Parasitic weeds- striga spp for masara
- 1. Parasitic weeds- striga spp By Masara Polite R161055Z
- 2. Introduction Parasitic weeds are a serious problem in agriculture, causing large crop losses in many parts of the world. Types are holoparasites and acquire all nutrients and water from hemiparasites but, although they have chlorophyll and a basal photosynthetic activity, basically also behave as holoparasites
- 3. Types of parasites Hemiparasites Holoparasites Obligate facultative
- 4. Definations ParasitismIt is a relationship between organisms in which one lives as a parasite in or on another organism. Parasitic weeds are plants that grow on living tissues of other plants and derive part or all of their food, water and mineral needs from the plant they grow on (host plants) Hemi parasite (Semi parasite) a plant which is only partially parasitic, possessing its own chlorophyll (green colour) and photosynthetic ability (may be facultative or obligate). E.g Striga hermonthica Holo parasite – a plant which is totally parasitic, lacking chlorophyll thus unable to synthesize organic carbon. E.g Orobanche spp Obligate parasite – a plant which cannot establish and develop without a host Facultative parasite – a plant which can grow independently but which normally behaves as a parasite to obtain some of its nutrition.
- 5. Striga species Striga asciatica Striga gesnoroides Striga hermonthca
- 6. Striga hermonithca • Striga hermonthica is a problem to cereals particulary sorghum, maize and millet but is also found in sugarcane and rice fields
- 7. Striga gesneroides This species occurs widely in Africa mainly a problem to wild plants only although in west Africa it has been found in cowpeas
- 8. Striga asiatica Found in Africa This has red flowers. It’s a problem under cereal production(maize,sorghum,millet and upland rice).
- 9. Life cycle of striga spp The life cycles of Striga involve a number of mechanisms ensure the coordination of the parasites' life cycles to that of their host). The important steps in the life cycle are: germination, -response to the secretion of sec metabolites radicle growth to the host root, -so as to form a haustria haustorium formation- to establish a xylem to xylem connection with the host to withdraw water and nutrients. and attachment to the host root, the successful establishment of a xylem connection and compatible interaction, and production of seeds. Conditioning(dormancy) The interaction between host and parasite begins with the secretion of secondary metabolites(strigolactones) from the roots of the host (and some false nonhosts) that induce the germination of the parasite seeds. The seeds of Striga spp. contain only little reserves, and they can survive for a few days only after germination unless they reach a host root and a xylem connection is established
- 10. Life cycle of striga
- 11. Conditions that favor development Overused, depleted, and infertile soil Poorly manage soil Monocropping, planting of the same crop on the same area for a long period of time Improper weed management Seeds from the previous harvest are mixed with Striga seeds
- 12. Methods of control Many methods used fall in two broad categories: cultural and seed-based. Each has its own strengths and weaknesses therefore calling for integrated management practices.
- 13. Cultural control Crop rotation: This is a low-cost technology that addresses the two interrelated problems of low fertility and Striga infestation. However, its potential for wide adoption depends on whether the break crop is a high-value crop that fits into the cropping system and its seeds are readily available locally. It is also limited by land availability, and its effectiveness is limited if neighbors do not adopt the system. Use of trap crops:Crops such as cotton and legumes such as cowpea, pigeon pea, groundnut, and soybean can be intercropped with maize to reduce the Striga seed bank in the soil. These crops are used as trap crops as they cause the Striga seed to germinate but since it cannot attach itself to them, it dies. Intercropping: Similar to crop rotation, the intercrop has to have a high value, fit into the current systems, and the seeds widely available and affordable. One example is soybean intercrop which was found to lower the density of the Striga and improve soil fertility. However, there has to be a demand for the soybean for farmers to readily invest in it.
- 14. Soil fertilization using organic or inorganic fertilizer: This method is limited by availability and affordability of the fertilizers and it also increases labor costs for application. Fertilizer availability is a major obstacle to African farmers as it is expensive.
- 15. Seed-based technologies include germplasm based-Striga resistance, use of herbicide coated seeds, and biological control. One major pitfall of these technologies is cash- strapped farmers’ access to the seeds.
- 16. Developing host resistance/tolerance: Breeding crop varieties that are resistant (prevents or limits Striga attachment or growth) or tolerant (variety still gives acceptable yields despite Striga attack) is the most widely spread seed-based and highly effective method. It is the most feasible and environmental friendly method for small-holder farmers to control Striga. It has been especially successful in sorghum where great advances have been made in understanding how the tolerance/resistance work through biotechnology and the knowledge used to develop Striga-tolerant sorghum varieties using marker-assisted breeding.
- 17. Herbicide dressing: This is a highly effective method if available and affordable for farmers who have to buy the dressed seeds each season. Seeds with resistance to herbicides such as imidazolinone herbicide imazapyr (registered as StrigAway) are coated with it and distributed to farmers for planting with specific guidelines such as hand washing after planting to prevent herbicide to move to other non-herbicide resistant maize or other crops.
- 18. Biological control Fusarium biocontrol: This method uses indigenous fungi that are natural enemies of the weed. It attacks the weed in all its growth stages—from seed to germination, from seedling to flowering shoot thus protecting the current crop and preventing Striga seed germination. The method is environmentally friendly, safe to users, specific to the target, is long lasting, and economically viable in the long run.