pwaisen nematology discussion
TRANSCRIPT
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Management of Root-knot and Reniform Nematodes using Oil Radish and Mustard as Cover Crops
Committee MembersDr. Koon-Hui Wang (Chair)
Dr. Brent Sipes Dr. Zhiqiang Cheng
Dr. Joe DeFrankDr. James Leary
February 17th, 2017Time: 9:00-10:00 AMRoom: Gilmore 302
Philip WaisenDissertation Proposal Seminar
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Economic Damage of Plant-parasitic Nematodes
•Worldwide there are > 4,100 species of plant-parasitic nematodes.
•$100 billion/yr loss worldwide.
•$10 billion/yr loss in USA. •Root-knot nematodes can cause 20-38% crop loss.
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Okra
tomato
Beet
Root-knot Nematodes
Picture: Koon-Hui Wang
Split roots of carrot
Blemishes on cross section of a potato tuber
Cucurbit crops are most susceptible
Kona root-knot nematodes on coffeePicture: Society of Nematologists
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Crops in Hawai’i most damaged by Reniform nematode
Pineapple
Papaya Cowpea
Reniform Nematodes
Sweet potato
Broad host range
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Cover Crops Suppressive to Plant-parasitic Nematodes
Radish and mustard-- glucosinolate
Sunn hempCrotalaria juncea-- monocrotaline
French Marigold Tagetes patula
-- α-terthinyl
Sorghum-sudangrass-- Dhurrin
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1) Non-host or poor host 2) Trap crop3) Allelopathy 4) Enhance nematode antagonistic
microorganisms 5) Enhance host tolerance/resistance
Mechanisms of cover crops against Plant-parasitic Nematodes
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Cover crops
Root-knot nematode
Reniform nematode
Biofumigation effect
Trap crop effect Soil health
Oil radish Poor host Poor host Strong Slightly Tillage effect
Mustard Excellent host Non-host Stronger Good for root-knot Not much information
Oil radish and Mustard as Trap and Biofumation crops
Objective 1 Objectives 2 & 3 Objective 4
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Objectives1) Screen oil radish and mustard cultivars/species for their potential to serve
as trap crops and biofumigation crops against M. javanica and R. reniformis.
2) Determine degree days required for M. javanica to complete a life cycle on mustard.
3) Examine best time to terminate oil radish for optimum nematode trapping.
4) To compare the effects of oil radish and mustards termination methods on biofumigation and soil health.
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Objective 1Screen oil radish and mustard cultivars/species for their potential to serve as trap crops and biofumigation crops against M. javanica and R. reniformis.
Oil radish cultivars: AC = April Cross; AL = Alpine; DI = Discovery; MI = Miyashige; OS = Oshin; SC = Summer Cross; SB = Sodbuster; TR = Tillage Radish.
Mustard species: Brassica hirta, Brassica juncea ‘Pacific Gold’, B. hirta + B. juncea (‘Caliente 199’)
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Objective 1Two greenhouse experiments were conducted at Magoon Research & Teaching Facility.
Pi = 1000 J2 of M. javanica
Biofumigation test
Susceptibility test
1% (dw/dw), Mj and Rr infested soil
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Objective 1
1 month after initiation of biofumigation test
Green manure effect
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Objective 1Experiment 1.1. Biofumigation effects of oil radish
NA = no amendment; AC = April Cross; AL = Alpine; MI = Miyashige; OS = Oshin; SB = Sodbuster; SC = Summer Cross; TR = Tillage Radish.
Initial populations:Meloidogyne spp. = 2130/250 cm3
Rotylenchulus reniformis = 2270//250 cm3
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Objective 1Experiment 1.2. Susceptibility of oil radish cultivars to M. javanica
NA = no amendment; AC = April Cross; AL = Alpine; MI = Miyashige; OS = Oshin; SB = Sodbuster; SC = Summer Cross; TR = Tillage Radish.
1 month after inoculation
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Seed Cost
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Objective 1
Experiments 1.3. Screening mustards for susceptibility to M. javanica.
‘Caliente 199’ (Brassica juncea & Brassica hirta) ‘Pacific Gold’ brown mustard (Brassica juncea) Yellow mustard (Brassica hirta) ‘Orange Pixie’ tomato (susceptible control)
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Objective 1Experiments 1.3. Screening mustards for biofumigation & susceptibility to M. javanica and R. reniformis
Biofumigation test
Susceptibility test
Root-knot Reniform0
2000
4000
6000
8000
10000
Egg
coun
ts/r
oot
syst
em
Preliminary ResultField soil 1% dw/dw
Pi = 1000 M. j‘Caliente 199’
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• ‘Sodbuster’ oil radish has a potential to serve as trap crop for M. javanica and as biofumigation crop against Meloidogyne spp. and R. reniformis.
