Band movement and thermoregulation in Schistocerca cancellata

Band movement and thermoregulation in Schistocerca cancellata

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At high density, juvenile locusts create marching hopper bands. Understanding the roles of temperature and vegetation on the movement of these bands shall allow to better forecast and control them. Following a hopper band in North Argentina in November 2019, we explored the thermoregulation behaviours of the South American locust, Schistocerca cancellata. Gut-content samples informed about the feeding status at different time of the day. Hoppers’ body temperature was above cold air temperature in the mornings during basking and group-basking activities and before the onset of marching behaviour. Marching by walking or hopping was dominant at body temperatures close to 40 ◦C. Jumping, stilting, shading and perching on plants were seen as thermoregulatory behaviours to avoid ground temperatures above 50 ◦C. Feeding was observed throughout the day with continuous high gut contents despite an intermittent pattern of feeding-resting-marching. Speed and daily travelled distance of the front of the hopper band was depending on the type of encountered vegetation. Daily behavioural patterns, thermoregulatory behaviours, walking speed and daily travelled distances of S. cancellata were similar to the ones observed for the Desert locust, S. gregaria, in Africa. High air temperatures recorded during the observation times could explain the continuous feeding patterns. These species may have evolved behaviours of alternating consuming a bit and marching as a migration strategy to avoid staying where no food is available after the havoc left behind large hopper bands. Recommendations made for the control of Desert locust hopper bands can be extended to South American locust ones.

