Abstract
New concepts in phytopathometry continue to emerge, such as the evolution of the concept of pathogen intensity versus the well-established concept of disease intensity. The concept of pathogen severity, defined as the quantitative measurement of the amount of pathogen per sampling unit has also emerged in response to the now commonplace development of quantitative molecular detection tools. Although the concept of disease severity, i.e., the amount of disease per sampling unit, is a well-established concept, the accuracy and precision of visual estimates of disease severity is often questioned. This article will review disease assessment concepts, as well as the methods and assessment aides currently available to improve the accuracy and precision of visually-based disease severity data. The accuracy and precision of visual disease severity assessments can be improved by quantitatively measuring and comparing the accuracy and precision of rates and/or assessment methods using linear regression, by using computer-based disease assessment training programmes, and by developing and using diagrammatic keys (standard area diagrams).
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
References
Campbell CL and Madden LV (1990) Introduction to Plant Disease Epidemiology, John Wiley, New York.
Forbes GA and Jeger MJ (1987) Factors affecting the estimation of disease intensity in simulated plant structures. Zeitschrift fur Pflanzen Krankheiten und Pflanzenschutz 94: 113–120.
Gaunt RE (1995) New philosophies and technologies in disease measurement and appraisal. Canadian Journal of Plant Pathology 17: 185–189.
Godoy CV, Carneiro MTPG, Iamauti MT, Dalla Pria M, Amorim L, Berger RD and Bergamim Filho A (1997) Diagrammatic scales for bean diseases: development and validation. Journal of Plant Diseases and Protection 104: 336–345.
Gomes AMA, Michereff SJ and Mariano RLR (2004) Development and validation of a diagrammatic key for Cercospora leaf spot of lettuce. Summa Phytopathologica 30: 38–42.
Guan J and Nutter FW, Jr. (2001) Factors affecting the quality and quantity of sunlight reflected from alfalfa canopies. Plant Disease 85: 865–874.
Guan J and Nutter FW, Jr. (2003) Quantifying the intra-rater repeatability and inter-rater reliability of visual disease and remote sensing assessment methods in the alfalfa foliar disease pathosystem. Canadian Journal of Plant Pathology 25: 143–149.
Guan J and Nutter FW, Jr. (2004) Comparison of single-point alfalfa yield models based on visual disease intensity and remote sensing assessments. Canadian Journal of Plant Pathology 26: 314–324.
Gaunt RE (1987) Measurement of disease and pathogens. In: Teng PS (ed.) Crop Loss Assessment and Pest Management (pp. 6-18) The American Phytopathological Society, St. Paul, MN.
Horsfall JG and Cowling EB (1978) Pathometry: the measurement of plant disease. In: Horsfall JG and Cowling EB (eds) Plant Disease: An Advanced Treatise. Vol. 2 (pp. 120-136) Academic Press, New York.
James C (1971) A Manual of Assessment Keys for Plant Disease. Canadian Department of Agriculture Publishing.
Kranz J (1988) Measuring plant disease. In: Kranz J and Rotem J (eds) Experimental Techniques in Plant Disease Epidemiology (pp. 35-50) Springer-Verlag, New York.
Leite RMVBC and Amorim L (2002) Development and validation of a diagrammatic scale for Alternaria leaf spot of sunflower. Summa Phytopathologica 28: 14–19.
Main CE (1977) Crop destruction-The raison d’ être of plant pathology. In: Horsfall JG and Cowling EB (eds) Plant Disease: An Advanced Treatise (pp. 55-78) Academic Press, New York.
Nutter FW, Jr. (1990) Remote sensing and image analysis for crop loss assessment. In: Crop Loss Assessment in Rice (pp.93-105) International Rice Research Institute, Manila, Philippines.
Nutter FW, Jr. (1997a) Disease severity assessment training. In: Francl L and Neher D (eds) Exercises in Plant Disease Epidemiology (pp. 1-7) APS Press, St. Paul, MN.
Nutter FW, Jr. (1997b) Quantifying the temporal dynamics of plant virus epidemics: a review. Crop Protection 16: 603–618.
Nutter FW, Jr. (1999) Understanding the interrelationship between botanical, human, and veterinary epidemiology: The Ys and Rs of it all. Ecosystem Health 5: 131–140.
Nutter FW, Jr. (2001) Disease assessment terms and concepts. In: Maloy OC and Murray TD (eds) Encyclopedia of Plant Pathology (pp. 312-323) John Wiley and Sons, Inc, NY.
Nutter FW, Jr. and Esker PD (2006) Disease assessment keys. In: Maloy OC and Murray TD (eds) Encyclopedia of Plant Pathology (pp. 323-326) John Wiley and Sons, Inc, NY.
