Watershed Management Learning Packet 1 PDF

Summary

This document is a learning packet on watershed management, covering introduction, definitions, and concepts. It discusses the importance of watersheds to socio-economic progress and stability, while also identifying related problems and solutions. It also includes examples of watersheds in Benguet and an overview of types of streams.

Full Transcript

Learning Packet 1: Introduction, definitions, concepts and principles of
Watershed Management
Lessons to Learn: After reading the lessons on the introduction of watershed, watershed and its
resources, World’s and Philippine forests, and watershed management concepts, you should be able
to:
1. Enumerate examples of watersheds in Benguet.
2. Identify the over harvested and abused watershed resources in your place.
3. Explain the relation of Philippine population to forests.
4. Explain the triangular concept of watershed management.
5. Understand the types of streams found in a watershed.

WATERSHED MANAGEMENT

I. Introduction

WATERSHED is land bounded by a topographic divide which intercepts stores and directs/drains
rainwater to a stream or river system down to a common outlet known as a mouth either a lake, sea, or
ocean, (Plates 1 and 2). Topographic divide refers to surface divide (top of mountains) while phreatic is
refers to underground divide or rock formations.

Watersheds provide water for agricultural, industrial and domestic purposes, they are essential to
the socio-economic progress and economic stability of the country. In addition, watershed provides timber,
forage, wildlife and also services like protective and aesthetic values. However, because of the various
destructive activities of man associated with his quest for his basic needs, many of the country’s
watersheds have been devastated.

The country nowadays is encountering different man-made calamities that include siltation and
sedimentation due to soil erosion. Such calamities occur because of logging and firewood cutting, kaingin
making, improper farming practices, forest fires, grassland burning, improper range management and
many others.
Watershed managers are presently encountering problems due to increasing population of
watershed farmers. In this pressing situation, there is a need to come up with a better watershed
management strategy that will satisfy the upland farmers’ need for food, fuel, shelter and livelihood but at
the same time that is compatible with the ecological requirements of the site.

Plate. 1 Watershed Plate. 2 Watershed
Watershed Resources

A watershed is composed of the following resources: water, soil, vegetation, rock, minerals, flora
and fauna, human and improvements.

The following are the five 7 Largest basins in the Philippines
Rank Basins Region Drainage Area (ha)
1. Cagayan Cagayan Valley 2,569,648
2. Mindanao S. Mindanao 2,315,900
3. Agusan N. Mindanao 1,092,100
4. Pampanga C. Luzon 975,900
5. Agno Luzon 595,200
6. Abra Ilocos 512,500
7. Pasig Laguna 467,800

Note: The head water of Agno river basin in Mt. Data, traverse towards the municipalities of
Kabayan to Ambuclao dam in Bokod to Binga Dam in Itogon, Benguet and continue traversing to San Roque
dam in San Manuel and San Nicolas in Pangasisnan; (The whole stretched is known as the Upper Agno
river basin) and from San Roque dam to Carmen Bridge in Rosales to Urdaneta and exits to Lingayen Gulf
in Pangasinan. (Lower Agno River Basin) The head water of the river basin in Mt Data in Benguet to its
mouth or outlet in Lingayen Gulf in Pangasinan is known as the Agno River Basin.

Types of Streams Found in the Watershed

1. Ephemeral stream – Stream that has water just after rainfall
2. Intermittent stream – Stream that has water only during the rainy season
3. 3. Perennial stream – Stream that has water all through-out the year

Plate. 3 Types of streams

World’s forest:

The world has only 30% forest cover; 40% relatively undisturbed (frontier forest); 39% of frontier forest
threatened; 11 countries including Finland, Sweden, Vietnam, Guatemala, and Thailand are on the verge
of losing their frontier forest. 76 countries already lost their frontier forests; 56 countries have less than10%
forest cover and half of the original forest cover was lost during the last 30 years (Source: FAO 2000)

There are more than one billion people who lack access to a steady supply of clean water and
there are 2.4 billion people – more than 1/3 of the world’s population, who do not have access to proper
sanitation. More than 2.2 million people, mostly in developing countries, die each year from diseases
associated with poor water quality and poor sanitary conditions. (Arias, P. R. (2003)

Table shows 1 shows the country’s population and remaining forest. Of the reported 7.2 million
hectares’ forest in 2004, 6.5 million are within alienable and disposable (A & D) land. Table 1 Philippine
Forest and population

WATERSHEDS:
83% of the 114 watersheds of NIA with total area of 3,968,805 ha are in critical conditions; Of the 4.7
million hectares (total area) NIA watersheds, only 31% of it is covered with forest, the rest are grassland
(31%), cultivated (37%), and built areas (1%).

