Plants grow faster in pots made of coconut husk with coconut dust than in soil. For example,
nursery plants like:
1. Asparagus springerie – grown in coconut husk with equal amounts of dust and swine
marine had more cuttings than those planted in rice field with swine manure.
2. Anthurium – more flowers per plant.
3. Dracaena fragrans (leafy plant) – increased roots
4. Mussaendes – longer roots (with spagnum moss and coconut) during marcotting.
5. Amherstia nobilis – faster marcotting even without the use of growth hormones.
PCARRD
Balitang Pambukid
May 1987
The term bark loosely refers to the outer covering of the stem and branches. Technically, it includes all the tissues from outside the cambium to the outermost layers of a woody stem. The bark serves as a protective tissue. It acts as a conduit transporting food to the other parts of the tree. About 8% of the total volume of a tree in bark.
Bark consists of an outermost corky layer called epidermis, a layer of manufactured
food-conducting tissues called phloem, a zone between these two layers known as cortex. In several species, a layer of fibrous strips called “bast fiber” forms an innerbark. Oils, resins, tannins, waxes and phenolic substances may be present in the bark.
Cork, fiber, tannins, gums, resins, latex materials can all be derived from barks. The most
common yet the oldest and lowest grade uus of unprocessed bark is for fuel.
Following are some of the other uses of barks:
1. Bark rich in tannin – a substance used in:
a) tanning leather, preparation of binders and wood adhesives, drying fishnets, ropes, soils and clothing.
b) insecticide
c) rust prevention
d) ink manufacture
e) medicines
The barks of kamatchili, some mangrove species like ‘bakawan-babae’, busaing, langaral,
pototan and ceriops tagal are the main sources of tanning materials.
2. Bast fiber – another portion of the bark found just under the outer bark – strong, tough and durable and can be made into cloth, turinas, bowstrings, fish lines, sacks. Paper from
mulberry and salago have fine bast fibers which can be made into high grade quality paper such as bank notes and checks. Those of kalulot and other similar species are made into lady’s handbags, wallets and placemats. Bast fibers of anonang, malabuho, and sinaligan yield silky and lustrous interlaced filaments which are pliable and strong. These can be used in the manufacture of elegant hats, handbags, placemats and wallets.
Anabo, anonang, ‘kulantingan’, ‘malubago’ and sinaligan have tough and durable bast fibers with good folding endurance and bending sterngth. They can also be made into cordage and wild bag trap.
3. Barks can also be potential sources of saponins – a lathe-producing substance which can be used in the formulation of shampoo.
From the RDE Network PCRDF Selects best coconut researches
BAR Digest, July 1999
The Philippine Coconut Research and Development Foundation (PCRDF) has selected this year’s three best research papers on coconut. The selection was announced at the annual convention of the Federation of Crop Science Society of the Philippines (FCSSP) last May in General Santos.
A member of the FCSSP, the PCRDF sponsored the coconut session of the annual meet.
The Best Paper Award went to Biological Studies of the Coconut Mealybug in Palawan authored by Mateo Sipagan of PCA Albay Research Center.
Second place went to Leaf Pruning Technique in Bearing Coconut Palms (CLP): Its Effect on Underplanting Young Coconuts for Pith or ‘Ubod’ Production jointly authored by Gerardo Padrones, Millicent Secretaria and Severino Magat of the PCA Davao Research Center, Bago Oshiro Davao City.
The third best paper was Up-take and Metabolism 0/2.4 Coconut Inflorescence and Calii of O. D Orense and R. Hornung. The winners received monetary prizes and certificates.
Researchers on crop science present their outstanding research papers during the Federation’s annual conventions, which are also when agricultural societies get together.
Leaf Pruning Technique in Bearing Coconut Palms (CLP): Its Effect on Underplanting Young Coconuts for Pith or ‘Ubod’ Production
by Gerardo Padrones, Severino Magat and Millicent Secretaria
(Awarded Second Best Research Paper on Coconut by the Federation of Crop Science Society of the Philippines)
The feasibility and viability of producing coconut pith or ubod from young coconuts planted either in a single or double plants per hill under pruned (CLP maintaining 18 younger leaves of upper crown) or non-pruned bearing palms was studied at 1he Philippine Coconut Authority-Davao Research Center. Bago Oshiro Davao City. Results showed that the number of leaves produced by young coconut was significantly affected by leaf pruning with higher number of leaves produced under pruned coconut than those under non-pruned coconut. On the other hand, nut and copra production of bearing palms was not significantly affected by leaf pruning.
Significantly, bigger girth and more number of leaves were produced from single planting (SP) of young coconut per hill than double planting (DP) scheme. Consequently, longer and heavier fresh weight of ubod (average of 6.8 kg/palm; range 3.3-10.7 kg) was obtained from single planting than that from double planting scheme (average of 5.9 kg/palm; range 2.8-9.4 kg) on the first year of ubod harvest. However, on a per ha basis, yield of ubod from single planting was lower than double planting mainly due to the number of plants per hill. The total ubod yields for single and double planting were 4.9 t and 8.9 t/ha.
Under the Davao growing condition, cost and return analysis of ubod production in single plant per hill scheme indicated a total net income of P68, 624 per ha in 4 years with a return on investment (ROI) of 163%. In double planting scheme, average ubod yield valued at P129, 030 or an average of P32, 258/year/ha with an ROI of 180%. Considering copra plus ubod production from these two planting schemes, the cumulative net incomes and ROI obtained were P180, 736; P242, 389.6 and 202%; 203% for single and double planting respectively.
Based on the results of this study with modest fertilizer application of ammonium sulfate plus common salt (NaCl), underplanting of one or two young coconuts per hill at 3×3 m distance between spacer of bearing coconut palms harvested at three years from field-planting is more profitable and viable production scheme to increase farm productivity even without leaf pruning of old plants. The farm income with this coconut-based production is increased by 160% to 210% compared to coconut monocropping.
A plant of the New World, the tomato is native to the Andes, in particular Peru, Ecuador and Bolivia. Early explorers took seeds to Europe where tomatoes remained ornamental for many years. Botanists correctly classified them with the poisonous nightshade family and assumed that they too were deadly, when in reality only the leaves and stems are toxic. Even in the mid-19th century North Americans refused to eat them. Cookbooks said they should be cooked for three hours. The general population developed a taste for raw tomatoes in the 20th century.
Technically, the tomato is a fruit, since it is classified botanically as a berry. Typically in meal planning it is used as a vegetable. Today, tomatoes are used in diets around the world in a variety of ways. Italians use them in sauces and salads. Americans slice them for sandwiches, dice them for salads, stuff them with egg salad, and cook them with sugar and spice for ketchup. Mexicans mince them with cilantro, onions and chilies for salsa.
The French use them in ratatouille, the Spanish in gazpacho. The Swedes use tomato paste in their smorgasbords; and the Norwegians flavor a spread with them. Fried green tomatoes are part of the cuisine of the American South, while New Englanders bake them in sweet green tomato pie.
Tomatoes provide a variety of nutrients for very few calories. At 35 calories, a raw medium-sized tomato has two grams of fiber, which compares to eight grams in an ear of corn, or five grams in a half-cup of green peas, or three grams in a half-cup of broccoli. Half of the vitamin C requirements for a day can come from a medium-sized tomato. It is an excellent source of beta-carotene, potassium, iron and the antioxidant lycopene.
(Source: Health and Home September October 1998, P. 13 )