Nutter FW, Jr. and Esker PD (2005) The role of psychophysics in phytopathology: the Weber-Fechner law revisited. European Journal of Plant Pathology 114: 199–213.
Nutter FW, Jr. and Gaunt RE (1996) Recent developments in methods for assessing disease losses in forage/pasture crop. In: Chakraborty S, Leath DT, Skipp RA, Pederson GA, Bray RA, Latch GCM and Nutter FW Jr. (eds) Pasture and Forage Crop Pathology (pp. 93-118) American Society of Agronomy, Crop Science Society of America, and Soil Science Society of America, Madison, WI.
Nutter FW, Jr., Gleason ML, Jenco JH and Christians NC (1993) Assessing the accuracy, intra-rater repeatability and inter-rater reliability of disease assessment systems. Phytopathology 83: 806–812.
Nutter FW, Jr. and Guan J (2001) Disease losses. In: Maloy OC and Murray TD (eds) Encyclopedia of Plant Pathology (pp. 340-351) John Wiley and Sons, Inc, NY.
Nutter FW, Jr. and Littrell RH (1996) Relationships among percent defoliation, canopy reflectance, and pod yield in the peanut-late leafspot system. Crop Protection 15:135–142.
Nutter FW, Jr. and Litwiller D (1998) A computer program to generate standard area diagrams to aid raters in assessing disease severity. Phytopathology 88: S117.
Nutter FW, Jr., Litwiller D and Wegulo SN (1998). Do standard area diagrams improve the accuracy and precision of disease assessments? Proceedings of the 7th International Congress of Plant Pathology. p. 2.1.16.
Nutter FW, Jr. and Parker SK (1997) Fitting disease progress curves using EPIMODEL. In: Francl L and Neher D (eds) Exercises in Plant Disease Epidemiology (pp. 24-28) APS Press, St. Paul, MN.
Nutter FW, Jr. and Schultz PM (1995) Improving the accuracy and precision of disease assessment: selection of methods and use of computer-aided training programs. Canadian Journal of Plant Pathology 17: 174–184.
Nutter FW, Jr., Teng PS and Shokes RM (1991) Disease assessment terms and concepts. Plant Disease 75: 1187–1188.
Nutter FW, Jr., Wegulo SN, Litwiller D, Emmitt RW and Magarey PA (2000) A computer program to improve the accuracy and precision of severity assessments in grapevines. In: Magarey, PA, Thiele, SA, Tschirpig, KL, Emmet, RW, Clark, K and Magarey RD (eds) Proceedings of the Third International Workshop on Grapevine Downy and Powdery Mildew (pp. 64-69). South Australian Research and Development Institute Series Report No. 50.
Nutter FW, Jr. and Worawitlikit O (1990) Disease. Pro: A computerized disease assessment training program. Proceedings of the American Peanut Research and Ed. Society 22: 38.
O’Brien RD and van Bruggen AHC (1992) Accuracy, precision, and correlation to yield loss of disease severity scales for corky root of lettuce. Phytopathology 82: 91–96.
Padgett GB, Nutter FW, Jr. and Kuhn CW (1990) Quantification of disease resistance that reduces the rate of tobacco etch virus epidemics in bell pepper. Phytopathology 80:451–455.
Sherwood RT, Berg CC, Hoover MR and Zeiders KE (1983) Illusions in visual assessment of Stagonospora leaf spot of orchardgrass. Phytopathology 73: 173–177.
Shokes FM, Berger RD, Smith DH and Rasp JM (1987) Reliability of disease assessment procedures: A case study with late leafspot of peanut. Oleagineux 42: 245–251.
Zadoks JC and Schein RD (1979) Epidemiology and Plant Disease Management, Oxford University Press, New York.
Author information
Authors and Affiliations
Rights and permissions
Copyright information
© 2006 Springer
About this chapter
Cite this chapter
Nutter, F.W., Esker, P.D., Coelho Netto, R.A. (2006). Disease assessment concepts and the advancements made in improving the accuracy and precision of plant disease data. In: Plant disease epidemiology: facing challenges of the 21st Century. Springer, Dordrecht. https://doi.org/10.1007/1-4020-5020-8_7
Download citation
DOI: https://doi.org/10.1007/1-4020-5020-8_7
Accepted:
Publisher Name: Springer, Dordrecht
Print ISBN: 978-1-4020-5019-0
Online ISBN: 978-1-4020-5020-6
eBook Packages: Biomedical and Life SciencesBiomedical and Life Sciences (R0)