SOIL DEGRADATION:
The estimated annual rate of soil loss in the country is 74-81 million tons. Between 63-77% of the
country’s land area are affected by soil erosion; 13 out of 73 provinces have over half of their land area
being moderately to severely eroded (WRDP-WMIC-FMB-DENR-COWI, 1998).

Human can survive in two months with water without food but may die after a week without water
(From LWTD Poster, Undated) Status/trend of river: 29 river systems in Luzon are reported dead or dying.
10 reported dead by EMB (as cited by Bengwayan, 2000):

Watershed Management

✓ Implies the control or manipulation of watershed to carry out planned activity aimed at attaining,
specific objectives.

✓ Refers to the management of all-natural resources of a drainage basin to protect, maintain and
improve water yield.
ria g 4.

Activity 1
1. Enumerate 3 examples of watersheds found in CAR region. (3 points)
2. Explain the relationship of Philippine population to its forests found in table 1. (2 points)
3. Enumerate examples of over harvested and abused watershed resources in your place (3 points).
4. What type of stream is Balili river? Explain why. (2 points)
River Basins In the Philippines
3 important multiple-use forestry components to be considered in managing watershed.

1. Production - water, agricultural crops and other watershed resources

2. Protection - Protection against draught, climatic changes and typhoons etc.

3. Amenity (accessory benefits) Recreation and aesthetic values

a. Recreation values

Under recreational are: fishing, swimming, Boating, climbing, picnicking, and hunting

b. Aesthetic Values

Aesthetic refers to scenic value like biodiversity, landscapes, waterfalls and other eco-tourism sites.
Learning Packet 2:
Lessons to Learn: After reading the lessons, on watershed problems, benefits from
successfully manage watersheds, and principles governing watershed management
and development you should be able to:

1. Identify the causes of problems in a watershed and able to recommend its mitigating
measures.
2. Explain the benefits from successfully manage watersheds.
3. Explain or discuss the principles governing watershed management and development.

Watershed Problems

1. Soil Erosion-worst problem -74-81 million tons of soil are lost annually from
upland
2. Loss of biodiversity-species and habitat loss
3. Declining land/site productivity of upland farm because of soil fertility decline.
4. Microclimate deterioration - Increasing temperature locally
5. Low water quality and quantity

Benefits from Successfully Manage Watershed

1.Economic Benefits

a.) Water supply – hydro-electric power production and for domestic use
b) Forestry- Production of forest products
c) Agriculture- crops and livestock production
d) Fishery- aquaculture in reservoir and watershed stream/rivers
e) Mining- quarrying for construction purposes

2. Social services

a) Ecotourism- scenic landscape
b) Recreation-mountain climbing, fishing, etc.
c) Historical- protection of historical monuments
d) Cultural- protection of indigenous cultures.
e) Health- Watershed control of water borne diseases that affects human

3. Environmental Services

a) Biodiversity- flora/fauna conservation
b) Soil conservation- erosion control
c) Water conservation- retention/storage; quality control
Figure 13. Effects of watershed condition to run-off and erosion

d) Oxygen generation- plants releases oxygen to atmosphere
e) Microclimate amelioration- amelioration of temperature extreme

Principles Governing Watershed Management /Development

1. Holistic and Balance Framework

Holistic in Ecology, views man and environment as a single system. Watershed is an ecosystem,
with numerous physical, biological and social components that are intricately related to one another. Its
properties and behaviors are the products or the interactions between its components as influenced by
other systems and factors around it. It is largely affected by human activities and climate. In return, its
properties and behaviors affect human activities and climate. It is a complex natural system, which easily
responds to the alteration of almost any of its compartments. To manage its sustainability, it is therefore
essential to treat all compartments with equal importance.

Watershed has many uses. They are ecologically, environmentally and socio-economically
important being intimately attached to climate and socioeconomic systems.

