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Integrated Management of Diseases and Insect Pests of Tree Fruit [Kõva köide]

Contributions by (NIAB EMR (United Kingdom)), Contributions by (N), Edited by (NIAB), Contributions by (Shandong Agricultural University), Contributions by (Washington State University), Contributions by (Shandong Agricultural University), Contributions by (Washington State University), Contributions by , Contributions by (NIAB EMR (United Kingdom)), Contributions by (NIAB EMR (United Kingdom))
  • Formaat: Hardback, 748 pages, kõrgus x laius x paksus: 229x152x40 mm, kaal: 1164 g, Color tables, photos and figures
  • Sari: Burleigh Dodds Series in Agricultural Science 68
  • Ilmumisaeg: 10-Sep-2019
  • Kirjastus: Burleigh Dodds Science Publishing Limited
  • ISBN-10: 1786762560
  • ISBN-13: 9781786762566
Teised raamatud teemal:
Integrated Management of Diseases and Insect Pests of Tree FruitSuurem pilt
  • Formaat: Hardback, 748 pages, kõrgus x laius x paksus: 229x152x40 mm, kaal: 1164 g, Color tables, photos and figures
  • Sari: Burleigh Dodds Series in Agricultural Science 68
  • Ilmumisaeg: 10-Sep-2019
  • Kirjastus: Burleigh Dodds Science Publishing Limited
  • ISBN-10: 1786762560
  • ISBN-13: 9781786762566
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9781786762566.html
Märksõnad:
"In conclusion, this extremely comprehensive, accurate and useful volume of reviews in the Burleigh Dodds series is recommended as an important reference for professionals and students alike." ISHS - Chronica Horticulturae

This collection reviews advances in understanding and managing key diseases and insect pests of tree fruit.

Part 1 summarises current research on what causes key fungal diseases (apple scab, powdery mildew, apple canker and brown rot) as well as viral diseases (apple mosaic virus and plum pox). Building on this foundation, Part 2 discusses integrated fruit disease management techniques such as improved surveillance, breeding disease-resistant varieties, improved fungicide application as well as the use of biocontrol agents.

The second half of the book focuses on the ecology of major insect pests (aphids, tortricid moths, mites and spotted wing drosophila). The final part of the book reviews ways of improving integrated pest management (IPM) techniques for tree fruit, from monitoring and forecasting to agronomic practices to methods of biological control and optimisation of insecticide use.

With its distinguished editors and expert team of chapter authors, this will be a standard reference on understanding and managing key diseases and insect pests of tree fruit.

Arvustused

"In conclusion, this extremely comprehensive, accurate and useful volume of reviews in the Burleigh Dodds series is recommended as an important reference for professionals and students alike." ISHS - Chronica Horticulturae

