SOIL HEALTH PARADIGM IMPLICATION FOR DISEASE MANAGEMENT
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Transcript of SOIL HEALTH PARADIGM IMPLICATION FOR DISEASE MANAGEMENT
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MAHADEV SHINDHEID No:MA1TAE0135
Department of Plant Pathology
COA, Shivamogga
On
Soil Health Paradigms and Implications for Disease Management
Seminar
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OutlineIntroduction
Definition
Factors influencing soil health
Management practices
Case studies
Conclussion
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In one teaspoon of soil there are… Bacteria 100 million to 1 billion
Fungi 6-9 ft fungal strands put end to end
Protozoa Several thousand flagellates & amoebaOne to several hundred ciliates
Nematodes 10 to 20 bacterial feeders and a few fungal feeders
Arthropods Up to 100
Earthworms 5 or more
Introduction
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Definitions Soil: An ecological system consisting of
inorganic minerals, decomposing organic matter, living organisms and growing plants
Soil: A farmer's "Silent Partner“
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SOIL HEALTH:
• Soil health is a capacity of the soil to function as a vital living system to sustains biological productivity maintain environmental quality and promote plant, animal, and human health.
• “A healthy soil should be capable of supporting life processes such as plant anchorage and nutrient supply, retain optimal water and soil properties, support soil food webs, recycle nutrients, maintain microbial diversity, remediate pollutants, sequester heavy metals, and contribute to disease suppression”
(Wang and Hooks, 2010).
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Properties healthy soil
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8
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CHARACTERISTICS OF HEALTHY SOILS
Sufficient supply of nutrients. High biological diversity Ability to maintain the integrity of nutrient cycling and energy flow Suppression of multiple pests and pathogens Ability to improve plant health Maintenance of water and air quality Good soil tilth Good internal drainage Low populations of parasites High populations of plant-health promoting Organisms Low weed pressure No toxic chemicals that harm plants
Wang and Hooks (2010)
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Soil MoistureSoil TemperatureSoil pH Organic MatterNutrientsBeneficial Microorganisms
Factors influencing soil health
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Organic amendmentsCrop rotationCover crops and Green manuresSoil typesTillage practicesIntercropping
Factors influencing soil health
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Soil health management practices
Manage organic matterMinimize disturbancesDiversify soil biotaMaintain soil coverCrop rotation Cover crops and green manuresOrganic amendmentsConservation tillage
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Soil health and disease management
Crop rotation
Soil moisture, pH, temp
Nutrient management
Organic amendments
Cover crops and green manures
Beneficial organisms
Conservation tillage
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Soil moistutre
Pathak and Srivastava (2001) reported that, with increasing soil moisture and decreasing soil temperature, decreases the incidence of Rhizoctonia bataticola in sunflower
Soil Moisture Increase Phytophthora spp. Rhizoctonia spp. Pythium spp. Soil Moisture Decrease Fusarium spp. Verticillium spp. Armillaria spp.
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Soil pH
• It affects nutrient availability and microbial activity.
• Most plants and microorganisms prefer a pH range of 6-7.
• Raising the soil pH to 6.5–7 by using nitrate nitrogen in place of Ammonical nitrogen will decrease the development of Fusarium wilt
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Potato scab is more severe in soils with pH levels above 5.2. Below 5.2 the disease is generally suppressed.
Club root of crucifers can be reduced by raising pH(alkaline)
Fusarium wilt disease (i.e. the more acidic the soil, the more severe the disease).
Takeall of wheat disease- Gaeumannomyces graminis, is favored by alkaline pH.
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Soil pH have a strong effect on infective juveniles survival.
Survival and pathogenicity nematodes declined slightly as the soil pH decreased from pH 8 to pH 4.
Acidic soil with pH levels below 4.0 may limit the nematodes host-finding
(Kung et al., 1990)
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SOIL TEMPERATUREWarm, moist soils with high levels of carbon to nitrogen will have higher levels of microbial activity and a relatively higher level of suppression
Most of the soil organisms function best at an optimum soil temperature of 25 to 35 C⁰
Soil temperature can greatly affect the activity of locomotion, infection and reproduction of nematodes
High temperature can manage- Verticillium spp.
Decreasing soil temperature, decreases the incidence of Rhizoctonia bataticola
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ORGANIC AMENDMENTS Animal Manure
Green Manure (Crop Residues)
Composts
Peat
Blood Meal
Compost Tea
Fish Meal
Poultry Manure
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How does compost suppress disease?
Improves soil physical and chemical properties Improve soil structure and fertility Enhanced activities of antagonistic microbes Increased competition against pathogens for resources that
cause fungistasis Release of fungitoxic compounds during organic matter
decomposition Induction of systemic resistance in the host plants
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Pathogens:
• Fusarium spp.• Phytophthora spp.• Pythium spp.• Rhizoctonia solani • Sclerotinia spp. • Sclerotium spp.• Thielaviopsis basicola • Verticillium dahliae
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CROP ROTATION• Break disease cycle by
reducing pathogen level
• Alter the soil characteristics
• Inhibition of pathogens by chemicals
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BENIFICAL CROPS PATHOGEN REDUCED PRECEDING CROP (host)
Rice Verticillium dahliae CottonPeas Gaeumannomyces graminis Wheat
Maize , Wheat, Sorghum
Ralstonia solanacearum Tomato and potato
Legume crops Streptomyces scabis PotatoGround nut Meloidogyne incognita Tomato
Wheat Heterodera schachtii Sugarbeet
cereals Xanthomonas campestris pv. campestris
Cabbage
Effect of Rotation on Pathogens
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Growing of cover crops:
Reduce erosion
Improves the physical condition of soil
Increase organic matter
Increase soil microbial diversity by enhancing the soil
microflora.
