Conservation Agriculture in the Philippines

What is Conservation Agriculture (CA)

CA is a set of soil management practices that minimize the disruption of the soil's structure, composition and natural biodiversity. Despite high variability in the types of crops grown and specific management regimes, all forms of conservation agriculture share three core principles. These include:

• maintenance of permanent or semi-permanent soil cover (using either a previous crop residue or specifically growing a cover crop for this purpose);
• minimum soil disturbance through tillage (just enough to get the seed into the ground) ;
• regular crop rotations to help combat the various biotic constraints;

CA also uses or promotes where possible or needed various management practices listed below:

• utilization of green manures/cover crops (GMCC's) to produce the residue cover;
• no burning of crop residues;
• integrated disease and pest management;
• controlled/limited human and mechanical traffic over agricultural soils.

When these CA practices are used by farmers one of the major environmental benefits is reduction in fossil fuel use and greenhouse gas (GHG) emissions. But they also reduce the power/energy needs of farmers who use manual or animal powered systems.

Other Important Definitions

Conservation agriculture is largely the product of the collective efforts of a number of previous agricultural movements, including no-till agriculture, agroforestry, green manures/cover crops, direct planting/seeding, integrated pest management, and conservation tillage among many others. Yet CA is distinct from each of these so-called agricultural packages, even as it draws upon many of their core principles. This is because CA uses many of the available technologies in unison, resulting in something many believe to be much greater than the "sum of its parts."

The following terms are often confused with conservation agriculture:

• No-till (NT)/ Zero till (ZT)
  NT and ZT are technical components used in conservation agriculture that simply involve the absence of tillage/plowing operations on the soil. Crops are planted directly into a seedbed not tilled after harvesting the previous crop. Not everyone utilizing no-till technologies adopts other important components of CA. One major difference is that NT or ZT do not necessarily leave residue mulch. Some recent research data suggests this is vital, since without the residue mulch many of the benefits of CA are lost or decreased in value.

• Conservation tillage/ Minimum tillage/ Reduced tillage
  These are tillage operations that leave at least 30% of the soil surface covered by plant residues in order to increase water infiltration and cut down on soil erosion and runoff. Conservation tillage is an intermediate form of CA since it keeps some soil cover as residue from the previous crop. But some tillage is usually done. It developed as a management system after the “Dust Bowl” of the 1930’s in the Mid-West areas of the USA. It was found to reduce erosion by protecting the soil surface from wind and rain.

• Direct planting, direct drilling, plantio direto and siembra directa 
  These are terms used for ZT in other countries like Australia and South America. They use special equipment (e.g. NT drill) to plant seeds directly into crop residues left on the soil surface without preparing a seedbed beforehand.

• Direct seeding
  This term is usually associated with growing a rice crop like any other cereal crop without producing seedlings that are then transplanted into the main field. However, it can also be called NT or ZT if the seed are drilled without tillage.
  
  
• Organic farming
  Organic agriculture does not permit the use of synthetic chemicals to produce plant and animal products, relying instead on the management of soil organic matter (SOM) and biological processes. In some parts of the world, farms must be inspected and certified before their food products can be sold as organic, indicating that no synthetic chemicals were used in producing them. But organic farming uses the principles of CA to some extent and one objective similar to CA is to maintain and improve soil health. Unlike organic farming, CA does allow farmers to apply synthetic chemical fertilizers, fungicides, pesticides and herbicides. Many farmers rely on using these to control weed and pest problems, particularly during the early transition years. As soil physical, chemical and biological health improves over time; the use of agrichemicals can be significantly reduced or, in some cases, phased out entirely. 

CA is often used synonymously with ZT that is also believed to require heavy implements and large tractors. However, CA can be used by farmers with large or small holdings as follows:

• Manual systems can include practices that build hills (eg. The traditional Iroquois Indian “Three Sisters” system) or basins (W.African Zai system) or use hand held planters (jabbar planters or matracas) or planting sticks to get seed into the ground without tilling the soil.
• Animal traction systems can be as simple as making a furrow for placement of seed and micro-placement of nutrients to planters that can place seed and fertilizer even when residues are present.
• Tractor power systems range from low horsepower, two wheel tractor systems to large, high horsepower 4-wheel or more models. They can be low cost no-till seeders manufactured by local artisans building on existing seed drills or expensive machinery developed by large tractor implement companies.

Farmers who do not own tractors can also avail of the tractor powered systems through use of hiring or service providers, a common system for plowing in many developing countries. 

Freshwater Giant Prawn Farming

Giant Freshwater Prawn (Macrobrachium rosenbergii)

Growing freshwater prawn is a promising alternative to the expensive lobster and tiger prawn. The freshwater prawn, locally known as ulang, can be substituted for lobster and tiger prawn (sugpo) because of their appearance and excellent taste. Among the 15 species of freshwater prawn in the Philippines, the most popular to culture is the macrobrachium rosenbergii, also known as udang in ilocano, kising-kising in Pangasinan, and swahe in other regions.

The macrobrachium rosenbergii is appealing to culture because of its rapid growth performance and ability to survive and grow in turbid water conditions. Ulang can tolerate moderate temperature and salinity changes, and can be caught in tributaries and cultured in ponds, tanks, cages, and rice paddies. They feed on anything such as terrestrial animal feeds, fish feeds, kitchen leftovers, and vegetables like carrots, winged beans, etc.

