon and the 5th
longest river in the Philippines.
Munipali River- is a major tributary of the Pulangi River

Muleta River- found in southern part of the province covering
the municipalities of Pangantucan, Don Carlos, Kitaotao,
Dangcagan, Kibawe, Kadingilan and Damulog.
Bobonawan River - is another tributary of Pulangi River found
in the municipality of Cabanglasan.
Other tributaries are:
Tigwa River in San Fernando, Bukidnon
Maradugao River,Kalabugao River & Dampisalan River in
Impasug-ong, Bukidnon
Sawaga River in Malaybalay City
Abuhan River & Balongkot River in Managok, Mlybly
Maapag River & Laligan River in Valencia City
Overview: Bukidnon
❑ Major crops produced:
✔ Corn (Zea mays)
✔ Rice (Oryza sativa)
✔ Sugarcane (Saccharum officinarum)
✔ Pineapple (Ananas comusus)
✔ Banana (Musa sapientum)
✔ High value commercial vegetables:
✔ carrots
✔ potato
✔ cabbage
✔ tomato
Overview: Bukidnon
Irrigation System

Solar Powered Irrigation River Irrigation System Diversion Canal
System (SPIS)
Solar Powered Irrigation System

Irrigation system powered by solar
energy instead of fossil fuel or
electricity
consists of solar panels, pump,
electronic controls or a controller
device to operate the pump, the
required hardware and in some
cases other items like inverters,
batteries, etc.
Typical Layout of SPIS
Purposes of Irrigation
✔ To add water to the soil to supply the moisture essential for
plant growth
✔ To provide crop insurance against short duration droughts.
✔ To cool the soil and atmosphere, making more favorable
environment for plant growth.
✔ To reduce the hazard of frost.
✔ To wash out or dilute salts in the soil.
✔ To reduce the hazard of soil piping.
✔ To soften tillage pans and clods.
✔ To delay bud formation by evaporative cooling.
Advantages of Irrigation
✔ Increased crop yield
✔ Crop diversification
✔ Risk mitigation
✔ Improved timing
✔ Optimized nutrient application
✔ Soil Erosion control
✔ Economic growth
Benefits of Irrigation
✔ Food security
irrigation contributes significantly to food production, reducing the risk
of food shortages
✔ Rural development
Irrigation supports livelihood and rural economies by creating
employment opportunities and improving living standards
✔ Sustainable Agriculture
Controlled irrigation practices can conserve water resources and
prevent over extraction from natural sources
✔ Environmental Protection
Proper irrigation can minimize negative environmental impacts by
reducing water wastage and soil degradation
Effects of Irrigation and Agricultural Drainage
1. Water logging
-poorly manage irrigation can lead to water logging where excessive water accumulates in
the soil, suffocating plant roots.
2. Salinization
-improper irrigation practices can cause accumulation of salts in the soil.
3. Aquifer Depletion
-excessive groundwater extraction for irrigation can lead to aquifer depletion
4. Ecological Impact
- alterations in water availability due to irrigation can affect local ecosystems
5. Energy Consumption
-mechanized systems can consume significant energy for water delivery
6. Soil Erosion
-improper irrigation can lead to soil erosion especially if water distribution is uneven or
excessive
Brief history of Irrigation development in
the Philippines
Pre-Colonial Era
Indigenous peoples in the
Philippines practiced rudimentary
irrigation techniques, such as
diverting water from rivers and
streams to their fields. Rice
terraces, like the famous Banaue
Rice Terraces, are examples of
sophisticated pre-colonial irrigation
systems designed to accommodate
the mountainous terrain.
Spanish Colonial Era (16th to 19th centuries)

During Spanish colonization, limited efforts
were made to improve irrigation systems.
Some communities were granted the right to
construct and maintain their own irrigation
facilities, leading to the establishment of
communal systems.
American Colonial Period (20th century)

The American colonial government
recognized the need for irrigation to enhance
agricultural productivity. In 1929, the Irrigation
Service was created under the Bureau of
Public Works. Efforts were made to construct
small irrigation systems in different parts of
the country.
Post-World War II Era (mid-20th century)
After World War II, the Philippine
government prioritized agricultural
development. The National Irrigation
Administration (NIA) was established
in 1963 to centralize irrigation
planning, construction, and
management. Major irrigation
projects, including dams and
reservoirs, were initiated to boost
agricultural output.
 Marcos Era (1970s and 1980s)
During the regime of President
Ferdinand Marcos, large-scale
irrigation projects were undertaken
as part of his "Green Revolution"
program. Notable projects during
this era included the construction of
major dams like the Pantabangan
Dam and the Magat Dam.
Post-Marcos Era (1990s to early 2000s)

The focus shifted to sustainable and participatory
irrigation management. The government promoted
community-based irrigation systems and
encouraged local involvement in maintenance and
management.
2000 to Present

