Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/springer-journals/assessment-of-threatened-flora-susceptibility-to-phytophthora-RvSvmYvGo0
References (81)
-
B. Shearer, C. Crane, A. Cochrane (2004)
Quantification of the susceptibility of the native flora of the South-West Botanical Province, Western Australia, to Phytophthora cinnamomiAustralian Journal of Botany, 52
-
J. Tippett, T. Hill, B. Shearer (1985)
Resistance of Eucalyptus spp. to Invasion by Phytophthora cinnamomiAustralian Journal of Botany, 33
-
K. Dixon (1984)
Technique for Rapid Assessment of Tolerance ofBanksiaspp. to Root Rot Caused byPhytophthora cinnamomiPlant Disease, 68
-
M. Dudzinski, K. Old, R. Gibbs (1993)
Pathogenic Variability in Australian Isolates of Phytophthora cinnamomiAustralian Journal of Botany, 41
-
P. Tooley, C. Grau (1984)
Field characterization of rate-reducing resistance to Phytophthora megasperma f. sp. glycinea in soybeanPhytopathology, 74
-
B. Shearer, M. Dillon (1996)
Corrigendum - Susceptibility of Plant Species in Banksia Woodlands on the Swan Coastal Plain, Western Australia, to Infection by Phytophthora cinnamomiAustralian Journal of Botany, 44
-
B. Shearer, B. Michaelsen, P. Somerford (1988)
Effects of isolate and time of inoculation on invasion of secondary phloem of Eucalyptus spp. and Banksia grandis by Phytophthora spp.Plant Disease, 72
-
(1976)
Plant-herbivore systems. In ‘Theoretical ecology. Principles and applications -
J. Havel (1975)
Site vegetation mapping in the northern Jarrah forest (Darling Range). 2. location and mapping of site vegetation types -
J. Plank (1964)
Plant Diseases: Epidemics and ControlSoil Science, 98
-
B. Shearer, M. Dillon (1995)
Susceptibility of Plant Species in Eucalyptus marginata Forest to Infection by Phytophthora cinnamomiAustralian Journal of Botany, 43
-
M. Dale, J. Irwin (1991)
Glasshouse and field screening of chickpea cultivars for resistance to phytophthora megasperma f. Sp. medicaginisAustralian Journal of Experimental Agriculture, 31
-
B. Shearer, R. Fairman, M. Grant (2006)
Effective concentration of phosphite in controlling Phytophthora cinnamomi following stem injection of Banksia species and Eucalyptus marginataForest Pathology, 36
-
N. Reiter, G. Weste, D. Guest (2004)
The risk of extinction resulting from disease caused by Phytophthora cinnamomi to endangered, vulnerable or rare plant species endemic to the Grampians, Western VictoriaAustralian Journal of Botany, 52
-
Perrin Meyer, Jason Yung, J. Ausubel (1999)
A Primer on Logistic Growth and Substitution: The Mathematics of the Loglet Lab SoftwareTechnological Forecasting and Social Change, 61
-
M Anderson (1943)
Soil and Plant AnalysisNature, 152
-
J. Harris, F. Kassaby, M. Lands (1985)
Variations in mortality in families of Eucalyptus regnans caused by Phytophthora cinnamomi, up to 5 years after planting [fungus]Australian forest research, 15
-
L. Madden, G. Hughes, M. Irwin (2000)
Coupling Disease-Progress-Curve and Time-of-Infection Functions for Predicting Yield Loss of Crops.Phytopathology, 90 8
-
G Caughley (1976)
Theoretical ecology. Principles and applications -
D Hüberli, IC Tommerup, MP Dobrowolski, MC Calver, GEStJ Hardy (2001)
Phenotypic variation in a clonal lineage of two Phytophthora cinnamomi populations from Western AustraliaMycological Research, 105
-
E. Park, S. Lim (1985)
Empirical Estimation of the Asymptotes of Disease Progress Curves and the Use of the Richards Generalized Rate Parameters for Describing Disease ProgressPhytopathology, 75
-
J. Luque, J. Parladé, J. Pera (2002)
Seasonal changes in susceptibility of Quercus suber to Botryosphaeria stevensii and Phytophthora cinnamomiPlant Pathology, 51
-
(1989)
