Global advances on insect pest management research in oil palm
Publikation: Bidrag til tidsskrift › Review › Forskning › fagfællebedømt
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Global advances on insect pest management research in oil palm. / Egonyu, James; Baguma, John; Martínez, Luis C; Priwiratama, Hari; Subramanian, Sevgan; Tanga, Chrysantus M; Anankware, Jacob P; Roos, Nanna; Niassy, Saliou.
I: Sustainability, Bind 14, Nr. 23, 16288, 2022.Publikation: Bidrag til tidsskrift › Review › Forskning › fagfællebedømt
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TY - JOUR
T1 - Global advances on insect pest management research in oil palm
AU - Egonyu, James
AU - Baguma, John
AU - Martínez, Luis C
AU - Priwiratama, Hari
AU - Subramanian, Sevgan
AU - Tanga, Chrysantus M
AU - Anankware, Jacob P
AU - Roos, Nanna
AU - Niassy, Saliou
N1 - CURIS 2022 NEXS 295
PY - 2022
Y1 - 2022
N2 - Here, we review the advances in research on management of key oil palm insect pests globally, including defoliators, leaf/fruit scrapers, borers and sap feeders. The common oil palm pest management methods include synthetic insecticides, biopesticides, semiochemical lures, cultural practices, and integrated approaches. However, effectiveness, affordability, availability and impact ofthese methods on human and environmental health vary considerably based on the target insect and geographical location. The use of quarantine regulations to prevent the spread of invasive pests has also been applied with remarkable results. There are notable research advances in semiochemicals, bioacoustic detectors, nanotechnology, insect growth regulators, and entomophagy for better management of oil palm pests. We suggest the following research areas for improving effectiveness of oil palm pest management interventions: (i) exploration of semiochemical attractants for the majority of pests with no previous semiochemical work, and their integration in attract-and-kill devices laced with pathogenic microbes; (ii) expanding the application of digital sensing, predictive modeling and nano-technology in pest control strategies; (iii) developing effective technologies for mass trapping of edible insect pests for food or feed, especially among communities with a tradition of entomophagy;and (iv) strengthening regulatory frameworks for the management of quarantine oil palm insect pests.
AB - Here, we review the advances in research on management of key oil palm insect pests globally, including defoliators, leaf/fruit scrapers, borers and sap feeders. The common oil palm pest management methods include synthetic insecticides, biopesticides, semiochemical lures, cultural practices, and integrated approaches. However, effectiveness, affordability, availability and impact ofthese methods on human and environmental health vary considerably based on the target insect and geographical location. The use of quarantine regulations to prevent the spread of invasive pests has also been applied with remarkable results. There are notable research advances in semiochemicals, bioacoustic detectors, nanotechnology, insect growth regulators, and entomophagy for better management of oil palm pests. We suggest the following research areas for improving effectiveness of oil palm pest management interventions: (i) exploration of semiochemical attractants for the majority of pests with no previous semiochemical work, and their integration in attract-and-kill devices laced with pathogenic microbes; (ii) expanding the application of digital sensing, predictive modeling and nano-technology in pest control strategies; (iii) developing effective technologies for mass trapping of edible insect pests for food or feed, especially among communities with a tradition of entomophagy;and (iv) strengthening regulatory frameworks for the management of quarantine oil palm insect pests.
KW - Faculty of Science
KW - Bioacoustic detectors
KW - Biological control
KW - Entomophagy
KW - Insect growth regulators
KW - Integrated pest management
KW - Nanotechnology
KW - Regulatory measures
KW - Semiochemical lures
KW - Synthetic insecticides
KW - Insect pest management
U2 - 10.3390/su142316288
DO - 10.3390/su142316288
M3 - Review
VL - 14
JO - Sustainability
JF - Sustainability
SN - 2071-1050
IS - 23
M1 - 16288
ER -
ID: 328686471