Effect of Systemic Inducing Resistance and Biostimulant Materials on Apple Scab Using a Detached Leaf Bioassay | Arboriculture & Urban Forestry

LITERATURE CITED

↵
1. Agostini, J.P.,
2. P.M. Bushong, and
3. L.W. Timmer
. 2003. Glasshouse evaluation of products that induce host resistance for control of scab, melanose, and Alternaria brown spot of citrus. Plant Disease 87:69–75.
OpenUrl
↵
1. Ajilan, A.M., and
2. D.A. Potter
. 1992. Lack of effect of tobacco mosaic virus-induced systemic acquired resistance to anthropoid herbivores. Phytopathology 82:647–651.
OpenUrl CrossRef Web of Science
↵
1. Anfoka, G., and
2. H. Buchenauer
. 1997. Systemic acquired resistance in tomato against Phytophthora infestans by pre-inoculating with tobacco mosaic virus. Physiological and Molecular Plant Pathology 50:85–101.
OpenUrl
↵
1. Anonymous
. 2008. The UK Pesticide Guide. British Crop Protection Council, Cabi Publishing, Oxon, UK.
↵
1. Barnes, S., and
2. G.C. Percival
. 2006. The influence of biostimulants and water-retaining polymer root dips on survival and growth of newly transplanted bare-rooted silver birch and rowan. Journal of Environmental Horticulture 24:173–179.
OpenUrl
↵
1. Bécot, S.,
2. E. Pajot,
3. D. Le Corre,
4. C. Monot, and
5. D. Silué
. 2000. Phytogard^® (K₂HPO₃) induces localized resistance in cauliflower to downy mildew of crucifers. Crop Protection 19:417–425.
OpenUrl
↵
1. Bio-Plex Plant Survival Essentials
. 2009. Pro-Tech™. <http://www.bioplex.com/protech.asp>
↵
1. Bokshi, A.I.,
2. S.C. Morris, and
3. B.J. Deverall
. 2003. Effects of benzothiadiazole and acetylsalicylic acid on B-1,3-glucanase activity and disease resistance in potato. Plant Pathology 52:22–27.
OpenUrl
↵
1. Busam, G.,
2. H.H. Kassemeyer, and
3. U. Matern
. 1997. Differential expression of chitinases in Vitis vinifera L. responding to systemic acquired resistance activators or fungal challenge. Plant Physiology 115:1029–1038.
OpenUrl Abstract
↵
1. Butt, D.J.,
2. A.A.J. Swait, and
3. J.D. Robinson
. 1990. Evaluation of fungicides against apple powdery mildew and scab. Tests of Agrochemicals and Cultivars 11. Annals of Applied Biology (supplement) 116:34–35.
OpenUrl
↵
1. Chalker-Scott, L.
2005. The Myth of Compost Tea, Episode III. <http://www.puyallup.wsu.edu/~Linda%20Chalker-Scott/Horticultural%20Myths_files/Myths/Compost%20tea%203rd%20time.pdf>
↵
1. Elliston, J.,
2. J. Kuc,
3. E. Williams, and
4. J. Raje
. 1977. Relation of phytoalexin accumulation to local and systemic protection of bean against anthracnose. Phytopathology. 88:114–130.
OpenUrl
↵
1. Franceschi, V.R.,
2. P. Karokene,
3. T. Krekling, and
4. E. Christiansen
. 2000. Phloem parenchyma cells are involved in local and distant defense responses to fungal inoculation or bark-beetle attack in Norway spruce (Pinaceae). American Journal of Botany 87:314–326.
OpenUrl Abstract/FREE Full Text
↵
1. Fraser, G.A, and
2. G.C. Percival
. 2003. The influence of biostimulants on growth and vitality of three urban tree species following transplanting. Arboricultural Journal. 27:43–57.
OpenUrl
↵
1. Godard, J.F.,
2. S. Ziadi,
3. C. Monot,
4. D. Le Corre, and
5. D. Silué
. 1999. Benzothiadiazole (BTH) induces resistance in cauliflower (Brassica oleracea var botrysis) to downy mildew of crucifers caused by Peronospora parasitica. Crop Protection 18:397–405.
OpenUrl
↵
1. Gorlach, J.,
2. S. Volrath,
3. G. Knaufbeiter,