Jarrah dieback: the dynamics -
H. Mckenzie, H. Wallace (1954)
The Kjeldahl determination of nitrogen : a critical study of digestion conditions-temperature, catalyst, and oxidizing agent.Australian Journal of Chemistry, 7
-
D. Hüberli, I. Tommerup, M. Dobrowolski, M. Calver, G. Hardy (2001)
Phenotypic variation in a clonal lineage of two Phytophthora cinnamomi populations from Western AustraliaFungal Biology, 105
-
K. Kirby (1993)
Advanced data analysis with SYSTAT -
J. Cho (1983)
Variability in susceptibility of some Banksia species to Phytophthora cinnamomi and their distribution in AustraliaPlant Disease, 67
-
K. Tynan, E. Scott, M. Sedgley (1998)
Development of excised shoot and root assays for in vitro evaluation of Banksia species for response to Phytophthora speciesPlant Pathology, 47
-
J. Murphy, J. Riley (1962)
A modified single solution method for the determination of phosphate in natural watersAnalytica Chimica Acta, 27
-
T. McCredie, K. Dixon, K. Sivasithamparam (1985)
Variability in the Resistance of Banksia L.f. Species to Phytophthora cinnamomi RandsAustralian Journal of Botany, 33
-
Bryan Shearer, Colin Crane, Anne Cochrane (2005)
A Thief of Time: 'Phytophthora cinnamomi' and Threatened FloraAustralasian Plant Conservation: journal of the Australian Network for Plant Conservation
-
P. Barker, T. Wardlaw (1995)
Susceptibility of Selected Tasmanian Rare Plants to Phytophthora cinnamomiAustralian Journal of Botany, 43
-
B. Shearer, M. Dillon (1996)
Impact and Disease Centre Characteristics of Phytophthora cinnamomi Infestations of Banksia Woodlands on the Swan Coastal Plain, Western AustraliaAustralian Journal of Botany, 44
-
BL Shearer, JT Tippett (1989)
Jarrah dieback: the dynamics and management of Phytophthora cinnamomi in the jarrah (Eucalyptus marginata) forest of south-western Australia -
(2003)
The influence of soil from a topographic gradient in the Fitzgerald River National Park on mortality of Banksia baxteri following infection by Phytophthora cinnamomi -
D. Cahill, N. Legge, B. Grant, G. Weste (1989)
Cellular and histological changes induced by Phytophthora cinnamomi in a group of plant species ranging from fully susceptible to fully resistantPhytopathology, 79
-
R. Lazarovits
Age-Related Changes in Specificity and Glyceollin Production in the Hypocotyl Reaction of Soybeans to Phytophthora megasperma var . sojae -
D. Neher, C. Campbell (1992)
Underestimation of disease progress rates with the logistic, monomolecular, and Gompertz models when maximum disease intensity in less than 100 percentPhytopathology, 82
-
C. Campbell, W. Jacobi, N. Powell, C. Main (1984)
Analysis of disease progression and the randomness of occurrence of infected plants during tobacco black shank epidemicsPhytopathology, 74
-
P. Broadbent, K. Baker (1974)
Behaviour of Phytophthora cinnamomi in Soils Suppressive and Conducive to Root RotCrop & Pasture Science, 25
-
D. Hüberli, I. Tommerup, M. Colver, I. Colquhounc, G. Hardy (2002)
Temperature and inoculation method influence disease phenotypes and mortality of Eucalyptus marginata clonal lines inoculated with Phytophthora cinnamomiAustralasian Plant Pathology, 31
-
S. Denman, A. Sadie (2001)
Evaluation of a stem inoculation technique for assessing resistance to Phytophthora cinnamomi in Leucospermum cultivarsAustralasian Plant Pathology, 30
-
N. Myers, R. Mittermeier, C. Mittermeier, G. Fonseca, J. Kent (2000)
Biodiversity hotspots for conservation prioritiesNature, 403
-
(1986)
Progress curves of foliar diseases: their interpretation and use -
D. Close, G. Messina, S. Krauss, Deanna Rokich, J. Stritzke, K. Dixon (2006)
Conservation biology of the rare species Conospermum undulatum and Macarthuria keigheryi in an urban bushland remnantAustralian Journal of Botany, 54
