Auswahl der wissenschaftlichen Literatur zum Thema „Fruit Diseases and pests Integrated control Australia“
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Zeitschriftenartikel zum Thema "Fruit Diseases and pests Integrated control Australia":
Boston, William, Diana Leemon und John Paul Cunningham. „Virulence Screen of Beauveria Bassiana Isolates for Australian Carpophilus (Coleoptera: Nitidulidae) Beetle Biocontrol“. Agronomy 10, Nr. 8 (17.08.2020): 1207. http://dx.doi.org/10.3390/agronomy10081207.
Rodríguez-García, Miguel Ángel, Francisco García-Sánchez und Rafael Valencia-García. „Knowledge-Based System for Crop Pests and Diseases Recognition“. Electronics 10, Nr. 8 (10.04.2021): 905. http://dx.doi.org/10.3390/electronics10080905.
Chen, Liming, Heping Zhu, Leona Horst, Matthew Wallhead, Michael Reding und Amy Fulcher. „Management of Pest Insects and Plant Diseases in Fruit and Nursery Production with Laser-guided Variable-rate Sprayers“. HortScience 56, Nr. 1 (Januar 2021): 94–100. http://dx.doi.org/10.21273/hortsci15491-20.
Brown, Gerald, Ricardo Bessin, John Hartman, Dwight Wolfe und John Strang. „COMPARISON OF INTEGRATED CROP MANAGEMENT AND A SCHEDULED PREVENTATIVE PEST CONTROL PROGRAM IN A COMMERCIAL APPLE ORCHARD“. HortScience 27, Nr. 11 (November 1992): 1169b—1169. http://dx.doi.org/10.21273/hortsci.27.11.1169b.
González-Núñez, Manuel, Pilar Sandín-España, Miguelina Mateos-Miranda, Guillermo Cobos, Antonieta De Cal, Ismael Sánchez-Ramos, Jose-Luis Alonso-Prados und Inmaculada Larena. „Development of a Disease and Pest Management Program to Reduce the Use of Pesticides in Sweet-Cherry Orchards“. Agronomy 12, Nr. 9 (23.08.2022): 1986. http://dx.doi.org/10.3390/agronomy12091986.
Wicks, TJ, und AR Granger. „Effects of low rates of pesticides on the control of pests and diseases of apples“. Australian Journal of Experimental Agriculture 29, Nr. 3 (1989): 439. http://dx.doi.org/10.1071/ea9890439.
James, David G. „The development of suppression tactics for Biprorulus bibax (Heteroptera: Pentatomidae) as Part of an integrated pest management programme in citrus in inland South-eastern Australia“. Bulletin of Entomological Research 84, Nr. 1 (März 1994): 31–37. http://dx.doi.org/10.1017/s0007485300032193.
Miyinzi Mwungu, Chris, Beatrice Muriithi, Vincent Ngeno, Hippolyte Affognon, Caroline Githiomi, Gracious Diiro und Sunday Ekesi. „Health and environmental effects of adopting an integrated fruit fly management strategy among mango farmers in Kenya“. African Journal of Agricultural and Resource Economics 15, Nr. 1 (30.03.2020): 14–26. http://dx.doi.org/10.53936/afjare.2020.15(1).02.
Emery, David Lyall. „Approaches to Integrated Parasite Management (IPM) for Theileria orientalis with an Emphasis on Immunity“. Pathogens 10, Nr. 9 (07.09.2021): 1153. http://dx.doi.org/10.3390/pathogens10091153.
Palou, Lluís, Silvia Valencia-Chamorro und María Pérez-Gago. „Antifungal Edible Coatings for Fresh Citrus Fruit: A Review“. Coatings 5, Nr. 4 (04.12.2015): 962–86. http://dx.doi.org/10.3390/coatings5040962.
Dissertationen zum Thema "Fruit Diseases and pests Integrated control Australia":
Ferguson, Kaye. „The biology, ecology and management of the Quandong moth, Paraepermenia santaliella (Lepidoptera: Epermeniidae)“. Title page, contents and summary only, 2001. http://web4.library.adelaide.edu.au/theses/09PH/09phf3523.pdf.
Mudavanhu, Pride. „An investigation into the integrated pest management of the obscure mealybug, Pseudococcus viburni (Signoret) (Hemiptera: Pseudococcidae), in pome fruit orchards in the Western Cape Province, South Africa“. Thesis, Stellenbosch : University of Stellenbosch, 2009. http://hdl.handle.net/10019.1/2620.