Freshwater prawn can be used in polyculture together with tilapia and carp. They can tolerate temperature up to 34oC and actively feed at night. They consumed less feed than tilapia since they are nibblers and slow feeder. They grow to a maximum size of more than 1 kilogram per piece and they command high price in the market.

GROW-OUT OPERATION OF ULANG

Factors affecting success of grow-out operation:

1. Feasibility of the site

2. Water Supply/Water Quality

3. Topography

4. Quality of soil

5. Free from flooding

6. Quality of Stock

7. Market acceptance

8. High level Management practices

9. Peace and order situation

I. PROCEDURES IN POND OPERATION:

Pond Preparation

1. Pond draining – To collect eliminate old stocks, predators and unwanted species.

2. Pond poisoning – Application of biodegradable organic materials such as tea seed cake and tobacco dust to kill all unwanted species.

3. Pond washing – to remove the effect of toxic chemicals when insecticides were used.

4. Leveling of pond bottom – removes excess mud and dirt, ensure complete drainage and facilitate ease of seining during harvesting.

5. Sun drying – helps eliminate and evaporates toxic gases & ammonia especially in old ponds

6. Screening of water inlet and outlet – prevent entrance of unwanted species and escape of stocks

7. Filling the pond with water –Fill the pond with water from 0.8 to 1.5 meters depth.

8. Application of lime– The rate of application is 100g / m2 or 1,000 kg./ ha

9. Basal fertilization

10. Installation of Artificial shelters – arrange the shelters in the pond (30 – 50 pcs/1000m2)

II. NURSING OF POST LARVAE (PL) TO JUVENILE

Nursing of PL to Juvenile Prawn– The size of the Post larvae ranging from 1.5 to 2.0 cm must be reared to juvenile size of 5 cm to 8 cm before transferring them into the grow-out ponds to attain marketable size.

a. Nursery Ponds. The size of the pond must be 50 sq.m. with a depth; 0.8-1.5 m

b. Artificial shelters. This are placed in the nursery ponds to serve as hiding place of the Post larvae during molting. Artificial shelter is needed because when prawns are soft shelled they will be eaten or cannibalized by the hard shells prawn. The following can be used as artificial shelters:

1. twigs, bamboos , sampaloc twigs

2. pipes, PVC, or recycled materials like nets

3. bricks or stones

4. used mineral water bottles (250-300 ml)

c. Nets used for substrate can be suspended from float across the pond and weighted with sinkers to serve as hiding place for molting prawns to prevent or reduce cannibalism.

III. GROWING OF JUVENILE TO MARKETABLE SIZE

Stocking Density

Extensive – The stocking density is 1-3 pcs/m2, with the use of fertilization only (chicken manure and 16-20-0) at a rate of 1,000-2,000 kg/ha and 100-200 kg/ha respectively for basal application.

Semi- intensive – A stocking density of 4-8 pcs/m2 with the use of fertilization and feeding. A monthly exchange of 30% of water in the pond is done to maintain water quality

Intensive – The stocking density of 10 pcs /m2 and above with feeding, fertilization, frequent water exchange and aeration using paddle wheel is also done to ensure enough supply of dissolve oxygen for the prawn.

Stocking Procedure

Acclimatize the prawn juveniles into the pond water for 10-15 min. before releasing the prawn in the pond water to prevent thermal stress that will cause mortality.

CAUSES OF MORTALITY:

a. Cannibalism- due to lack of food and shelters

b. Predators – mudfish, catfish, frogs

c. Water pollution – insecticide, pesticide, industrial waste products

Types of Feeds for Commercial Farming of Ulang

1. Live or fresh food (termites, earthworm, insects

2. Plant vegetable feedstuffs

3. Formulated diets

4. Reformulated diets (ground tilapia feeds mixed with fish meal & starch as binder)

5. Chicken pellets (to be given during the first 2 mos. of culture)

6. Ground fish flesh mixed with cooked broken rice (to be given after two mos. of stocking)

7. Tilapia sinking pellets

8. Trash fish

Initial feeding rate using trash fish:

• 5% of total body weight

For dried diet, chicken pellets/fish feed:

• 3% of total body weight

• prawn are nocturnal feeder 40 % of feed ration must be given at night.

Regular water quality monitoring and feeding activities of the prawn must be properly observed.

DETERMINATION OF AVERAGE BODY WEIGHT (ABW), DAILY FEED RATION (DFR), TOTAL FEED REQUIREMENTS (TFR) FEED CONVERSION RATIO (FCR)

* The closer the FCR to 1.0 kg. The better is the feeds. Good feed have FCR’s of between 1.5 to 2.0 kgs.

HARVESTING OF ULANG

Harvesting of ulang can be done when they reached its marketable size. After 4to 5 months of stocking, ulang can be harvested through selective harvesting or total harvesting. 

Methods of harvesting

1. Selective – this is done by seining the prawns using size 17 net. The bottom of the seine net should be kept intact on the pond bottom to avoid escape of the prawn.

2. Total harvesting – this is done by total draining of the pond. The prawns can be collected in the catch basin manually by using scoop net or with bare hands.

Marketable Sizes of Prawn After 4 To 5 Months Culture 

Measurement of length is from tip of the rostrum to end of the telson

Simple Cost Estimate

(1,000 sqm Ulang Fishpond Project)

For more information please call or write to:

The Project Manager

BFAR-NFFTC

CLSU, Muñoz, Nueva Ecija

Tel No. (044) 4560-671 to 72

Fax no. (044) 4560-671

E-mail address:nfftrc@mozcom.com

Source: NFFTC Technology and Information Services DA-BFAR