4. G. Hengy, and
5. U. Beckhove
. 1996. Benzothiadiazole, a novel class of inducers of systemic acquired resistance, activates gene expression and disease resistance in wheat. Plant Cell 8:629–643.
OpenUrl Abstract/FREE Full Text
↵
1. Grubinger, V.
2005. Compost tea to suppress plant disease. Published June 2005. University of Vermont Extension. <http://www.uvm.edu/vtvegandberry/factsheets/composttea.html>
↵
1. Holb, I.J.,
2. B. Heijne,
3. J.C.M. Withagen,
4. J.M. Gall, and
5. M.J. Jeger
. 2005. Analysis of summer epidemic progress of apple scab in different apple production systems in the Netherlands and Hungary. Phytopathology 95:1001–1020.
OpenUrl PubMed
↵
1. Kitao, M.,
2. T.T. Lei, and
3. T. Koike
. 1998. Application of chlorophyll fluorescence to evaluate Mn tolerance of deciduous broad-leaved tree seedlings native to northern Japan. Tree Physiology 18:135–140.
OpenUrl CrossRef PubMed
↵
1. Kato, T.,
2. Y. Yamaguchi,
3. T. Harano,
4. T. Yokayama, and
5. Y. Uyehara
. 1984. Unsaturated hydroxy fatty acids, the self defensive substance in rice plants against rice blast disease. Chemical Letters 12:409–412.
OpenUrl
↵
1. Kessmann, H.,
2. T. Staub,
3. C. Hofmann,
4. T. Maetzke,
5. J. Herzog,
6. E. Ward,
7. S. Uknes, and
8. J. Ryals
. 1994. Induction of systemic acquired disease resistance in plants by chemicals. Annual Review of Phytopathology 32:439–459.
OpenUrl CrossRef PubMed Web of Science
↵
1. Köhl, J.
2006. Replacement of Copper Fungicides in Organic Production of Grapevine and Apple in Europe. <http://www.rep-co.nl/Documents/Publ%20Executive%20Summaries/REPCO-Period%203%20Publishable%20Executive%20Summarypdf>
↵
1. Krokene, P.,
2. N.E. Nagy, and
3. H. Solheim
. 2008. Methyl jasmonate and oxalic acid treatment of Norway spruce: anatomically based defense responses and increased resistance against fungal infection. Tree Physiology. 28:29–35.
OpenUrl CrossRef PubMed Web of Science
↵
1. MacHardy, W.E.
1996. Apple scab. Biology, epidemiology and management. St Paul, MN American Phytopathology Society.
↵
1. Mandops
. 2009. Resistim^®: Plant nutrient supplement with biostimulants. <http://www.mandops.co.uk/resistim.htm>
↵
1. Martinelli, J.A.,
2. J.K.M. Brown, and
3. M.S. Wolfe
. 2007. Effects of barley genotype on induced resistance to powdery mildew. Plant Pathology 42:195–202.
OpenUrl
↵
1. Maxicorp USA, Inc
. 2009. Benefits. <http://www.maxicrop.com/pages/benefits.html>
↵
1. Muhammed, Z.,
2. R.H. Brlansky, and
3. L.W. Timmer
. 1996. Infection of flower and vegetative tissues of citrus by Colletotrichum acutatum and C.gloeosporioides. Mycologia 88:121–128.
OpenUrl CrossRef
↵
1. Namai, T.,
2. T. Kato,
3. Y. Yamaguchi, and
4. T. Hirukawa
. 1993. Anti-rice blast activity and resistance induction of C-18 oxygenated fatty acids. Bioscience Biotechnology and Biochemistry 57:611–613.
OpenUrl CrossRef Web of Science
↵
1. Pajot E.,
2. D. LeCorre, and
3. D. Silué
. 2001. Phytogard^® and DL-β-amino butyric acid (BABA) induce resistance to downy mildew (Bremia Lactucae) in Lettuce (Lactuca sativa L). European Journal of Plant Pathology 107:1573–8469.
OpenUrl
↵
1. Percival, G.C.
2001. Induction of systemic acquired disease resistance in plants: Potential implications for disease management in urban forestry. Journal of Arboriculture 27:181–193.
OpenUrl
↵
1. Percival, G.C., and
2. I. Haynes