Series list xiii
Introduction xviii
Part 1 Fruit diseases
1 Epidemiology and management of apple scab
3(18)
Tom Passey
Xiangming Xu
1 Introduction
3(2)
2 Apple scab epidemiology
5(2)
3 Host resistance
7(1)
4 Managing scab
8(5)
5 Future trends
13(1)
6 Where to look for further information
14(1)
7 References
14(7)
2 Powdery mildew: biology, epidemiology, and management of Podosphaera spp. of tree fruit
21(18)
A. Amiri
L. Garion
1 Introduction
21(1)
2 Hosts and speciation
22(1)
3 Life cycle and epidemiology
23(3)
4 Cultivar susceptibility and host-pathogen interactions
26(3)
5 Conventional and organic control
29(3)
6 Future trends and conclusion
32(1)
7 Where to look for further information
33(1)
8 References
33(6)
3 Apple replant disease: causes and management
39(20)
Zhiquan Mao
Yanfang Wang
1 Introduction
39(1)
2 Causes of ARD
40(3)
3 Management of ARD
43(4)
4 Problems to be resolved
47(1)
5 Future trends and conclusion
48(1)
6 Acknowledgements
49(1)
7 Where to look for further information
49(1)
8 References
49(10)
4 Fungal diseases of fruit: apple cankers in Europe
59(26)
Robert Saville
Leone Olivieri
1 Introduction
59(3)
2 Apple growing
62(1)
3 Description of symptoms
63(2)
4 Epidemiology
65(5)
5 Identifying host resistance and pathogen virulence factors
70(1)
6 Integrated canker control
71(4)
7 Future trends
75(2)
8 References
77(8)
5 Fungal diseases of fruit: apple canker in Asia
85(18)
Baohua Li
1 Introduction
85(1)
2 The pathogen
86(2)
3 Biology of V. mali
88(2)
4 Epidemiology of apple valsa canker
90(3)
5 Infection process of V. mali
93(2)
6 Pathogenesis of V. mali
95(1)
7 Resistance to V. mali
96(1)
8 Control strategies against apple valsa canker
97(2)
9 Conclusion
99(1)
10 Where to look for further information
99(1)
11 References
100(3)
6 Brown rot: causes, detection and control of Monilinia spp. affecting tree fruit
103(48)
Imre Holb
1 Introduction
103(1)
2 Yield loss and impact on crops
103(1)
3 Causal organisms of brown rot
104(1)
4 Major fruit hosts and host resistance to brown rot
105(4)
5 Symptoms
109(4)
6 Identification and detection
113(2)
7 Disease cycle and epidemiology
115(5)
8 Disease warning for brown rot
120(1)
9 Implications for prevention and brown rot management
121(13)
10 Conclusion and future trends
134(1)
11 Acknowledgements
135(1)
12 Where to look for further information
135(1)
13 References
135(16)
7 Apple mosaic virus: biology, epidemiology and detection
151(28)
Karel Petrzik
1 Introduction
151(2)
2 Feature of the genome
153(6)
3 Host range of ApMV
159(2)
4 Symptoms
161(3)
5 Transmission and vectors
164(1)
6 Epidemiology and geographical distribution
165(2)
7 Economic impact
167(1)
8 Curation
168(1)
9 Detection techniques
169(3)
10 Summary and future trends
172(1)
11 Where to look for further information
173(1)
12 References
173(6)
8 Plum pox virus: detection and management
179(22)
Manuel Rubio
Federico Dicenta
Pedro Martinez-Gomez
1 Introduction
179(1)
2 Case study: the Plum pox virus
180(3)
3 PPV detection
183(2)
4 Sharka symptoms and transmission
185(2)
5 Sharka orchard management
187(1)
6 PPV control for sustainable cultivation
188(2)
7 Genetic and molecular basis of PPV resistance in Prunus
190(3)
8 Future trends and conclusion
193(1)
9 Acknowledgements
194(1)
10 Where to look for further information
194(1)
11 References
194(7)
Part 2 Integrated fruit disease management
9 Disease monitoring and decision making in integrated fruit disease management
201(32)
Angela Berrie
1 Introduction
201(1)
2 General considerations
202(7)
3 Apple disease examples
209(21)
4 Conclusion and future trends
230(1)
5 Where to look for further information
231(1)
6 References
231(2)
10 Breeding fruit cultivars with durable disease resistance
233(42)
Vincent G.M. Bus
Joanna K. Bowen
Andrea Patocchi
A.L. Broggini
Satish Kumar
Francois N.D. Laurens
1 Introduction
233(2)
2 Pathways to durable resistance
235(10)
3 Resistance breeding targets
245(2)
4 Application of breeding tools
247(8)
5 Conclusion and future trends
255(1)
6 Where to look for further information
256(1)
7 References
256(19)
11 Improving plant propagation methods for fruit disease control
275(14)
Ioannis Tzanetaki
Robert Martin
1 Introduction
275(1)
2 Steps taken to improve propagation material
276(5)
3 Case studies
281(2)
4 Summary
283(1)
5 Future trends
283(1)
6 Where to look for further information
284(1)
7 References
285(4)
12 Improving fungicide use in integrated fruit disease management
289(22)
Mengjun Hu
1 Introduction
289(2)
2 Evolution of fungicide resistance
291(2)
3 Monitoring of fungicide resistance
293(5)
4 Importance of species identification
298(2)
5 Adoption of decision-support tools to improve fungicide efficacy
300(3)
6 Future trends and conclusion
303(2)
7 Where to look for further information
305(1)
8 References
305(6)
13 Use of biocontrol agents in fruit tree disease management
311(26)
Jurgen Kohl
1 Introduction
311(3)
2 Case study: strategies for biocontrol of apple scab - Venturia inaequalis
314(4)
3 Biocontrol of fruit tree diseases: current status
318(8)
4 Use of biocontrol in orchards
326(2)
5 Future trends
328(1)
6 Where to look for further information
329(1)
7 References
330(7)