Irrigation remains a critical aspect of Philippine
agriculture. The government, through NIA and other
agencies, continues to invest in modernizing and
expanding irrigation systems to improve water efficiency
and increase agricultural productivity. The focus has
shifted toward incorporating climate resilience, water
conservation, and sustainable water management
practices.
Types of Irrigation Systems in the Philippines
National Irrigation System (NIS)
The National Irrigation Administration (NIA)
manages the National Irrigation System (NIS),
which includes both major and minor irrigation
systems. Major dams, reservoirs, and canals are
constructed to store and distribute water to large
agricultural areas during dry periods.
Communal Irrigation System
These systems involve constructing
canals and distributing water among
members of the community. They are
often adapted to local conditions and
needs.
Small Water Impounding Projects (SWIP)

SWIPs involve constructing small dams or
impounding areas to collect rainwater for irrigation.
These projects are especially relevant in rainfed
areas where water availability during dry seasons is a
concern.
SWIP is a small scale dam structure constructed
across a narrow depression or valley to hold back
water and develop a reservoir that will store rainfall
during the rainy season for immediate or future use.
Pump Irrigation System for Open Source
(PISOS)
Consists of pump and prime
mover (e.g. electric, diesel or
gasoline), suction and discharge
pipes to lift water from surface
waters to deliver water to point of
use. With dependable surface
water sources such as rivers and
lakes.
Shallow Tube Wells
Shallow tube wells are drilled to tap into groundwater
resources. Water is then pumped and distributed to
fields. This approach is often used in areas with limited
surface water sources.

STW are effective in level areas with dependable
shallow groundwater. In general, they are effective
irrigation technology that provides water sources in
rainfed lowland and supplements irrigation needs on
areas not effectively serviced by existing irrigation
system. This can also be located in level upland farms
with dependable sources of shallow groundwater.
Status of Irrigation Development
Bukidnon has estimated total irrigable area of 81,984.30 hectares.
25,942.29 ha.- serviced by the National Irrigation System (NIS)
10,169.46 ha.- serviced by the Communal Irrigation System
7,323.25 hectares- serviced by Private Irrigation System
3,722.31 hectares- serviced by other government agency assisted
47, 157.31 ha.- total irrigated area

(Based on Inventory as of December 31, 2021 by the NIA)
 Irrigation Terminologies

Philippine Agricultural Engineering Standards (PAES
601:2016)
 Basic Terminologies in Irrigation
Irrigation-The artificial application of water to soil or land to assist in the
growth of crops and plants.

Water Source: The origin of the water used for irrigation, such as rivers,
lakes, groundwater wells, or reservoirs.

Water Supply: The amount of water available for irrigation purposes.

Water Requirement: The amount of water needed by crops to grow
optimally, which varies based on crop type, stage of growth, climate, and soil
characteristics.

Water Use Efficiency: The ratio of the amount of water beneficially used by
plants to the total amount of water applied.
 Basic Terminologies in Irrigation
Irrigation Efficiency: The effectiveness of an irrigation system in delivering
water to the crop root zone. It is the ratio of water beneficially used by plants
to the total water applied.

Evapotranspiration (ET): The combined process of water evaporation from
the soil surface and transpiration from plant leaves.

Cropping Pattern: The arrangement of different crops on a field over a
specific period, considering factors such as crop rotation and intercropping.
Irrigation Scheduling: Determining when and how much water to apply
based on factors like crop needs, soil moisture levels, and weather
conditions.
Furrow Irrigation: A type of surface irrigation where water is allowed to flow
down small channels or furrows between crop rows.
 Basic Terminologies in Irrigation
Basin Irrigation: A type of surface irrigation where the field is divided into
leveled basins, which are flooded with water.
Drip Irrigation: An irrigation method where water is applied directly to the
root zone of plants through a network of pipes, tubes, and emitters.
Sprinkler Irrigation: A method where water is distributed over crops in the
form of droplets sprayed through nozzles, resembling natural rainfall.
Subsurface Irrigation: Delivering water directly to the root zone below the
soil surface to minimize water loss due to evaporation and surface runoff.
Irrigation Controller: A device or system that automates the operation of
irrigation based on preset schedules or sensor inputs.
 Basic Terminologies in Irrigation
Runoff: The excess water that flows off the field surface due to irrigation or
rainfall and is not absorbed by the soil.

Waterlogging: The saturation of soil with water to the extent that air is
displaced from the pores, leading to suffocation of plant roots.

Salinity: The concentration of salts in the soil or water, which can adversely
affect plant growth and soil structure.

Irrigation Infrastructure: The physical components of an irrigation system,
including pipes, pumps, valves, and distribution networks.

Irrigation Management: The planning, implementation, and monitoring of
irrigation practices to ensure efficient water use and optimal crop growth.