. 2008. The influence of systemic inducing resistance chemicals for the control of oak powdery mildew (Microsphaera alphitoides) applied as a theraputic treatment. Arboriculture and Urban Forestry 34:191–200.
OpenUrl
↵
1. Percival, G.C., and
2. S. Boyle
. 2009. Evaluation of film forming polymers to control apple scab (Venturia inaequalis (Cooke) G. Wint.,) under laboratory and field conditions. Crop Protection 28:30–35.
OpenUrl
↵
1. Portillo, M.,
2. A. Collina, and
3. A Brunelli
. 2007. Activity of biostimulants towards Phytophthora infestans on tomato. Tenth Workshop of a European Network for development of an Integrated Control Strategy of potato late blight. Bologna (Italy), 2007.
↵
1. Raggi, V.
1998. Hydroxyproline-rich glycoprotein accumulation in TMV-infected tobacco showing systemic acquired resistance to powdery mildew. Journal of Phytopathology 146:321–325.
OpenUrl
↵
1. Reuveni, M.,
2. V. Agapov,
3. R. Reuveni
. 1994. Foliar sprays of phosphates induces growth increase and systemic resistance to Puccinia sorghi in maize. Plant Pathology 43:245–250.
OpenUrl
↵
1. Reuveni, M.,
2. V. Agapov,
3. R. Reuveni
. 1995. Suppression of cucumber powdery mildew (Sphaerotheca fuliginea) by foliar sprays of phosphate and potassium salts. Plant Pathology 44:31–39.
OpenUrl
↵
1. Schnabel, G., and
2. L. Parisi
. 1997. Sensitivity of Venturia inaequalis to five DMI fungicides, including the new triazole fluquinconazole, and to pyrimethanil. Journal of Plant Disease Protection 104:36–46.
OpenUrl
↵
1. Srivastava, A.K.,
2. T. Singh,
3. T.K. Jana, and
4. D.K. Arora
. 2001. Induced resistance and control of charcoal rot in Cicer arietinum (chickpea) by Pseudomonas fluorescens. Canadian Journal of Botany 79:787–795.
OpenUrl
↵
1. Stanis, V.F., and
2. A.L. Jones
. 1985. Reduced sensitivity to sterol inhibiting fungicides in field isolates of Venturia inaequalis. Phytopathology 75:1098–1101.
OpenUrl
↵
1. Lyr, H., and
2. C. Polter
1. Staub, T.,
2. P. Ahl-Goy, and
3. H. Kessmann
. 1992. Chemically induced disease resistance in plants, pp. 239–249. In: Lyr, H., and C. Polter (Eds.). Proceedings 10th International Symposium of Systematic, Fungicidal and Antifungal Compounds. Eugen Ulmer, Stuttgart, Germany.
↵
1. Swait, A.A.J., and
2. D.J. Butt
. 1990. Fungicides as antisporulants against apple powdery mildew and scab. Tests of Agrochemicals and Cultivars 11. Annals of Applied Biology (supplement) 116:36–37.
OpenUrl
↵
1. Van Loon, L.C.,
2. M. Rep, and
3. C.M.J. Pieterse
. 2006. Significance of inducible defense-related proteins in infected plants. Annual Review of Phytopathology 44:135–162.
OpenUrl CrossRef PubMed Web of Science
↵
1. Wyatt, S.E., and
2. J. Kuc
. 1992. The accumulation of β-ionine and 3-hydroxy esters of β-ionine in tobacco immunised by foliar inoculation with tobacco mosaic virus. Phytopathology 82:580–582.
OpenUrl
↵
1. Yepes, L.M., and
2. H.S. Aldwinckle
. 1993a. Selection of resistance to Venturia inaequalis using detached leaves from in vitro-grown apple shoots. Plant Science 93:211–216.
OpenUrl
↵
1. Yepes, L.M., and
2. H.S. Aldwinckle
. 1993b. Pathogenesis of Venturia inaequalis on shoot-tip cultures and on greenhouse-grown apple cultivars. Phytopathology 11:1155–1164.
OpenUrl

In this issue

Print

Bookmark this article

Related Articles

Cited By...

No citing articles found.

Google Scholar

More in this TOC Section

Show more Articles

Similar Articles

Keywords