-
G. Tahi, B. Kébé, A. Sangaré, F. Mondeil, C. Cilas, A. Eskes (2006)
Foliar resistance of cacao ( Theobroma cacao ) to Phytophthora palmivora as an indicator of pod resistance in the field: interaction of cacao genotype, leaf age and duration of incubationPlant Pathology, 55
-
(1976)
Plant - herbivore systems -
(2003)
Time course studies of the effect of temperature and stimulation of soil from different depths on sporangium production of Phytophthora cinnamomi -
S. Barrett, B. Shearer, C. Crane, A. Cochrane (2007)
The risk of extinction resulting from disease caused by Phytophthora cinnamomi to threatened flora endemic to the Stirling Range National Park, Western Australia -
B. Shearer, B. Michaelsen, H. Warren (1987)
Comparative Behaviour of Phytophthora Species in the Secondary Phloem of Stems and Excised Roots of Banksia grandis and Eucalyptus marginataAustralian Journal of Botany, 35
-
C. Linde, G. Kemp, M. Wingfield (1999)
Variation in Pathogenicity Among South African Isolates of Phytophthora cinnamomiEuropean Journal of Plant Pathology, 105
-
S Barrett, B Shearer, C Crane, A Cochrane (2007)
Proceedings of the MEDECOS XI 2007 conference, 2–5 September, Perth, Australia -
B Shearer, C Crane, A Cochrane (2005)
A thief of time: Phytophthora cinnamomi and threatened floraAustralian Plant Conservation, 13
-
G. Weste (1986)
Vegetation Changes Associated With Invasion by Phytophthora cinnamomi of Defined Plots in the Brisbane Ranges, Victoria, 1975-1985Australian Journal of Botany, 34
-
R. Davis, J. Irwin, B. Imrie (1994)
Glasshouse and field evaluation of cowpea lines for partial resistance to Phytophthora vignaePlant Pathology, 43
-
L. Madden (1980)
Quantification of disease progression., 2
-
S. Jørgensen (1975)
Models in EcologyEcological Modelling, 1
-
PE Waggoner (1986)
Plant disease epidemiology. Population dynamics and management. Vol. 1 -
M. Jeger (2004)
Analysis of disease progress as a basis for evaluating disease management practices.Annual review of phytopathology, 42
-
B. Shearer, S. Shea, P. Deegan (1987)
Temperature-growth relationships of Phytophthora cinnamomi in the secondary phloem of roots of Banksia grandis and Eucalyptus marginataPhytopathology, 77
-
M. Stukely, C. Crane, J. McComb, I. Bennett (2007)
Field survival and growth of clonal, micropropagated Eucalyptus marginata selected for resistance to Phytophthora cinnamomiForest Ecology and Management, 238
-
R. Wills (1993)
The ecological impact of Phytophthora cinnamomi in the stirling range national park, Western AustraliaAustral Ecology, 18
-
A. Karkach (2006)
Trajectories and models of individual growthDemographic Research, 15
-
J. Tippett, S. Shea, T. Hill, B. Shearer (1983)
Development of Lesions Caused by Phytophthora cinnamomi in the Secondary Phloem of Eucalyptus marginataAustralian Journal of Botany, 31
-
T. Butcher, M. Stukely, G. Chester (1984)
Genetic variation in resistance of Pinus radiata to Phytophthora cinnamomiForest Ecology and Management, 8
-
J. Frampton, D. Benson (2004)
Phytophthora Root Rot Mortality in Fraser Fir SeedlingsHortscience, 39
-
F. Podger (1989)
Comparative Pathogenicity of Fourteen Australian Isolates of Phytophthora cinnamomi Determined on Transplants of Tasmanian Temperate HeathlandAustralian Journal of Botany, 37
-
J. Segarra, M. Jeger, F. Bosch (2001)
Epidemic dynamics and patterns of plant diseases.Phytopathology, 91 10
-
(2002)
SYSTAT 10.2. Statistics I. -
M. Stukely, C. Crane (1994)
Genetically based resistance of Eucalyptus marginata to Phytophthora cinnamomiPhytopathology, 84
-
B. Shearer, R. Fairman (2007)