Figure 14. Showing Interrelationship of biotic and abiotic components in an ecosystem.
 2. Sustainable Management and Development

Sustainable development is meeting the needs of the present generations without compromising
the ability of the future generations to meet their own needs. (World Commission on Environment and
Development. 1987, cited in the Philippine Agenda 21).

3. Participatory Approach and Equitability

Watershed is a common property with many stakeholders. The benefits derived from a watershed
should be equitably shared among all stakeholders who are willing to participate and invest in the
management of watershed resources. Some of the major watershed stakeholders include the state, the
forest communities, the local government units, water users, and the forest-based industry sector.

Sustainable participation of major stakeholder is essential due to the complex nature of
watershed ecosystem and the magnitude of tasks needed to be performed. The path to sustainability of
watershed resources is replete with roadblocks that will become less formidable only with the concerted
efforts of stakeholders.

4. Efficiency and Effectiveness

Economics financial resources are usually associated with watershed management for so many
years, money is always a constraint. It is therefore important that needs are properly identified and
prioritized within the context of a sound management plan to meet whatever money is available that can
be spent on project that are truly worthwhile and can most effectively address the prioritized needs.

It is also important to ensure that land, water, timber and other watershed resources are allotted
and used efficiently. That is, environmental and economic benefits derived from resource use are
maximized and the associated costs minimized.

5. Multi- sectoral and Interdisciplinary Approach

*All the agencies involved, including the community organizations/people.
*Field of experts

Activity 2
1. Identify the 3 causes of, and recommend mitigating measures to, the declining productivity
of upland agricultural farms. (3 points)
2. Discuss or explain the effects of watershed condition to, rainfall run-off and erosion in figure
13. (4 points)
3. Under the principles governing watershed management and development the number 1
principle “Holistic in ecology, views man and environment as a single system”. What are these
referred to as physical, biological, and social components that are intricately related to one
another? (3 points)

Name: _____________________ Section: __________

Answer Sheet for Activity 2

Note: Follow the format provided below in answering the questions.

3 causes of declining productivity Recommended mitigating measure
of agricultural Land
1
2
3
4-6. Ground cover Effect to Run-off Effect to Erosion
Good ground cover 4
Fair ground cover 5
Poor 6-7
8-10 Components of Ecosystem Referred to as
Physical 8
Biological 9
Social 10
Learning Packet 3:
Lessons to Learn: After reading the lessons on evaporation, condensation, transpiration
and precipitation of the hydrologic cycle you should be to:

1. Explain how rainfall is formed.
2. Differentiate cold front and warm front, convective, orographic, and cyclonic precipitations

II. The Hydrologic Cycle

-The hydrologic cycle is a continuous process by which water is transported from the oceans to
the atmosphere to the land and back to the sea. (Hydrology Vessmen 1986)

Earth’s Water
-The ocean contains 96.5 water and 3.5% on land approximately 1% of the earth’s water as fresh
water. Hydrologic cycle is expressed as P=RO+E+T+I+S

where: P=precipitation T= transpiration
RO=run-off I=interception
E=evaporation S=soil moisture/storage

A) EVAPORATION- Solar radiation heats liquid from bodies of water causing gradually change into a gas or
water vapor.

Bodies of water

Evaporation (water vapor)

Condensation (reduction of temperature)

Clouds (small water droplets 5to75 micrometers)

Coalescence (formation of bigger droplets)

Rain (>0.5mm diameter)

Factors Affecting Evaporation

a. Solar radiation
b. Temperature/ Relative Humility
c. Volume of available water
d. Vegetation/Soil Cover
e. Soil
B) Condensation- Results of the reduction of temperature by the removal of latent heat of evaporation
resulting to liquid product known as condensate.

C) Clouds- condensed form of atmospheric moisture of consisting of small water droplets or tiny ice
crystals. (Clouds range in size from about 5-75 micrometers or 0.0002to 0.003in)

D) Transpiration –evaporation of water particles from plant opening or from stomata of leaves.
E) Precipitation- all forms of water deposited on the earth surface and derived from atmospheric vapor.

Watch how rainfall is formed? https://youtu.be/nP02YF8_c2E

Measurement of rainfall (rain gauges)

1.) Non recording rain gauges
2.) Recording/ automatic rain gauge
a.) Weighing recording type rain gauge
b.) Tipping bucket

Plate 3. Tipping Bucket Plate 4. Weighing recording rain gauge

TYPES OF PRECIPITATION

1.) Convective precipitation- results from excessive heating of the earth’s surface, causing water
vapor to rise up condense, coalesce and increase in diameter before they fall as raindrop.