Reduce plant diseases
Cover crops:
Sudangrass, Rye, Rapeseed, Oat, Mustard and Buckwheat
COVER CROPS AND GREEN MANURES
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COVER CROPS AND GREEN MANURES
• Sudan grass-Meloidogyne hapla, Pratylenchus spp.• Hairy vetch-Thielaviopsis basicola Pythium spp. Rhizoctonia solani Fusarium spp.
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Crops suitable for green manuring
Dhaincha ( Sesbania aculeata), Sunhemp (Crotalaria juncea), Cowpea (Vigna sinensis), Pea (Pisum sativum), Berseem (Trifolium alexandrinum), Lucerne (Medicago sativa)
Sunhemp Cowpea 26
Dhaincha
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CONSERVATION TILLAGE• Reduced tillage systems accumulate OM and
increase the rate at which soil microfloral and microfaunal decomposition progresses
• Soils with high levels of OM have been shown to prevent common root rot of cereals (Cochliobolus spp)
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NUTRIENTs Plants suffering a nutrient stress will be more
susceptible to diseases, while adequate crop nutrition makes plants more tolerant or resistant to disease.
The nutrient status of the soil and the use of particular fertilizers and amendments can have significant impacts on the pathogen’s environment.
Calcium, play a major role in the ability of the plant to develop stronger cell walls and tissues.
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How can mineral nutrition prevent plant disease? Mineral nutrition can affect two primary
resistance mechanisms:
A) Formation of mechanical barrier (eg. Thickness of cell wall )
B ) Synthesis of natural defence compounds (eg: phytoalexins , antioxidants and flavanoids)
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Nutrient Suppressing Disease
Crops
Calcium 1)Clubroot2)Fusarial wilt3)Damping off
1) Crucifiers2) Tomato, Watermelon and
cotton.3) Peanut, Soybean, Pepper,
Tomato, onion, Bean and Wheat.
Nitrate Fusarium wilt Tomato, Celery and Carnation.
Sulfur Scab PotatoPotassium Verticillium wilt CottonPhosphate Fusarium wilt Cotton and MuskmelonCopper (cu) G. graminis var
tritici Erysiphe spp.Alternaria spp.
Take all of wheat ,Powdery mildew of wheat Sunflower
(Kausadikar et al ., 2006)
NUTRIENTs in management of plant diseases
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Beneficial microorganisms
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Nitrogen fixing bacteria Rhizobium Azotobacter Azospirillum
P solublising bacteria• Bacillus subtilis• Pseudomonas spp.
Biofertilizers
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Bio control agents T. harzianum, T. viride ,T. hamatum VAM fungi , Bacillus subtilis, Pseudomonas fluorescens Pathogens: Pythium spp. Fusarium spp. Sclerotium rolfsii Rhizoctonia solani Macrophomina phaseolina Alternaria spp. Sclerotinia spp. Verticillium spp.
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Hyphae of the beneficial fungus Trichoderma wrap
around the pathogenic fungus
Rhizoctonia.
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EFFICACY OF SOIL HEALTH MANAGEMENT PRACTICES FOR PLANT DISEASE
MANAGEMENTPositive effects Not sufficient to complete control 20 to 80 per cent reduces soil borne diseasesFoliar pathogens diseases
Examples Rust and mildews
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Cont...
• Rhizobacteria: Induced Resistance to foliar and soil borne disease
• Compost amendments induce resistance through activation of plant defense response
• Examples: Botrytis Rot, Anthracnose, Angular Leaf spot.
• Additional control measures for foliar pathogens.
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CASE STUDIES
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Objective: To know the effect of cropping sequences on Root Knot Nematode population
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OBJECTIVE: The role of microbial activity in the effect of soil moisture and temperature on disease severity
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Dry root weight of wheat seedlings with (a) and without (b) inoculation with R. solani AG-8, at different soil temperature and moisture levels.
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Objective: To determine the effect of PMR amendments on soil borne and foliar diseases of cucumber and snap bean grown on a sandy soil
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Objective: To evaluate the efficacy of Brassica cover crops used as soil amendments for managing Phytophthora blight of squash
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Reduction in Phytophthora blight on squash plants by soil amendments with shoots (A) or roots (B) of cover crops under greenhouse conditions. Plant tissues were used to amend infested soils at 1 or 2.5% (plant/soil, w/w).
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Objective: to evaluate the effects of compost on bacterial wilt of potatoes
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CONCLUSION Management practices that promote soil health by improving
soil physical, chemical, and biological properties, resulting in improved nutrition, enhanced yield and disease suppression
Contribute to building active, diverse and potentially disease-suppressive microbial communities and can provide the base of a sustainable disease management program
Biodiversity is important to make management strategies reliable
Use of soil health management practices can substantially reduce soil borne disease problems, but cannot completely eliminate them, may take time to develop, and should be used in conjunction with other approaches to achieve sustainable disease management