meso - and macrofauna lecture
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Meso - and Macrofauna Lecture. CSS 360 Fall 2011. Soil fauna and suppression of plant pathogens. Collembola (springtails) are enhanced by green manures and in turn regulate pythium in sugar beets and suppress Rhizoctonia “root killer” stem canker in potato - PowerPoint PPT PresentationTRANSCRIPT
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Meso- and Macrofauna Lecture
CSS 360Fall 2011
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Soil fauna and suppression of plant pathogens
• Collembola (springtails) are enhanced by green manures and in turn regulate pythium in sugar beets and suppress Rhizoctonia “root killer” stem canker in potato
• Springtails rapidly consume Fusarium and Rhizoctonia, reducing spores of Fusarium by 92%
Fusarium Rhizoctonia Pythium blight
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Lions of the microbe zoo:Mites and Nematodes
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Representation of detrital food web in shortgrass prairie. Fungal-feeding mites are separated into two groups (I and II) to distinguish the slow-growing cryptostigmatids from faster-growing taxa. Flows omitted from the figure for the sake of clarity include transfers from every organism to the substrate pools (death) and transfers from every animal to the substrate pools (defecation) and to inorganic N (ammonification).
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Overview – Arthropods in the soil
• Arthropods in a square mile of crop land:– Several dozen species
• In a square mile of forest soil:– Several thousand species
• MOST soil dwelling arthropods eat fungi, worms, or other arthropods– Root feeders and dead plant shredders are less abundant
• As they feed arthropods mix and aerate the soil, regulate the size of other soil organisms, and shred organic matter.
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Arthropods such as mites200 species of mites in this microscope view were extracted from
one square foot of the top 2 inches of forest litter and soil
Role: Important in nutrient cycling and predation
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Microshredders; here immature oribatid mites skeletonize plant leaves
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Nematode abundance in 3 organic inputs and 3 farming intensities
Seasonal average of plant available N during the 2004 growing season in three farming/mgmt intensities and 3 organic inputs
Seasonal means of nematode trophic abundance
Why do you think plant parasite abundance decreases at intermediate intensity?
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Epigeic example: Lumbricus rubellus (leaf worms)
Endogeic example: Aporrectodea caliginosa (angle worms)
Anecic example: Lumbricus terrestris (nightcrawlers)
3 ecological groups of earthworms
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Earthworm Anatomy• Cold-blooded• Invertebrates• No eyes (Light sensitive)• Breathe through skin
-Can live underwater
•Feel vibrations through ground•Setae= bristles for moving •Can regrow tail•Mucus secretion
– Create stable tunnels
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Earthworm Effects on Soil Functions• Promote aggregation and alter soil structure and water
dynamics• Mix soil and redistribute nutrients• Alter microbial communities, stimulate microbial activity• In forest, can dramatically change litter and duff layers, may
have a long-term effects on plants• Enrich soil through castings and digestion
– Casts = several tonnes / acre / yr
Thick layer of duff and litter in a forest without worms
Thin layer of litter and no duff in a forest with earthworms
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Earthworm addition markedly increases both large and small macropore abundancePore generation also a function of residue…why?
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Earthworm Community Dynamics
• Disturbance decreases earthworm abundance (e.g. tillage)• Residue type influences abundance (corn vs. soybean)• Soil amendment (e.g. manure) influences abundance
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MacroarthropodsIncludes spiders, termites, ants, beetles and others
Body lengths from 10 mm to 15 cm (centipede)
Many are transient or temporary soil residents
Most are litter feeders but some eat microarthropods and other organisms or weed seeds (beetles)
Churn, mix, and move soil
termite moundant mound
scarab beetle
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136.4 15.2
10.9
0.04 0.65
192.
012.1
7.6
0.01 0.13
35.
136.4 3.1
3.3
0.03 0.52
157.
81.8 1.8
2.0
0.029 0.36
99.
54.6 1.3
1.3
0.001 0.16
58
Energy Flow in a Grassland ModelThe Decomposer Subsystem
DECOMPOSER SUBSYSTEM
Decomposers+detritivoresmicrobial decomposersinvertebrate detritivoresMicrobivoresinvertebratesCarnivoresvertebratesinvertebrates
TOTAL
Calculated consumption, assimilation, egestion, production and respiration by heterotrophs per 100 J m-2 net annual primary production in a hypothetical grassland community (after Heal & MacLean, 1975 in Begon et al. 1986).