2.) Orographic precipitation- wind from the sea or ocean blows the condensed nuclei, towards the
seashore, the condensation nuclei, coalesce and increase in diameter before they come across
physical barriers usually fall as rain the windward direction.

3.) Cyclonic precipitation- precipitation resulting from movements of air masses due to differences
in barometer pressure.

Watched how typhoons are formed?
1. https://youtu.be/uzxgYaNm7dc
2. https://youtu.be/W2UDbDXXYGE
 Figure 2 Types of precipitation

Watch the warm front and cold front https://youtu.be/huKYKykjcm0

2 Types of cyclonic precipitation

a.) Non-frontal- low pressure area is –lifted by air masses, followed by cooling and raindrop
formation.
b.) Frontal –opposite air masses with different temperature meet precipitation occurs at the
boundaries of the masses.

4. Clouding seedling- silver iodide plus dry ice (solid carbon dioxide) is sprayed into the clouds which
attract several small water droplets to come together to form raindrops.
Learning packet 5

Lessons to Learn: After reading the lessons on subsurface flow, percolation,
and streamflow of the hydrologic cycle you should be able to:

1. Explain the importance of subsurface flow, percolation and streamflow in sustaining and
recharging the water table in rivers;
2. Discuss the relationships of percolation to artesian wells, geysers, and aquifers;
3. Enumerate the importance of measuring stream flow; 4. Compute for streamflow
discharge; and
5. Interpret a hydrograph.

I.) Subsurface Flow – inters the ground water aquifer and then slowly finds its way to streams.
(above water table)

J.) Percolation – water that percolate to a great depth and then appears after long time intervals
often as distant points as springs, artesian wells, and geysers (below water table)

Factors Affecting Percolate

1.) water content of soil
2.) vegetation
3.) depth of soil

K.) Stream-flow – movement of water under the force of gravity through a defined semi-permanent
channel.
- Stream flow hydrograph – graphical representation of a stream-flow discharge
- Common units of stream-flow discharge in the Standard International (SI) is expressed in
cubic meter per second.

Watershed Characteristics that Affects Stream-flow

a.) Size of watershed
b.) b.) Shape of watershed
c.) c.) Channel slope
d.) Drainage density and network
e.) Presence of bodies of water within the watershed

Variables that Affect Stream-flow

a.) intensity of rainfall
b.) duration of rainfall
c.) amount
d.) land use
 e.) condition of watershed
f.) type of vegetation
Importance of Stream-flow

1.) Planning for flood control
2.) Estimating the dependability of water supply
3.) Designing reservoir storage

Parts of Stream-flow Hydrograph

1.) Rising limb – refers to abrupt or gradual increase in water level in rivers depending on the
condition of watershed or intensity of rainfall.
2.) Falling limb/recession - refers to either abrupt or gradual decrease in water level in rivers
depending on the condition of watershed or intensity of rainfall.
3.) Peak flow –refers to the highest water level in the river or stream.

Hydrograph

Quantity (water)

15 Peak flow
10 Rising limb (the graph shows abrupt increase of water level)
5 Falling limb (the graph shows abrupt decrease of water level) 0
5 10 15 Time
Figure 3 Stream-flow hydrograph

- Hydrograph – graphical representation on the rise and fall of water volume or discharge
in a river for certain period of time expressed in cubic meter per second.

Measurement of Velocity

1.) Floatation method
2.) Current meter

Sedimentation

1.) Sediment – refers to soil particles that are transported by stream flow
2.) Sedimentation - process of deposition of transported soil particles, gravels and cobbles
3.) Sediment yield – total sediment outflow from the watershed
4.) Suspended load – portion of the sediment discharge consist of fie soil particles, such as silt and
clay which are transported in suspension.
5.) Bed load – portion of the sediment discharge consist of sand gobbles and gravels
6.) Total sediment load –b bed loads and suspended loads
Mode of Transport

1.) Suspension - sediments are suspended in water
2.) Saltation – bouncing sediments
3.) Bed load - sediments that move constantly in contact with the steam bed.

