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Transcript 
“Snow” in KNP revisited on the ecological significance of
plant parasites
Wolfgang Maier
Introduction
•
Ecological significance of parasitic fungi?
Introduction
•
Ecological significance of parasitic fungi?
PLAY SIGNIFICANT ECOLOGICAL ROLE!
Introduction
•
Ecological significance of parasitic fungi?
PLAY SIGNIFICANT ECOLOGICAL ROLE!
– Indirect proofs:
• Invasive plant species
• Evolutionary patterns: co-speciation
Introduction
•
Ecological significance of parasitic fungi?
PLAY SIGNIFICANT ECOLOGICAL ROLE!
– Indirect proofs:
• Invasive plant species
• Evolutionary patterns: co-speciation
– Direct proofs:
• Effects of fungal parasites on population structure of natural host-disease
systems (e.g. Burdon et al 1995)
• Data from cultivated plants; virulence-resistance evolution; gene-for-gene
hypothesis (Flor 1953)
• Bio-control measures of alien invasive plant species with rust fungi, e.g. in
South Africa (Morris 1997)
Introduction
•
Ecological significance of parasitic fungi?
PLAY SIGNIFICANT ECOLOGICAL ROLE!
– Indirect proofs:
• Invasive plant species
• Evolutionary patterns: co-speciation
– Direct proofs:
• Effects of fungal parasites on population structure of natural host-disease
systems (e.g. Burdon et al 1995)
• Data from cultivated plants; virulence-resistance evolution; gene-for-gene
hypothesis (Flor 1953)
• Bio-control measures of alien invasive plant species with rust fungi, e.g. in
South Africa (Morris 1997)
•
•
Impact of Coniodictyum chevalieri on Zizyphus mucronata in KNP:
monitoring up-date
Rust fungi: Ravenelia on Acacia: The “biodiversity problem”
“Snow” in KNP - Symptoms I
Symptoms II
Causal agent?
The fungus
The fungus
Oberwinkler (1977)
The fungus
Oberwinkler (1977)
Symptoms +
micromorphology =
Coniodictyum chevalieri
Cryptobasidiaceae-Phylogeny
Bayesian MCMC (GTR+I+G)
Neighbour Joining (TIM+I+G)
Bootstrap (1000 reps)
Maier et al. 2006
Parasitic on Lauraceae in
(sub-)tropical forests outside
Africa
Only known from Zizyphus
mucronata (Rhamnaceae) in
African savannas
• monotypic genus
“Nothing” known about the ecology
of this group of basidiomycetes
Distribution of host and parasite in
Africa
1. Chad 1909
2. South Africa 1910
3. Senegal 1953 “very rare
but enigmatic fungus”
But Doidge (1950):
several collections from
South Africa and
Zimbabwe 1910-1938
Maier et al. 2006
Disease distribution in KNP
Disease prevalence:
100% in 2 ha reference plots
Distribution? Rain fall?
no clear answer so far!
Conclusions (2005)
• Coniodictyum is not as rare as believed earlier
• First report of epidemic spread
-> Important disease of buffalo thorn
Conclusions (2005)
• Coniodictyum is not as rare as believed earlier
• First report of epidemic spread
-> Important disease of buffalo thorn
• Prediction 1: No threat to buffalo thorn trees in KNP and Africa,
because indigenous disease
• Prediction 2: Will have impact on population structure of Z.
mucronata
Fluctuations of Coniodictyum in KNP
• 2004: Epidemic (end of March - August)
• 2005: Hardly any infections (=> no infection studies
possible)
Prediction 1 was right!
• Trees had recovered! Only heavily infected branches dead.
Prediction 2 was wrong!?
• 2006: 14 March: Young infections on fruits
– Effects on recruitment of trees?
– Effects on fruit eaters?
Next steps
• Life cycle?
– Infectious stage?
• Infection studies
– Timing of infections?
n
P!
K! R!
• Ecology
– Ecological conditions
needed?
– Ecological relevance?
• Tree population
– No increased mortality
– Recruitment? Infected
fruits
Life cycle of smuts
Ravenelia on Acacia
Host plants
• Legumes
– Mainly Acacias
– 12 Ravenelias on 13 Acacias
reported previously (Doidge 1950)
– 49 Acacias in RSA (Smit 2000)
– Non-Acacia legumes
– 12 Ravenelias on 8 other
legumes reported previously
Acacia tortilis
© W. Maier
Foto: M. Weiß
© W. Maier
Ravenelia: life cycle and spore stages
Insects !
Aeciospores
Spermogonia
© Maier
Aecia
© Hérnandez
Telia
Basidiospores
© Hérnandez
Urediniospores
© Hérnandez
Insects ?
Teliospores
New records of Ravenelia on Acacia in SA
A. ataxacantha
A. burkei
A. caffra
A. gerrardii
A. hebeclada
A. horrida
A. karroo
A. luederitzii
A. mellifera
A. nilotica
A. robusta
A. seyal
A. sieberiana
7 / 13
A. davyi
A. galpinii
A. grandicornuta
A. karoo
A. mapoch
A. natalitia
A. nigrescens
A. sp WFM
A. rubrodermis
A. Sekhukhuniensis
A. senegal vor leiorhachis
A. senegal
A. stefaniana
A. swazica
A. tortilis
15 new records
New records of Ravenelia on Acacia in SA
A. ataxacantha
A. burkei
A. caffra
A. gerrardii
A. hebeclada
A. horrida
A. karroo
A. luederitzii
A. mellifera
A. nilotica
A. robusta
A. seyal
A. sieberiana
7 / 13
A. davyi
Conclusions:
A. galpinii
• very diverse group of
A. grandicornuta
parasites
A. karoo
A. mapoch
A. natalitia
• great evolutionary
A. nigrescens
significance
A. sp WFM
A. rubrodermis
A. Sekhukhuniensis
• ecological significance?
A. senegal vor leiorhachis
A. senegal
A. stefaniana
A. swazica
A. tortilis
15 new records
Acknowledgements
• Thembi Khoza
• Neil Harmse
• Brenda Wingfield
• Mike Wingfield
• NRF
• DFG
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