14 New techniques for managing post-harvest diseases of fruit: physical, chemical and biological agents
337(16)
Simona Marianna Sanzani
Antonio Ippolito
1 Introduction
337(1)
2 Physical agents
338(2)
3 Chemical agents
340(2)
4 Biological agents
342(3)
5 Conclusions
345(1)
6 Where to look for further information
345(1)
7 References
346(7)
Part 3 Insect pests of fruit
15 Insect pests of fruits: aphids
353(24)
Giuseppe E. Massimino Cocuzza
1 Introduction
353(1)
2 Citrus aphids
354(4)
3 Apple and pear aphids
358(2)
4 Stone fruit aphids
360(3)
5 Control of aphid pests
363(3)
6 Future trends and conclusion
366(2)
7 Where to look for further information
368(1)
8 References
368(9)
16 Integrated management of tortricid pests of tree fruit
377(48)
Alan L. Knight
Gary J.R. Judd
Todd Gilligan
William B. Walker III
1 Introduction
377(2)
2 Tortricid systematics and general biology
379(1)
3 Key species, distribution and dispersal mechanisms
380(2)
4 Insecticide programmes
382(2)
5 Insecticide use in organic tree fruit production
384(3)
6 Physical crop protection
387(1)
7 Biological control
388(2)
8 Mating disruption
390(1)
9 Precision pest management
390(2)
10 Area-wide IPM
392(3)
11 Post-harvest management
395(1)
12 Molecular tools
396(2)
13 Future trends and conclusion
398(1)
14 Where to look for further information
398(1)
15 References
399(26)
17 Integrated management of mite pests of tree fruit
425(28)
Rebecca A. Schmidt-Jeffris
Elizabeth H. Beers
Carlo Duso
1 Introduction
425(5)
2 Cultural control
430(2)
3 Biological control
432(5)
4 Chemical control
437(4)
5 Conclusion
441(1)
6 Where to look for further information
441(1)
7 References
442(11)
18 Integrated management of tree fruit insect pests: Drosophila suzukii (Spotted Wing Drosophila)
453(46)
Neil Audsley,
Lorenzo Tonina
Nicola Mori
1 Introduction
453(2)
2 Impact on crops
455(3)
3 Biology and ecology
458(9)
4 Host range and host susceptibility
467(1)
5 Detection
468(2)
6 Chemical, physical and cultural management and control strategies
470(4)
7 Biological control strategies
474(7)
8 Conclusion
481(2)
9 References
483(16)
Part 4 Integrated management of fruit insect pests
19 Cultural control of arthropod pests in temperate tree fruit
499(28)
Matthew J. Grieshop
1 Introduction
499(2)
2 Modification of trees
501(1)
3 Host-plant resistance
501(3)
4 Tree nutrient status
504(1)
5 Tree architecture
505(1)
6 Orchard floor management
506(1)
7 Cultivation
506(2)
8 Mowing
508(1)
9 Orchard cover crops
508(1)
10 Protected culture and physical exclusion
509(1)
11 Sanitation
510(1)
12 Case study: integration of rotational hog grazing and apple production
511(4)
13 Future trends and conclusion
515(2)
14 Where to look for further information
517(1)
15 References
517(10)
20 Improving monitoring and forecasting in integrated management of fruit arthropod pests
527(44)
Tim Belien
Slawomir Lux
Bart De Ketelaere
Dany Bylemans
1 Introduction
527(1)
2 Manual monitoring techniques and economic thresholds
528(8)
3 Automatic monitoring of pests
536(8)
4 Modelling of pest populations to support pest management
544(11)
5 Conclusion and future trends
555(1)
6 Where to look for further information
555(2)
7 References
557(14)
21 Biological control in integrated management of deciduous fruit insect pests: the use of semiochemicals
571(92)
Larry Gut
Christopher Adams
James Miller
Peter McGhee
Donald Thomson
1 Introduction
571(3)
2 Pheromone-mediated mating disruption
574(36)
3 Mass deployment of attractant-baited traps
610(4)
4 Application of attract-and-kill formulations or devices
614(16)
5 Case study: CMMD
630(10)
6 Summary
640(1)
7 Where to look for further information
641(1)
8 References
642(21)
22 Optimizing insecticide use in integrated management of fruit insect pests
663(46)
Claudio Ioriatti
Gino Angeli
Fondazione Edmund Mach
Greg Krawczyk
Carlo Duso
1 Introduction
663(3)
2 Optimizing insecticide use in IPM
666(7)
3 Case study 1: woolly apple aphid
673(7)
4 Case study 2: pear psylla
680(6)
5 Case study 3: European red spider mite
686(3)
6 Future trends and conclusion
689(2)
7 Where to look for further information
691(1)
8 References
692(17)
Index 709
Professor Xiangming Xu is Head of the Department of Pest and Pathogen Ecology at the world-famous NIAB EMR (East Malling Research). Founded over 100 years ago, East Malling has long been a global pioneer in horticultural research. Professor Xu has a global reputation in plant disease epidemiology and management, especially fruit fungal diseases.

Dr Michelle Fountain is Head of Pest and Pathogen Ecology at the world-famous NIAB East Malling (formerly East Malling Research), UK. She is internationally renowned for her research on integrated insect pest management (IPM) and insect pollination in fruit horticulture. Dr Fountain is co-editor of Integrated management of diseases and pests of tree fruit, published by Burleigh Dodds Science Publishing in 2019.

Dr Jürgen Köhl is a Senior Scientist in Plant Pathology at Wageningen University & Research, The Netherlands with an international reputation in biological control of plant diseases. He is Convenor of the Working Group on Biological and Integrated Control of Plant Pathogens at the International Organization for Biological and Integrated Control (IOBC-wprs).