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Main Authors: Piou, Cyril, Zagaglia, Gustavo, Medina, Hector E., Trumper, Eduardo Victor, Rojo Brizuela, Ximena, Ould Maeno, Koutaro
Format: info:ar-repo/semantics/artículo biblioteca
Language:eng
Published: Elsevier 2022-01
Subjects:Robinia, Locusts, Insect Control, Orthoptera, Langosta, Control de Insectos, Schistocerca, Behavioural Thermoregulation, Infrared Thermography, Mass Migration, Plant-animal Interactions, Termorregulación Conductual, Termografía Infrarroja, Migración en Masa, Interacciones Planta-animal, Schistocerca cancellata,
Online Access:http://hdl.handle.net/20.500.12123/17812
https://www.sciencedirect.com/science/article/pii/S0022191021001384
https://doi.org/10.1016/j.jinsphys.2021.104328
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spelling oai:localhost:20.500.12123-178122024-05-20T14:36:14Z Band movement and thermoregulation in Schistocerca cancellata Piou, Cyril Zagaglia, Gustavo Medina, Hector E. Trumper, Eduardo Victor Rojo Brizuela, Ximena Ould Maeno, Koutaro Robinia Locusts Insect Control Orthoptera Langosta Control de Insectos Schistocerca Behavioural Thermoregulation Infrared Thermography Mass Migration Plant-animal Interactions Termorregulación Conductual Termografía Infrarroja Migración en Masa Interacciones Planta-animal Schistocerca cancellata At high density, juvenile locusts create marching hopper bands. Understanding the roles of temperature and vegetation on the movement of these bands shall allow to better forecast and control them. Following a hopper band in North Argentina in November 2019, we explored the thermoregulation behaviours of the South American locust, Schistocerca cancellata. Gut-content samples informed about the feeding status at different time of the day. Hoppers’ body temperature was above cold air temperature in the mornings during basking and group-basking activities and before the onset of marching behaviour. Marching by walking or hopping was dominant at body temperatures close to 40 ◦C. Jumping, stilting, shading and perching on plants were seen as thermoregulatory behaviours to avoid ground temperatures above 50 ◦C. Feeding was observed throughout the day with continuous high gut contents despite an intermittent pattern of feeding-resting-marching. Speed and daily travelled distance of the front of the hopper band was depending on the type of encountered vegetation. Daily behavioural patterns, thermoregulatory behaviours, walking speed and daily travelled distances of S. cancellata were similar to the ones observed for the Desert locust, S. gregaria, in Africa. High air temperatures recorded during the observation times could explain the continuous feeding patterns. These species may have evolved behaviours of alternating consuming a bit and marching as a migration strategy to avoid staying where no food is available after the havoc left behind large hopper bands. Recommendations made for the control of Desert locust hopper bands can be extended to South American locust ones. EEA Manfredi Fil: Piou, Cyril. Centre de Coopération Internationale en Recherche Agronomique pour le Développement (CIRAD). Unité Mixte de Recherche Centre de Biologie pour la Gestion des Populations; Francia Fil: Zagaglia, Gustavo. Servicio Nacional de Sanidad y Calidad Agroalimentaria (SENASA). Sede Salta; Argentina Fil: Medina, Hector E. Servicio Nacional de Sanidad y Calidad Agroalimentaria (SENASA); Argentina Fil: Trumper, Eduardo V. Instituto Nacional de Tecnología Agropecuaria (INTA). Estación Experimental Agropecuaria Manfredi; Argentina Fil: Rojo Brizuela, Ximena. Ministerio de Desarrollo Económico y Producción de la Provincia Jujuy; Argentina Fil: Ould Maeno, Koutaro. Japan International Research Center for Agricultural Sciences (JIRCAS). Livestock and Environment Division; Japón 2024-05-20T14:28:51Z 2024-05-20T14:28:51Z 2022-01 info:ar-repo/semantics/artículo info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion http://hdl.handle.net/20.500.12123/17812 https://www.sciencedirect.com/science/article/pii/S0022191021001384 0022-1910 (Print) 1879-1611 (Online) https://doi.org/10.1016/j.jinsphys.2021.104328 eng info:eu-repo/semantics/restrictedAccess http://creativecommons.org/licenses/by-nc-sa/4.0/ Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International (CC BY-NC-SA 4.0) application/pdf Elsevier Journal of Insect Physiology 136 : 104328. (January 2022)
institution INTA AR
collection DSpace
country Argentina
countrycode AR
component Bibliográfico
access En linea
databasecode dig-inta-ar
tag biblioteca
region America del Sur
libraryname Biblioteca Central del INTA Argentina
language eng
topic Robinia
Locusts
Insect Control
Orthoptera
Langosta
Control de Insectos
Schistocerca
Behavioural Thermoregulation
Infrared Thermography
Mass Migration
Plant-animal Interactions
Termorregulación Conductual
Termografía Infrarroja
Migración en Masa
Interacciones Planta-animal
Schistocerca cancellata
Robinia
Locusts
Insect Control
Orthoptera
Langosta
Control de Insectos
Schistocerca
Behavioural Thermoregulation
Infrared Thermography
Mass Migration
Plant-animal Interactions
Termorregulación Conductual
Termografía Infrarroja
Migración en Masa
Interacciones Planta-animal
Schistocerca cancellata
spellingShingle Robinia
Locusts
Insect Control
Orthoptera
Langosta
Control de Insectos
Schistocerca
Behavioural Thermoregulation
Infrared Thermography
Mass Migration
Plant-animal Interactions
Termorregulación Conductual
Termografía Infrarroja
Migración en Masa
Interacciones Planta-animal
Schistocerca cancellata
Robinia
Locusts
Insect Control
Orthoptera
Langosta
Control de Insectos
Schistocerca
Behavioural Thermoregulation
Infrared Thermography
Mass Migration
Plant-animal Interactions
Termorregulación Conductual
Termografía Infrarroja
Migración en Masa
Interacciones Planta-animal
Schistocerca cancellata
Piou, Cyril
Zagaglia, Gustavo
Medina, Hector E.
Trumper, Eduardo Victor
Rojo Brizuela, Ximena
Ould Maeno, Koutaro
Band movement and thermoregulation in Schistocerca cancellata
description At high density, juvenile locusts create marching hopper bands. Understanding the roles of temperature and vegetation on the movement of these bands shall allow to better forecast and control them. Following a hopper band in North Argentina in November 2019, we explored the thermoregulation behaviours of the South American locust, Schistocerca cancellata. Gut-content samples informed about the feeding status at different time of the day. Hoppers’ body temperature was above cold air temperature in the mornings during basking and group-basking activities and before the onset of marching behaviour. Marching by walking or hopping was dominant at body temperatures close to 40 ◦C. Jumping, stilting, shading and perching on plants were seen as thermoregulatory behaviours to avoid ground temperatures above 50 ◦C. Feeding was observed throughout the day with continuous high gut contents despite an intermittent pattern of feeding-resting-marching. Speed and daily travelled distance of the front of the hopper band was depending on the type of encountered vegetation. Daily behavioural patterns, thermoregulatory behaviours, walking speed and daily travelled distances of S. cancellata were similar to the ones observed for the Desert locust, S. gregaria, in Africa. High air temperatures recorded during the observation times could explain the continuous feeding patterns. These species may have evolved behaviours of alternating consuming a bit and marching as a migration strategy to avoid staying where no food is available after the havoc left behind large hopper bands. Recommendations made for the control of Desert locust hopper bands can be extended to South American locust ones.
format info:ar-repo/semantics/artículo
topic_facet Robinia
Locusts
Insect Control
Orthoptera
Langosta
Control de Insectos
Schistocerca
Behavioural Thermoregulation
Infrared Thermography
Mass Migration
Plant-animal Interactions
Termorregulación Conductual
Termografía Infrarroja
Migración en Masa
Interacciones Planta-animal
Schistocerca cancellata
author Piou, Cyril
Zagaglia, Gustavo
Medina, Hector E.
Trumper, Eduardo Victor
Rojo Brizuela, Ximena
Ould Maeno, Koutaro
author_facet Piou, Cyril
Zagaglia, Gustavo
Medina, Hector E.
Trumper, Eduardo Victor
Rojo Brizuela, Ximena
Ould Maeno, Koutaro
author_sort Piou, Cyril
title Band movement and thermoregulation in Schistocerca cancellata
title_short Band movement and thermoregulation in Schistocerca cancellata
title_full Band movement and thermoregulation in Schistocerca cancellata
title_fullStr Band movement and thermoregulation in Schistocerca cancellata
title_full_unstemmed Band movement and thermoregulation in Schistocerca cancellata
title_sort band movement and thermoregulation in schistocerca cancellata
publisher Elsevier
publishDate 2022-01
url http://hdl.handle.net/20.500.12123/17812
https://www.sciencedirect.com/science/article/pii/S0022191021001384
https://doi.org/10.1016/j.jinsphys.2021.104328
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