• ‘Caliente 199’ mustard mix is a very good host for M. javanica.
Objective 1 (Summary)
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Objective 21) Screen oil radish and mustard cultivars/species for their
potential to serve as trap crops and biofumigation crops against M. javanica and R. reniformis.
2) Determine degree days required for M. javanica to complete a life cycle on mustard.
3) Examine best time to terminate oil radish for optimum trap.
4) To compare the effects of oil radish and mustards termination methods on biofumigation and soil health.
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Cover crops
Root-knot nematode
Reniform nematode
Biofumigation effect
Trap crop effect (Degree days)
Soil health
Oil radish
Poor host Poor host Strong Slightly Tillage effect
Mustard Excellent host Non-host Stronger Good for root-knot None
Objective 2
Objective 1 Objectives 2 Objective 4
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Dead-end trap crop
• Sugarbeet cyst nematode (Heterodera schachtii) on radish (Smith et al., 2004).
• Root-knot nematode (Meloidogyne hapla) (450-500 DD, base 10°C) on oil radish (Melakeberhan et al., 2008).
Conventional trap crop
Non-host Sink
Host Sink and source
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Nematode Degree DaysPlant-parasitic
NematodesCalendar days
(CD)Degree days
(DD)Base temperature
(°C)Host Reference
M. javanica 19 334 10.6 Okra Dávila-Negrón & Dickson (2014)
M. incognita 15 300 9.8 Okra Dávila-Negrón & Dickson (2014)
M. arenaria 19 316 10.3 Okra Dávila-Negrón & Dickson (2014)
M. hapla 450-500 10 Radish Melakeberhan et al., 2008
DD = Σ{[(Tmax + Tmin)/2]-Tbase}. Mustard?
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Objective 2: Degree Days Experiment• A greenhouse mustard experiment will be
conducted.• Treatments: Mustard inoculated with 200 Mj
J2 will be stained for nematode developmental stages every 4 days up to 40 days using Acid Fucshin method; 4 reps.
• WatchDog Temperature Data Logger will be buried in soil.
• J3, J4, egg-laying females will be counted.• Degree days (DD, base 10.6°C) to reach
egg-laying female will be determined using the formula, DD = Σ{[(Tmax + Tmin)/2]-Tbase}.
• Experiment will be repeated once.
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Objective 31) Screen oil radish and mustard cultivars/species for their potential to serve as trap
crops and biofumigation crops against M. javanica and R. reniformis.
2) Determine degree days required for M. javanica to complete a life cycle on mustard.
3) Examine best time to terminate oil radish for optimum nematode trapping.
4) To compare the effects of oil radish and mustards termination methods on biofumigation and soil health.
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8 weeks
6 weeks
4 weeks
2 weeks
0 week
Growing period of Oil Radish as a Cover Crop
Term
inati
on o
f oil
radi
sh
Oil radish was planted for different length of time (0, 2, 4, 6 and 8 weeks). Experiment was arranged in RCBD with 4 replications. Pumpkin was planted after oil radish (OR) termination and incoporation, nematodes were sampled at OR termination and at 4 weeks after pumpkin planting.
