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Advances in Monitoring of Native and Invasive Insect Pests of Crops [Kietas viršelis]

Edited by , Contributions by (USDA-ARS), Contributions by (AFBI), Contributions by (North Carolina State University), Contributions by (Iowa State University), Contributions by (University of Minnesota), Contributions by (Iowa State University), Contributions by (University of Canberra (Australia)), Edited by (NIAB), Contributions by (USDA-ARS)
  • Formatas: Hardback, 394 pages, aukštis x plotis x storis: 229x152x22 mm, weight: 700 g, Color tables, photos and figures
  • Serija: Burleigh Dodds Series in Agricultural Science 128
  • Išleidimo metai: 25-Apr-2023
  • Leidėjas: Burleigh Dodds Science Publishing Limited
  • ISBN-10: 1801461074
  • ISBN-13: 9781801461078
Kitos knygos pagal šią temą:
Advances in Monitoring of Native and Invasive Insect Pests of CropsDidesnis paveikslėlis
  • Formatas: Hardback, 394 pages, aukštis x plotis x storis: 229x152x22 mm, weight: 700 g, Color tables, photos and figures
  • Serija: Burleigh Dodds Series in Agricultural Science 128
  • Išleidimo metai: 25-Apr-2023
  • Leidėjas: Burleigh Dodds Science Publishing Limited
  • ISBN-10: 1801461074
  • ISBN-13: 9781801461078
Kitos knygos pagal šią temą:
Pastovi nuoroda: https://www.kriso.lt/db/9781801461078.html
Raktažodžiai:
Early detection of insect pests is critical to successful integrated pest management (IPM) programmes. This collection reviews the wealth of research on improving monitoring techniques for the detection of both native and alien insect pests.

Insect pests remain a major threat to crop production primarily because of their ability to inflict severe damage on crop yields, as well as their role as key vectors of disease. Early identification of pests is critical to the success of integrated pest management (IPM) programmes and essential for the development of phytosanitary/quarantine regimes to prevent the introduction of invasive insect pests to new environments.

Advances in monitoring of native and invasive insect pests of crops reviews the wealth of research on techniques to monitor and thus prevent threats from both native and invasive insect pests. The book considers recent advances in areas such as sampling, identifying and modelling pest populations.

With its considered approach, the book explores current best practices for the detection, identification and modelling of native and invasive insect pests of crops. The contributors offer farmers informed advice on how to mitigate a growing problem which has been exacerbated as a result of climate change.