ENGLISH ABSTRACT: Pseudococcus viburni (Signoret) (Hemiptera: Pseudococcidae) (obscure mealybug), is a common and serious pest of apples and pears in South Africa. Consumer and regulatory pressure to produce commodities under sustainable and ecologically compatible conditions has rendered chemical control options increasingly limited. Information on the seasonal occurrence of pests is but one of the vital components of an effective and sustainable integrated pest management system needed for planning the initiation of monitoring and determining when damage can be expected. It is also important to identify which orchards are at risk of developing mealybug infestations while development of effective and early monitoring tools for mealybug populations will help growers in making decisions with regards to pest management and crop suitability for various markets. It is also essential to determine the presence and efficacy of naturally occurring biological control agents in orchards so as to ascertain the potential of biological control as a viable alternative in orchards. However, under the current integrated pest management protocol, it has been difficult to determine this, due to the sporadic and relatively low incidence of mealybug infestations in some orchards, or by simply relying on naturally occurring field populations of biocontrol agents. Knowledge of the environmental conditions under which P. viburni population levels may become destructive is also essential for timing the release of insectary reared natural enemies as well as understanding the population ecology of this pest and its natural enemies. Information was gathered regarding the seasonal phenology of P. viburni and its natural enemies in pome fruit orchards in the Western Cape Province during the 2007/08 and 2008/09 growing seasons. Seasonal population studies showed that P. viburni has multiple overlapping generations with all life stages present throughout the year. The highest orchard infestations occurred during the summer period until early winter (January to early June). This was followed by a decrease in population from late June to November, before another increase in December. Presence-absence sampling of mealybugs on the host plant revealed that woody parts of the tree, such as the trunk and old stems were the most preferred sites for mealybug habitation, due to the availability of protected refuge sites. Migration of mealybug populations to newer growth and the upper sections of the tree crown, such as the new stems, leaves and eventually the fruit, was observed from December throughout the summer period until the early winter in June. Fruit colonization in both apples and pears commenced in January, when the fruit had developed a size sufficient for P. viburni to penetrate and occupy spaces such as the fruit core, calyx and stem end. There was no evidence of P. viburni occurring beneath the soil surface or on the roots of host trees. Two natural enemies of mealybugs, namely Pseudaphycus maculipennis (Mercet) and Coccidoxenoides perminutus (Girault), were found to be active in apple and pear orchards in the Western Cape. However, the status of C. perminutus as a parasite of P. viburni still needs to be verified despite evidence of emergence from P. viburni mummies, which was not sufficient enough to suggest that it is a useful biological control agent. Seasonal abundance trends of the two natural enemies revealed that their lifecycle is synchronized with that of the host. However, there was no evidence of P. maculipennis activity in Ceres. No predators were found during the course of this study. The rate of P. viburni parasitism at harvest was 46.52%, with P. maculipennis and C. perminutus constituting 98.966% and 1.034% of the parasitoids recovered from mealybug mummies, respectively. Studies on the use of pheromone traps as early monitoring tools for P. viburni showed that there was a positive and significant relationship between the fruit infestation and number of P. viburni adult males caught in pheromone-baited traps (r2 = 0.454). The action threshold level was estimated to be 2.5 male P. viburni caught per trap per fortnight at an economic threshold of 2% fruit infestation.
AFRIKAANSE OPSOMMING: Pseudococcus viburni (Signoret) (Hemiptera: Pseudococcidae) (ligrooswitluis), is ‘n algemene en ernstige plaag van appels en pere in Suid-Afrika. Druk deur verbruikers en regulasies om kommoditeite onder volhoubare en ekologies verenigbare toestande te produseer het chemiese beheeropsies toenemend beperk. Inligting oor die seisoenale voorkoms van plae is een van die essensiële komponente van ‘n effektiewe en volhoubare geïntegreerde plaagbestuurprogram. Dit is in die aanvanklike beplanning van monitering en om te bepaal wanneer skade verwag kan word. Dit is ook belangrik om boorde vroegtydig te identifiseer wat die risiko het om witluisbesmettings te ontwikkel. Die ontwikkeling van effektiewe en vroeë moniteringstegnieke vir witluisbevolkings sal produsente help met besluitneming rakende plaagbestuur en die geskiktheid van gewasse vir verskeie markte. Dit is ook noodsaaklik om die teenwoordigheid en effektiwiteit van biologiese beheer agente wat natuurlik in boorde voorkom te bepaal ten einde die potensiaal van biologiese beheer as ‘n lewensvatbare alternatief vas te stel. Onder die huidige geïntegreerde plaagbestuurprotokol was dit egter moeilik om laasgenoemde te bepaal weens die sporadiese en relatiewe lae voorkoms van witluisbesmettings in sommige boorde of deur bloot staat te maak op die veldpopulasies van biologiese beheer agente wat natuurlik voorkom. Kennis van die omgewingstoestande waaronder P. viburni bevolkingsvlakke skadelik raak is ook noodsaaklik vir die beplanning van vrylating van biologiese beheer agente, asook om die bevolkingsekologie van hierdie plaag en sy natuurlike vyande te verstaan. Inligting oor die seisoenale fenologie van P. viburni en sy natuurlike vyande in sagtevrugte boorde in die Westelike Kaapprovinsie is gedurende die 2007/08 en 2008/09 groeiseisoene versamel. Seisoenale bevolkingstudies het getoon dat P. viburni verskeie oorvleuelende generasies het met alle stadia teenwoordig regdeur die jaar.