Stream-flow

___________________________________________________________________
Suspension (silts or clay)

Bed load
……………………………………………………………………………………………………………………………..
Water surface

Saltation

Figure 4. Sediments transported by water current

Figure 5 hydrograph of a forested and denuded watershed
Learning Packet 4
Lessons to Learn: After reading the lessons on interception, infiltration,
and Surface run-off, you should be able to:
1. Explain the importance of interception to watershed management.
2. Discuss the relationships of infiltration to soil erosion and flooding.
3. Enumerate at least three importance of infiltration to watershed.

F.) Interception- refers to rainfall caught by vegetation or crown of trees.

Kindly watch this video on how to measure interception.
https://youtu.be/VZGioyqIbgU

Factors in Influencing Interception

A.) Rainfall intensity, duration, and distribution
B.) Vegetation characteristics

Importance

1.) Influences soil moisture distribution
2.) Reduces the type and quantity of precipitation to be converted to overland flow.

TYPES
1.) Through fall- precipitation which is initially or not all intercepted by vegetation
then falling directly to the ground.

2.) Stem-flow - precipitation that is initially intercepted and flows through the stem.

3. Interception loss via evaporation – precipitation which is initially intercepted,
then converted to water vapor.

Methods of Measurement

1.) Direct method -using rainfall gauges over and under the vegetation, the difference
between the two represents the intercepted precipitation.

2.) Indirect method - by the use of regression equation, given several dependent factors the
interception is estimated.

G.) Infiltration –refers to the vertical entry of water from the surface into the soil.

Kindly click the you tube link and watch the video of infiltration and Surface Run-off.
https://youtu.be/cz-FZ-ADQjE

Importance: Major process that recharges the water table.
Factors Affecting Infiltration Capacity

1.) Thickness of saturated layer
2.) Soil moisture
3.) Compaction caused by rain
4.) In wash of fine materials
5.) Entrapped air
6.) Microbial activities
7.) Soil porosity
8.) Land uses – logging, road construction, kaingin, grazing

Measurement of Infiltration

a.) areal measurement – analysis of rainfall run- off data from a watershed.
b.) Point measurement
eg.Ring infiltrometer
-sinle ring
-double ring

Kindly watch the you tube videos on how to measure infiltration.

Single ring infiltration measurement: https://youtu.be/9KSdTFHA_E4
Double ring infiltration Measurement: https://youtu.be/W3YzCxOf5LE

Range of Soil Infiltration Values (mm/hr)

250 very rapid

H.) Surface Run-Off – refers to water flowing on soil surface as a result of soil saturation
SRO occurs when rate of precipitation exceeds the rates of which water infiltrates.

Factors Affecting Run-Off

1.) Climate factors
a.) Type of precipitation
b.) Rainfall intensity
c.) Duration of rainfall
d.) Distribution of rainfall on basin

2.) Physiographic factors
a.) Land use
b.) Area
c.) Shape
d.) Elevation
e.) Slope
d.) Orientation

Methods of Measuring SRO
1.) Use of run-off plots
2.) Weirs or Flumes

Activity 4
1. Explain the importance of interception to watershed management. (2 points)
2. Discuss the relationships of infiltration to soil erosion and flooding. (2 points)
3. Enumerate at least three importance of infiltration to watershed. (3 points)
4. Interception loss via evaporation is a type of precipitation that reaches the
ground. Do Agree or disagree, Why?
5. How much is the amount of intercepted rainwater if the rain-gauges above and
below the tree collected 100 ml, and 70 ml respectively?
Learning Packet 6
Lessons to Learn: After studying and reading the hydrologic cycle illustrations of a
denuded and forested watersheds, and reading the lessons on water augmentation
respectively, you should be able to:

1. Differentiate the hydrologic cycle undergoing in forested and denuded watershed.
2. Enumerate water augmentation practices in your places.

Hydrologic Cycle in Forested and Denuded Watershed
The two illustrations of forested and denuded watersheds (Fig. 6) summarizes the differences of
the hydrologic processes involve in the hydrologic cycle. See the illustrations and note the differences.

A. Forested Watershed

B. Denuded Watershed
Figure 6 Denuded and Forested Watershed

A
Activity 5
Note: Use 1 page only
1. Enumerate at least 4 hydrologic processes missing or that changes in a denuded
watershed compared to the forested watershed. (4 points)
2. Enumerate and show picture of at least 3 water augmentation practices of farmers or
residents in your home town or other municipalities in Benguet. (6 points).