Objective 3: Termination time for oil radish
20lb seeds/acre
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RGI = 0 RGI = 12RGI = 6 RGI = 9
Root Gall Index based on 0 – 12 scale
Severity of pumpkin root galls by root-knot nematodes
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Nematodes/250 cm3 soilHerbivores 0 2 4 6 8Root-knot nemamtode 178 A 140 A 213 A 160 A 467 AReniform nematode 371 A 256 A 874 A 168 A 312 AStubby root nematode 36 A 20 A 32 A 22 A 33 A
Repeated measure over 4 sampling dates at monthly interval
Oil radish did not suppress PPN in the soil but reduce root galls on pumpkin
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Soil Health
Enrichment indexChannel index
Structure index
Richness, diversity
Bacterivore Fungivore Herbivore Omnivore Predator
Free-living nematodes
Nematode community AnalysisBased on their feeding behaviour
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Objective 3: Results Weeks of oil radish growth
Nematode 0 2 4 6 8-----------------------Nematodes/250 cm3 soil------------------------
Bacteriovore 632 BC 550C 748B 1423A 1416AFungivore 461 ABC 309C 358BC 613A 841ABOmnivore 6 B 13AB 27A 17AB 29APredator 0A 0A 0A 1A 4ARichness 13A 13A 13A 14A 15ADiversity 5.24A 5.87A 4.46A 5.67A 5.34AF/(F+B) 0.44A 0.40AB 0.31C 0.33BC 0.33BCEI (%) 58C 58C 68AB 71A 62BCSI (%) 4.75A 10.29A 13.6A 5.78A 10.79ACI (%) 43A 36AB 24C 23C 27BC
• Planting oil radish for > 6 weeks enhanced bacterial decomposition == enriched soil food web, green manure effect
Throughout the 3-month of pumpkin crop
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Objective 3: Results Weeks of oil radish growth
Nematode indices 0 2 4 6 8
Nematodes/250 cm3 soil
------------------July 7, 2016---------------------
F/(F+B) 0.46 A 0.41 A 0.25 B 0.25 B 0.33 AB
EI (%) 45.53 B 48.51 B 68.75 A 81.01 A 74.25 A
------------------August 4, 2016-----------------
F/(F+B) 0.45 AB 0.52 A 0.24 C 0.32 BC 0.17 C
EI (%) 68.74 A 68.07 A 72.63 A 70.43 A 53.48 A
--------------- September 23, 2016--------------
F/(F+B) 0.40 A 0.31 A 0.36 A 0.40 A 0.45 A
EI (%) 57.28 A 63.24 A 67.18 A 69.28 A 66.66 A
---------------- October 25, 2016----------------
F/(F+B) 0.47 A 0.34 A 0.38 A 0.37 A 0.39 A
EI (%) 59.31 A 55.64 A 63.22 A 63.12 A 52.61 A
• However the enrichment effects of oil radish amendment was transient.
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Objective 3 (Summary)• Terminating oil radish at 4 weeks after planting reduced root gall
index and increased total fruit weight of pumpkin.• Oil radish only enhanced bacterial decomposition 1 week to 1
month after soil incorporation.
More improvement is needed to use Brassica-based cover crop for nematode management.
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Objective 41) Screen oil radish and mustard cultivars/species for their
potential to serve as trap crops and biofumigation crops against M. javanica and R. reniformis.
2) Determine degree days required for M. javanica to complete a life cycle on mustard.
3) Examine best time to terminate oil radish for optimum trap.
4) To compare the effects of oil radish and mustards termination methods on biofumigation and soil health.
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Oil Radish and Mustard as Biofumigants
Cover with black plastic
(Ploeg and Stapleton, 2001)
Isot
hioc
yana
tes
Weed whackedSoil incorporated
(Rosa et al., 1999)(Ohtsuru et al., 1973)
Aspergillus, Rhizobacter
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Objective 4. Enhance biofumigation effects by cover crop termination practices
1) ORT=oil radish + weed whack + till2) ORBP=oil radish + weed whack + till + black plastic 3) ORNT=oil radish + sickle + weed mat (=NT)
7 Treatments 4) MST=mustard + weed whack + till5) MSBP=mustard + weed whack + till + black plastic 6) MSNT=mustard+sickle + weed mat (NT)7) BG=Bare ground
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Objective 4: Biomass production
1) ORT=oil radish + weed whack + till; 2) ORBP=oil radish + weed whack + till + black plastic; 3) ORNT=oil radish + sickle + weed mat; 4) MST=mustard + weed whack + till; 5) MSBP= mustard + weed whack + till + black plastic; 6) MSNT=mustard + sickle + weed mat; 7) Bare ground control
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Objective 4: Contrast Analysis
Nematodes BG ORNT MSNT ORT MST ORBP MSBP T vs NT T(+BPvs -BP)
BP vs
BG
MSvs OR
NT vs T(-BP)
NT vsT+BP
------------------------------------------------------------Numbers/250 cm3 soil---------------------------------------------------
Root-knot 298 222 390 412 335 242 205 NS NS NS NS NS NS
Reniform 320 630 472 602 635 365 380 NS NS NS NS NS NS
% Bacterivores
33 20 26 37 43 41 44 ** NS NS NS ** **
% Fungivores 17 22 17 12 22 17 15 NS NS NS NS NS NS
% Herbivores 46 52 52 45 30 29 27 ** NS * NS * **
% Omnivores 0.15 0.27 0.61 0.23 0.15 0.49 0.36 @ ** * NS ** NS
% Predators 0 0 0 0 0 0.22 0 NS * @ @ NS *
Richness 14 15 18 14 17 19 17 NS * ** NS NS @
Diversity 7 4 6 6 7 9 10 ** * @ NS NS **
MI 1.91 1.96 2.15 1.75 1.69 1.82 1.7 ** NS @ NS ** **
EI (%) 54 61 52 70 71 73 74 ** NS * NS * *
SI (%) 81 85 85 83 74 76 75 * NS NS NS NS *
CI (%) 40 40 43 18 25 17 15 ** NS * NS * **
1 week after CC termination
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Biofumigation effects of oil radish and mustard on nematodes
1) ORT=oil radish + weed whack + till; 2) ORBP=oil radish + weed whack + till + black plastic; 3) ORNT=oil radish + sickle + weed mat; 4) MST=mustard + weed whack + till; 5) MSBP= mustard + weed whack + till + black plastic; 6) MSNT=mustard + sickle + weed mat; 7) Bare ground control
• Tilling brassica cover crops into the soil suppressed % herbivores better than NT (P < 0.05).