Consumption = Assimilation- Excretion = Production- Respiration
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Case study of bio-control
Japanese beetles are a wide-spectrum pest: in large numbers the grubs chew on grass roots, and the adults shred flowers (roses, hibiscus) and contaminate blueberry
A range of biocontrol options are available
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Japanese beetle life cycle
•Soon after emergence, beetles mate
• Females seek moist, well maintained areas of turf to deposit their eggs.
•Eggs are laid in the upper 2 to 3 inches of the soil
•40 to 60 eggs laid over a 30- to 45-day lifespan
•Grubs grow and emerge the following season
Dry soil will stress the beetle
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Natural microbial control
• Japanese beetle grubs are infected by many species of bacteria, fungi, protozoans and nematodes – these are providing control!
• Michigan is a new area for Japanese beetle, natural control is not always well established
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Biocontrol options
Microbe control• Milky disease (Bacillius popilliae)• B.t. strains (Bacillius thuringensis)Macroorganism control• Parasitic wasps and flies• Parasitic nematodes• Trap crops
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Trap crops
• Border of plants attractive to Japanese beetle (cocklebur, evening primrose, dwarf mallow), additional control is required
• Toxic and attractive plants are best as trap crops: Castorbean and Bottlebrush
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Biocontrol:Heterorhabditis bacteriophor (Hb) (parasitic nematodes)
Biocontrol of white grubs (e.g., Japanese beetle)
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• Application: Nematodes can be effective on 200 plus soil-dwelling pests, once established
• Research continues to find strains that work particularly well on a particular pest. Heterorhabditis bacteriophor Hb are the best for controlling beetle grubs.
Biocontrol - Slow to establish but BROADSPECTRUM
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Nematode bio-control: variable results
• BioSafe, BioVector commercial names for Steinemema carpocapsae (nematode)
• Wide range of effectiveness (cool soil temperatures at application or poor product quality are two problems)
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Effective example:Milky spore
• Easy to apply, effective in areas with long summers/warm soil periods (less in NE)
• Not compatible with insecticides, because an insecticide will kill the host, the grubs (some grubs need to be present for milky spore to spread and establish)
• May require a 2 to 4 year establishment period• Once established will provide broadspecturm control
of many grubs over the long-term (20 or more years)
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Blueberry ground cover
• Grass centers are a host for Japanese beetles• Replace grass between blueberry rows with
clover – Challenges: acid soil, vigorous ground cover needed
to compete with weeds and prevent erosion
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Wasp and Fly Parasites of JB• The most effective wasp parasites are the Tiphia
wasps. • Introduced from Japan, Tiphia popilliavora, and
Korea, T. vernalis, these species attack the grub stage in thatch or soil.
• The only major adult Japanese beetle parasite is a fly imported from Japan, Istocheta aldrichi
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Summary - Japanese beetle control:
• Know the life cycle – control the grub or adult (most control focuses on juvenile stage)
• Find parasites or predators to control• Use micro or macro organisms, and the
combination • For exotic pests such as JB, search for
biocontrol agents in home region
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Biology and management of nematodes on turfgrass
• Damage caused by: dagger (Xiphinema spp), root knot (Meloidogyne spp), stubby root (Trichodorus)
• In a typical golf course liter of soil: 50 to 33,000 root knot nematodes found
• California challenge: Anguina pacificae
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Assessment of nematode control in Calif. golf courses
(Westerdahl et al., 2006)
• Digital images used to assess golf course grass color
• Visual inspection by experienced supervisors also ranked turf quality
• Poa annua greens
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Nematicides gave moderate to nil control
Biocontrol studies underway
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Overview of biological control approaches
• Three general approaches to biological control– Importation, augmentation and
conservation of natural enemies. – Each of these techniques can be used either
alone or in combination in a biological control program.
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Biocontrol agent and host cycles
________ Control agent population________ Pest (host) population
Economic threshold for host population
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Summary - Biological control
• Predation, Parasitism• Background ‘natural control’: species of bacteria,
fungi, protozoans and nematodes• Importation, augmentation and conservation of
natural enemies• Plants (diverse borders and economic crop
species) can play an important role• Future? Genetic engineering augmentation of
microorganisms
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Reading
• Crow.pdf on website
• “Lab Report #3” on website• New Schedule on website• No Class Wednesday• Monday will be final lecture
– “Synthesis of course material”