  • Highlights the relationship between climate change and the emergence of invasive insect crop pests
  • Considers the key challenges facing the identification of crop insect pests and the role of new, emerging technologies in improving the rate of detection (e.g. image-based, DNA barcoding)
  • Reviews the establishment of successful integrated pest management (IPM) programmes to control and/or eradicate the existence of invasive species
Series list x
Introduction xx
Part 1 Detection
1 Advances in techniques for trapping crop insect pests
3(44)
Archie K. Murchie
1 Introduction
3(1)
2 Basic trapping elements
4(1)
3 Making the trap attractive
5(3)
4 Common trap types for collecting pest insects
8(17)
5 Automated traps
25(4)
6 Conclusion
29(1)
7 Future trends in research
30(2)
8 Where to look for further information
32(1)
9 Acknowledgements
33(1)
10 References
33(14)
2 Advances and challenges in monitoring insect pests of major field crops in the United States
47(44)
Erin W. Hodgson
Ashley N. Dean
Anders Huseth
William D. Hutchison
1 Introduction
47(1)
2 Primary crops in the United States
48(1)
3 Corn (Zea mays L.)
49(12)
4 Soybean (Glycine max [ L.] Merr)
61(8)
5 Cotton {Gossypium spp. L.)
69(5)
6 Conclusion and future trends
74(1)
7 Where to look for further information
75(1)
8 References
76(15)
3 Quantifying captures from insect pest trap networks
91(26)
Nicholas C. Manoukis
1 Introduction
91(3)
2 TrapGrid and other models to analyze trap networks
94(6)
3 Applications
100(6)
4 Practicum
106(5)
5 Conclusion
111(1)
6 Where to look for further information
112(1)
7 Acknowledgements
112(1)
8 References
112(5)
4 Developments in crop insect pest detection techniques
117(30)
Richard W. Mankin
1 Introduction
117(6)
2 Camera systems for pest detection at micro-scale ranges
123(1)
3 Drone/camera systems for pest detection at meso-scale detection ranges
124(1)
4 Landsat systems for detection of pests at macro-scale detection ranges
125(1)
5 Sound-and vibration-sensors for pest detection
125(3)
6 Case studies: augmenting traditional pest detection and biological control with nano-scale- and micro-scale-sensor technologies
128(2)
7 Conclusion
130(1)
8 Future trends in research
131(2)
9 Where to look for further information
133(1)
10 References
133(14)
5 Monitoring airborne movement of crop insect pests and beneficials
147(50)
V. Alistair Drake
1 Introduction
147(3)
2 Trapping
150(4)
3 Visual observation
154(1)
4 Radar
155(7)
5 Optoelectronics
162(5)
6 Radiotelemetry and harmonic radar
167(3)
7 Case study: moths over a cotton crop
170(4)
8 Conclusion
174(3)
9 Where to look for further information
177(1)
10 Appendix: safety and regulatory issues
178(1)
11 Acknowledgements
178(1)
12 References
179(18)
Part 2 Identification, modelling and risk assessment
6 Advances in image-based identification and analysis of crop insect pests
197(18)
Daniel Guyer
Charles Whitfield
1 Introduction
197(2)
2 Challenges and solutions in automated image-based insect identification
199(3)
3 Understanding machine vision image-based insect identification
202(3)
4 Automated and semi-automated image-based insect identification technologies
205(1)
5 Commercially available systems
206(5)
6 Conclusion
211(1)
7 References
212(3)
7 Advances in insect pest monitoring using pest population growth and geospatial data for pest risk assessment
215(28)
Michael J. Brewer
Isaac L. Esquivel
John W. Gordy
1 Introduction
215(2)
2 Pest monitoring basics and economic threshold adjustments
217(6)
3 Geospatial data for pest risk assessment
223(12)
4 Conclusion and future trends in research
235(2)
5 Where to look for further information
237(1)
6 Acknowledgements
238(1)
7 References
238(5)
8 Advances in pest risk assessment techniques focusing on invertebrate pests of European outdoor crops
243(24)
Mark W. Ramsden
Samuel Telling
Daniel J. Leybourne
Natasha Alonso
Sacha White
Nikos Georgantzis
1 Introduction
243(2)
2 Assessing the likelihood of pest infestations
245(5)
3 Assessing the hazard of pest infestations
250(2)
4 Reducing risk
252(1)
5 Risk versus the perception of risk
253(1)
6 Summary steps to pest risk assessment
254(1)
7 Worked example: risk assessment of barley yellow dwarf virus in winter wheat
255(2)
8 Conclusion
257(1)
9 Future trends in research
258(1)
10 Whereto look for further information
258(1)
11 Acknowledgements
259(1)
12 References
259(8)
Part 3 Invasive species
9 Assessing the potential economic impact of invasive plant pests
267(26)
Monique Mourits
Alfons Oude Lansink
1 Introduction
267(1)
2 Methods to assess the potential economic impact of invasive plant pests
268(7)
3 Selection of appropriate level of complexity
275(4)
4 Economic analyses to support pest risk management
279(1)
5 Case studies: pine wood nematode (8. xylophilus) and X. fastidiosa
280(8)
6 Conclusion and future trends
288(1)
7 Where to look for further information
289(1)
8 References
290(3)
10 Developing effective phytosanitary measures to prevent the introduction of invasive insect pests
293(32)
Alan MacLeod
Dominic Eyre
1 Introduction
293(1)
2 International agreements and trade intervention
294(3)
3 What are phytosanitary measures?
297(1)
4 Phytosanitary measures within the framework of pest risk analysis
298(1)
5 Examples of phytosanitary measures
299(8)
6 Case study: strengthening phytosanitary measures against Bemisia tabaci and Liriomyza huidobrensis in the UK
307(2)
7 Case study: EU measures against Anoplophora chinensis
309(2)
8 Combining measures: the systems approach
311(2)
9 Challenges
313(3)
10 Conclusion
316(1)
11 Where to look for further information
317(1)
12 References
318(7)
11 Mitigating invasive insect species: eradication, long-term management, and the importance of sampling and monitoring
325(40)
Amy Morey
Robert Venette
1 Introduction
325(3)
2 Overview of invasive species management
328(2)
3 Eradication of invasive insects
330(10)
4 Long-term management of invasive insects
340(6)
5 Conclusion
346(1)
6 Future trends
347(1)
7 Acknowledgements
348(1)
8 Where to look for further information
348(2)
9 References
350(15)
Index 365
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 Tom Pope is Reader in Entomology and Integrated Pest Management at Harper Adams University, a leading agricultural university in the UK. A fellow of the Royal Entomological Society, Dr Pope is a globally recognised expert in tracking and understanding the behaviour of insect and other pests as well as in the design and implementation of IPM programmes. Dr. William (Bill) Hutchison is a Professor and Extension Entomologist at the University of Minnesota, St. Paul, USA. His expertise is applied insect population ecology, as it relates to the development of innovative Integrated Pest Management (IPM) programs for a variety of fruit and vegetable crops. He has also been active in evaluating the long-term sustainability of insect-resistant, genetically engineered (GE) maize, and implementing GE crops into IPM programs. He is also active in international IPM research, with a current US-AID project in East Africa. Dr Alistair Drake is a retired entomologist who holds honorary positions with The University of New South Wales and the Institute for Applied Ecology at the University of Canberra. His research interests include the development of radar techniques for insect observation, their application to pest forecasting, aeroecology (especially of insects), and more general aspects of animal migration and applied ecology. He has co-authored a monograph on radar entomology and co-edited a multiauthor book on insect migration. Dr Alan MacLeod works in the United Kingdom for the Department for Environment, Food and Rural Affairs. Alan was chair of the International Advisory Group on Pest Risk Analysis, providing technical support to the International Plant Protection Convention and has a strong interest in PRA training and has worked with the IPPC and international colleagues to deliver PRA training to support countries in Asia and Africa. Alan has published over 100 scientific papers and guest edited journal special issues focussed on plant health and biosecurity.