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Weed management in rubber
- 1. WEED MANAGEMENT IN RUBBER
- 2. INTRODUCTION • Hevea brasiliensis is a most commercially cultivated rubber tree.Used for erasers to tyres,tubes and industrial products. • perennial tree growing up to a height of 25 to 30 metres.. • The rubber tree may live for a hundred years or even more. But its economic life period in plantations, on general considerations is, only around 32 years – 7 years of immature phase and 25 years of productive phase. • Commercial cultivation of rubber in India was started in 1902. • India is the third largest producer of rubber in the world followed by Thailand , Indonesia. • In india ,kerala is the largest state of rubber producer.
- 3. COMMON WEEDS IN RUBBER Borreria sp.- Button weed Chromolaena odorata - Siam weed Lantana aculeate - Lantana Mimosa pudica – T ouch-me-not Clerodendron sp. Mikania micrantha - Mile-a-minute Sida sp. Imperata cylindrica Pennisetum sp.- Napier grass Axonopus sp.- Carpet grass Paspalum sp. Digitaria sp.- Tropical crab grass Cynodon dactylon - Bermuda grass
- 4. GRASSES Axanopus affinis (carpet grass) Panicum repens (couch grass) Paspalam conjugatum (sour grass) Imperata cylindrica Lophatherum gracile Digitaria longiflora Pennisetum polystachyon Cynodon dactylon Ottochloa nodosa Brachiaria brizantha
- 5. Axanopus affinis Panicum repens Paspalam conjugatum Imperata cylindrica
- 8. FERNS 1. Gleichenia linearis 2. Adiantum 3. Nephrolepis Adiantum Nephrolepis Gleichenia linearis
- 9. BROAD LEAVES WEEDS Mikania scandens Hedyotis auricularia Drymatia cordata Centella asiatica Crassocephalum crepidiodes Mimosa pudica Tridax procumbens Clerodendron infortunatum Ageratum conyzoides Eupatorium Commelina indica Borreria ocymoides Emilia javanica
- 10. Mikania scandens Hedyotis auricularia Drymatia cordata Centella asiatica
- 11. Crassocephalum crepidiodes Mimosa pudica Tridax procumbens Clerodendiron infortunatum
- 14. METHODS OF WEED CONTROL • Manual • Cultural • Chemical • Integrated weed management
- 15. MANUAL • Slashing, scraping, uprooting • Manual clean weeding will expose soils to erosion, mulching should be done immediately after weeding. • Up to 4 year after planting-Manual weeding on planting strips & Overall weeding in the inter rows at 4 times/year • 5th year onwards-2 times/year
- 17. CULTURAL COVER CROPPING: Peuraria phaseoloides Mucuna bracteata Calopogonium mucunoides Centrosema pubescens Mucuna bracteata Peuraria phaseoloides
- 19. CHEMICAL PRE EMERGENT : Diuron 2.5 Kg a.i/ha in 700 L of water Simazine or Cyanazine 1-2 Kg/ha
- 20. POST EMERGENT: Broad leaved weeds • 2,4-D -1.25 Kg in 500-600L of water/ha • 4 rounds at an interval of 6-8 weeks Over all weed control • Glyphosate -2 L in 200 L of water/ha • 2-3 rounds at 3 months interval
- 22. • Seedling nursery • Immature Rubber • Mature Rubber • Mechanical weed cutter Weed Management at Different Stages
- 23. Seedling Nursery Application of pre-emergent herbicide diuron at 2.5 kg / ha is effective in controlling weeds for 6-7 weeks.
- 24. Immature Rubber In the newly cleared areas, the growth of weeds is fast as the soil and climatic conditions are favourable. Management of weeds can be done either manually or with the use of post- emergent herbicides.
- 25. Mature Rubber As the trees grow old, the foliage is at a great height from the ground which permits more sunlight into the inter row spaces. By slash weeding or by the use of herbicides weeds are controlled.
- 26. Mechanical weed cutter Mechanical weed cutters are now available. These machines can be operated by single person and is operated on petrol
- 27. Integrated Weed Management This approach involves an integration of manual and chemical weed control methods along with the establishment of cover crop during the first year itself which helps in smothering weeds in the inter spaces and thereby reducing the usage of herbicide to the minimum. Application of herbicides in the plant basin alone and slash weeding the remaining inter plant area along the planting strip was found to be cost effective and sustainable.
- 28. KAU- POP RECOMMENDATION FOR WEED MANAGEMENT IN RUBBER • Manual • Chemical-herbicides • Mechanical- weed cutter saves 40-50% weeding cost
- 29. Herbicides and their dosage Name of Chemical Dose/ha Frequency of application Target weeds Quantity /L Water Volume of water(L)/ effective ha Paraquat + 2,4-D (Tank mix) 2.25 L* 1.25 Kg** 4 rounds at an interval of 6-8 weeks Grass weeds and broad leaved weeds 4.5ml* 2.5 g** 500-600 Glyphoste 2 L*** 2-3 rounds at 3 months interval and spot application of 0.5 to 2.5L Paraquat/ha Grass weeds and broad leaved weeds 5.0 ml*** 4oo Formulation of 20%EC*, 80% WP**, 41%SL***
- 30. Article • Tiltle: Integrated weed management in the planting strips of rubber • Author(s):George,s.;Philip,V.;Joseph,K.; Punnoose,K.I.;Mathew,T.P. • Author Affiliation : Rubber Research Institute of India, Kottayam, Kerala. • Journal article : Natural Rubber Research,2004 Vol.17 No.2 pp.121-125.
- 31. ABSTRACT: The efficacy of different weed management methods for immature rubber was evaluated in a field experiment in Kerala, India from 1995 to 1999. Treatments : 1. manual (scraping and slashing) 2. chemical (glyphosate and paraquat+2,4-D) as well as their combinations to control weeds along the planting strips and plant basins. Application of glyphosate in the entire planting strip was the most cost-effective method. The integrated approach of spraying glyphosate in the plant basin and slash weeding the remaining area was also found to be cost- effective and eco-friendly.
- 32. Article Title: A New Weed Management Approach to Improve Soil Health in a Tropical Plantation Crop, Rubber (Hevea brasiliensis) Author: Abraham Joshua Affiliation: Agronomy/Soils Division, Rubber Research Institute of India, Kottayam, Kerala. Journal: Experimental Agriculture,Vol 52.No 1,2016; PP: 36-50.
- 33. Abstract: Rubber fields with and without control of under-flora were investigated for different soil properties, biomass and nutrients of under-flora and rubber yield. The ‘no-weeding' practice for about 10 years in the rubber fields significantly improved the soil OC, N, available forms K and Mg, respiration rate and moisture status. The biomass and associated nutrients of under-flora also were much higher while the rubber yield was not negatively affected in the ‘no-weeding' fields. The new weed management system is of great significance in improving soil quality, carbon sequestration and biodiversity conservation, besides the economic and energy savings without affecting crop yield.