• Maceration of cover crops followed by covering with black plastic (BP) reduced % herbivores better than BG (P < 0.05) based on contrast analysis.
1 week after CC termination
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Biofumigation effects of oil radish and mustard on bacterivores
1) ORT=oil radish + weed whack + till; 2) ORBP=oil radish + weed whack + till + black plastic; 3) ORNT=oil radish + sickle + weed mat; 4) MST=mustard + weed whack + till; 5) MSBP= mustard + weed whack + till + black plastic; 6) MSNT=mustard + sickle + weed mat; 7) Bare ground control
• Tilling brassica cover crops into the soil increased % bacterivores compared to NT (P < 0.05), indicating an enhancement of bacterial decomposition.
• Biofumigation effect did not suppress bacterivores (BP vs no BP were not different).
1 week after CC termination
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Biofumigation effects of oil radish and mustard on omnivores
1) ORT=oil radish + weed whack + till; 2) ORBP=oil radish + weed whack + till + black plastic; 3) ORNT=oil radish + sickle + weed mat; 4) MST=mustard + weed whack + till; 5) MSBP= mustard + weed whack + till + black plastic; 6) MSNT=mustard + sickle + weed mat; 7) Bare ground control
• NT increased % omnivores compared to tilled plots (P < 0.01), indicating an improved soil food web structure.
• However, covering tilled plots with BP increased % omnivores better than no BP (P<0.05). In fact BP increased % omnivores compared to BG (P<0.05).
1 week after CC termination
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Objective 4 (Summary)
Enrichment indexChannel index
Structure index
Richness, diversity
Bacterivore Fungivore Herbivore Omnivore Predator
Free-living nematodes
Tilled + BPNTTilled + BP
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Plant growth after incorporation of radish and mustard green manures
BG MST ORT MSNT ORNT ORBP MSBP30
32
33
35
36
38
Chlo
roph
yll (
SPAD
uni
ts)
D
AB
A
ABAB
BCCD
BG MST MSNT ORT ORBP ORNT MSBP0
20
40
60
80
Cano
py w
idth
(cm
)
C
A AAABBB
2 weeks after planting
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Conclusions ‘Sodbuster' oil radish is a potential conventional trap crop and a good biofumigant
cultivar against root-knot and reniform nematodes. Terminating oil radish at 4 weeks by tilling only reduced galling by 27% on
pumpkin, but increased the total fruit weight by 74%. However, biofumigation (weed whacking + till + black plastic) reduced herbivorous
nematodes by 39%. None-the-less, oil radish/mustard cover cropping (weed whacking + till + black
plastic) increased bacterivorous nematodes compared to NT and BG. NT increased % omnivores compared to tilled plots. Covering tilled plots with BP increased % omnivores better than no BP. In fact BP
increased % omnivores compared to BG.
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Acknowledgements
Adviser: Dr. Koon-Hui Wang
Dissertation committees: Dr. Brent Sipes, Dr. Zhiqiang Cheng, Dr. Joe DeFrank and Dr. James Leary
Technical support staff: Donna Meyer, Gareth Nagai and Steve Yoshida
Poamoho Experiment Station: Farm crew Jari Sugano
Extension Agents: Jari Sugano and Jensen Uyeda
Funding source
Sustainable Pest Management LabUniversity of Hawai’i at Mānoa,
College of Tropical Agriculture and Human Resources
Shelby ChingJosiah MarquezJonathan KamBishnu Bandari
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Objective 4.
1 week after covering weed mat 1 week after covering black plastic
‘Felix’ zucchini transplanted at 3 ft
spacing