Application of phosphite in a high-volume foliar spray delays and reduces the rate of mortality of four Banksia species infected with Phytophthora cinnamomiAustralasian Plant Pathology, 36
-
BL Shearer, CE Crane (2003)
Phytophthora in forests and natural ecosystems. 2nd international IUFRO working party 7.02.09 meeting, Albany, Western Australia -
K. Tynan, E. Scott, M. Sedgley (1998)
Evaluation of Banksia species for response to Phytophthora infectionPlant Pathology, 47
-
N. Schoknecht (2002)
Soil groups of Western Australia : a simple guide to the main soils of Western Australia -
G. Lazarovits (1981)
Age-Related Changes in Specificity and Glyceollin Production in the Hypocotyl Reaction of Soybeans toPhytophthora megaspermavar.sojaePhytopathology, 71
-
P Broadbent, KF Baker (1974)
Behaviour of Phytophthora cinnamomi in soils suppressive and conducive to root rotAustralian Journal of Agricultural Research, 25
-
H. Boesewinkel (1976)
Storage of fungal cultures in waterTransactions of The British Mycological Society, 66
-
Youngjin Kim, B. Hwang, K. Park (1989)
Expression of age-related resistance in pepper plants infected with Phytophthora capsiciPlant Disease, 73
-
C. Gilligan (1990)
Comparison of disease progress curves.The New phytologist, 115 2
-
JJ Havel (1975)
Site-vegetation mapping in the northern jarrah forest (Darling Range). 1. Definition of site-vegetation types -
B. Shearer, C. Crane, S. Barrett, A. Cochrane (2007)
Phytophthora cinnamomi invasion, a major threatening process to conservation of flora diversity in the South-west Botanical Province of Western AustraliaAustralian Journal of Botany, 55
- Publisher
- Springer Journals
- Copyright
- Copyright © 2007 by Australasian Plant Pathology Society
- Subject
- Life Sciences; Plant Pathology; Plant Sciences; Agriculture; Entomology; Ecology
- ISSN
- 0815-3191
- eISSN
- 1448-6032
- DOI
- 10.1071/AP07074
- Publisher site
- See Article on Publisher Site
Abstract
Disease progress curves were evaluated for the assessment of the susceptibility of the flora of the South-West Botanical Province of Western Australia threatened by Phytophthora cinnamomi infection. Disease progress was analysed with the logistic model because this model describes numerous observed disease progress curves. In addition, the three logistic model parameters, upper asymptote (Kmax), lag time (t1/2K) and intrinsic rate of increase (r), have rational physical interpretations. Because the logistic model parameters for percentage of plants with collar lesions were significantly related to parameters for percentage mortality, only the logistic model parameters for percentage mortality were used in subsequent analysis. Susceptible hosts had the greatest Kmax, shortest t1/2K and fastest r. These parameters change to lowest Kmax, longest t1/2K and slowest r for resistant plant taxa. There was a greater change of Kmax with t1/2K than with r. The Kmax and r parameters did not differ significantly between isolates of the pathogen. Variation in mortality curve parameters between years was greater for Banksia grandis than for the more susceptible B. brownii. There was no significant linear relationship between mortality curve parameters for B. brownii and temperature variables. For B. grandis there were four significant linear relationships between a mortality curve parameter and a temperature variable. Potting mix soil favoured greatest disease progress with the shortest t1/2K and fastest r. Susceptibility to P. cinnamomi determined in a shadehouse environment following soil inoculation was significantly positively correlated with susceptibility recorded in disease centres in natural environments.
Journal
Australasian Plant Pathology – Springer Journals
Published: Jan 29, 2011