Ghiotto, Thaís Carneiro. „Dinâmica populacional de Megastigmus transvaalensis (Hymenoptera Torymidae) em Schinus terebinthifolius na região de Sorocaba, Brasil“. Universidade Federal de São Carlos, 2016. https://repositorio.ufscar.br/handle/ufscar/8938.
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Megastigmus transvaalensis is an exotic wasp that attacks Brazilian pepper tree drupes Schinus terebinthifolius in native forests and areas of restoration and ecological restoration in Brazil. The parasitism begins with the oviposition M. transvaalensis in drupes S. terebinthifolius where the larvae hatch and remain internally feeding of nutrients and tissue, affecting germination. The aim of this work was to study the effect of temperature, rainfall and humidity in the population dynamics of M. transvaalensis and determine the parasitism rate and sex ratio of this wasp in drupes S. terebinthifolius. The study was performed with yellow sticky traps and collection of S. terebinthifolius drupes in seasonal semideciduous forest during August 2014 to September 2015, in the region of Sorocaba, São Paulo, Brazil. The capture of insects through the sticky traps proved satisfactory, and thus can be applied to the monitoring of small Hymenopteros. Populations of M. transvaalensis were negatively correlated with the maximum temperature and population peak in the fall of 2015, meaning that when the maximum temperature has reduced, there is a higher incidence of insect field. The parasitism rate of S. terebinthifolius drupes ranged from zero to 36.34% during this period, making this value an aggravating factor for the emergence of new individuals, since this phytophagous wasp has the potential to be spread throughout Brazil and It poses a threat to the natural regeneration of S. terebinthifolius. The sex ratio of M. transvaalensis was 0.42 and 0.08 in the laboratory field. The bio-ecology and the damage caused by M. transvaalensis in drupes S. terebinthifolius warrant further studies to integrated management
Megastigmus transvaalensis é uma vespa exótica que ataca drupas de aroeira-pimenteira Schinus terebinthifolius em florestas nativas e em áreas de recomposição e restauração ecológica no Brasil. O parasitismo inicia com a oviposição de M. transvaalensis nas drupas de S. terebinthifolius, onde as larvas internamente eclodem e permanecem alimentando-se dos nutrientes e tecidos, prejudicando a germinação. O objetivo desse trabalho foi estudar o efeito da temperatura, precipitação e umidade na flutuação populacional de M. transvaalensis e determinar o índice de parasitismo e razão sexual dessa vespa nas drupas de S. terebinthifolius. O estudo foi realizado com armadilhas adesivas amarelas e coleta de drupas de S. terebinthifolius em fragmento de floresta estacional semidecidual, durante agosto de 2014 a setembro de 2015, na região de Sorocaba, São Paulo, Brasil. A captura dos insetos através das armadilhas adesivas se mostrou satisfatória, podendo assim ser aplicada para o monitoramento de pequenos Hymenopteros. As populações de M. transvaalensis apresentaram correlação negativa com a temperatura máxima e pico populacional no outono de 2015, significando que, quando a temperatura máxima apresenta redução, há maior incidência do inseto em campo. O índice de parasitismo das drupas de S. terebinthifolius variou de zero a 36,34% no período avaliado, tornando este valor um agravante para o surgimento de novos indivíduos, uma vez que, essa vespa fitófaga tem potencial de ser disseminado por todo Brasil e representa ameaça para a regeneração natural de S. terebinthifolius. A razão sexual de M. transvaalensis foi de 0,42 no laboratório e 0,08 em campo. A bioecologia e os danos causados por M. transvaalensis em drupas de S. terebinthifolius justificam mais estudos visando o manejo integrado dessa vespa fitófaga.
Ferguson, Kaye. „The biology, ecology and management of the Quandong moth, Paraepermenia santaliella (Lepidoptera: Epermeniidae) / by Kaye Louisa Ferguson“. Thesis, 2001. http://hdl.handle.net/2440/21957.
230 leaves : ill. (some col.) ; 30 cm.
Details the biology and life history of the Quandong moth and investigates management strategies that would enable growers to manage the pest in an economically and environmentally sustainable program.
Thesis (Ph.D.)--University of Adelaide, Dept. of Applied and Molecular Ecology, 2001
Marte, Susan Plantier, University of Western Sydney, College of Health and Science und Centre for Plant and Food Science. „Fruit-tree borer (Maroga melanostigma) : investigations on its biological control in prune trees“. 2007. http://handle.uws.edu.au:8081/1959.7/31976.
Master of Science (Hons)
Bücher zum Thema "Fruit Diseases and pests Integrated control Australia":
Martin, Aluja, Leskey Tracy C und Vincent Charles 1953-, Hrsg. Biorational tree fruit pest management. Cambridge, MA: CABI North American Office, 2009.
Ciancio, A. Integrated Management of Fruit Crops Nematodes. Dordrecht: Springer Netherlands, 2009.
Symposium on Fruit Production in the Mekong Delta Focussing on Integrated Pest Management (1st 1998 Cantho, Vietnam). Proceedings of the First Symposium on Fruit Production in the Mekong Delta Focussing on Integrated Pest Management: Cantho, Vietnam, 25th February 1998. Herausgegeben von Mele Paul van, Nguyen Van Huynh, Trường đại học Cà̂n Thơ. Dept. of Plant Protection., Katholieke Universiteit te Leuven (1970- ) Laboratory of Phytopathology and Plant Protection. und Vietnamese-Belgian IPM in Fruit Production Project. [Cantho, Vietnam]: Vietnamese-Belgian IPM in Fruit Production Project, 1998.
Galli, Peter. Integrierter Pflanzenschutz im Apfelanbau von Baden-Württemberg: Ausbildung, Beratung und Versuche im Rahmen eines Modellvorhabens zur Einführung des integrierten Verfahrens in den Erwerbsobstbau. Münster-Hiltrup: Landwirtschaftsverlag, 1985.
Fernandez-Cornejo, Jorge. Pest management in U.S. agriculture. Washington, DC: U.S. Dept. of Agriculture, Economic Research Service, 1999.
Fernandez-Cornejo, Jorge. Pest management in U.S. agriculture. Washington, DC: U.S. Dept. of Agriculture, Economic Research Service, 1999.
Fernandez-Cornejo, Jorge. Pest management in U.S. agriculture. Washington, DC: U.S. Dept. of Agriculture, Economic Research Service, 1999.
Fernandez-Cornejo, Jorge. Pest management in U.S. agriculture. Washington, DC: U.S. Dept. of Agriculture, Economic Research Service, 1999.
Fernandez-Cornejo, Jorge. Pest management in U.S. agriculture. Washington, DC: U.S. Dept. of Agriculture, Economic Research Service, 1999.
Fernandez-Cornejo, Jorge. Pest management in U.S. agriculture. Washington, DC: U.S. Dept. of Agriculture, Economic Research Service, 1999.
Buchteile zum Thema "Fruit Diseases and pests Integrated control Australia":
Grieshop, Matthew J. „Cultural control of arthropod pests in temperate tree fruit“. In Integrated management of diseases and insect pests of tree fruit, 499–526. Burleigh Dodds Science Publishing, 2019. http://dx.doi.org/10.19103/as.2019.0046.24.
Tzanetakis, Ioannis, und Robert Martin. „Improving plant propagation methods for fruit disease control“. In Integrated management of diseases and insect pests of tree fruit, 275–88. Burleigh Dodds Science Publishing, 2019. http://dx.doi.org/10.19103/as.2019.0046.13.
Holb, Imre. „Brown rot: causes, detection and control of Monilinia spp. affecting tree fruit“. In Integrated management of diseases and insect pests of tree fruit, 103–50. Burleigh Dodds Science Publishing, 2019. http://dx.doi.org/10.19103/as.2019.0046.06.
Gut, Larry, Christopher Adams, James Miller, Peter McGhee und Donald Thomson. „Biological control in integrated management of deciduous fruit insect pests: the use of semiochemicals“. In Integrated management of diseases and insect pests of tree fruit, 571–662. Burleigh Dodds Science Publishing, 2019. http://dx.doi.org/10.19103/as.2019.0046.27.