Orientation of Belminus triatomines to cockroaches and cockroaches’ fecal volatiles: an ethological approach
Autor(a) principal: | |
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Data de Publicação: | 2020 |
Outros Autores: | , , |
Tipo de documento: | preprint |
Idioma: | eng |
Título da fonte: | SciELO Preprints |
Texto Completo: | https://preprints.scielo.org/index.php/scielo/preprint/view/892 |
Resumo: | Most triatomine bugs (Hemiptera: Reduviidae: Triatominae) are hematophagous, though Belminus species can live off of cockroach hemolymph to complete their life cycle. In this work we described the fixed action pattern (FAP) employed by B. ferroae to identify, approach and suck on a living cockroach. The FAP described here is composed of the following stereotyped behaviors: 1) visual and/or olfactory detection of the cockroach, 2) reaching, 3) cautious approach, 4) antennal exploration, 5) extension of the proboscis, 3) piercing to sedate, 5) walking away and waiting (post sedation behavior), 6) second cautious approach, 7) extension of the proboscis, 8) piercing to suck hemolymph. In order to identify chemicals cues that could elicit such FAP, we examined the behavior of B. corredori, B. ferroae and B. herreri in response to the cockroaches’ odor, fresh cockroach feces and fresh rodent wastes. The last two sources were tested based on the assumption that abundant chemicals near host refuges could serve as cues for host orientation. We found the cockroach odor emanating from a box significantly attracted B. herreri in a still air olfactometer. The three Belminus species approached the captive cockroach after one hour, but avoided to climb the box. Odors emanating from the cockroach feces attracted B. corredori and B. ferroae in a Y-olfactometer. The FAP sequence observed suggests Belminus bugs are not predators like the rest of reduviids (assassin bugs) —but are kleptophagous ectoparasites, since they do not attack and kill a prey but rather steal hemolymph from its invertebrate host. Triatomines and their hosts have intimately shared the same refuge for millions of years. Similar odors occur across invertebrate and vertebrate refuges, and are recurrent in human abodes, thus plausibly explaining how these kleptophagous bugs can readily switch to the domestic habitat. |
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Orientation of Belminus triatomines to cockroaches and cockroaches’ fecal volatiles: an ethological approachTriatominesexcretaolfactionsensory ecologyproboscis extensionTriatominoshecesolfatoecología sensorialextensión del aparato bucalMost triatomine bugs (Hemiptera: Reduviidae: Triatominae) are hematophagous, though Belminus species can live off of cockroach hemolymph to complete their life cycle. In this work we described the fixed action pattern (FAP) employed by B. ferroae to identify, approach and suck on a living cockroach. The FAP described here is composed of the following stereotyped behaviors: 1) visual and/or olfactory detection of the cockroach, 2) reaching, 3) cautious approach, 4) antennal exploration, 5) extension of the proboscis, 3) piercing to sedate, 5) walking away and waiting (post sedation behavior), 6) second cautious approach, 7) extension of the proboscis, 8) piercing to suck hemolymph. In order to identify chemicals cues that could elicit such FAP, we examined the behavior of B. corredori, B. ferroae and B. herreri in response to the cockroaches’ odor, fresh cockroach feces and fresh rodent wastes. The last two sources were tested based on the assumption that abundant chemicals near host refuges could serve as cues for host orientation. We found the cockroach odor emanating from a box significantly attracted B. herreri in a still air olfactometer. The three Belminus species approached the captive cockroach after one hour, but avoided to climb the box. Odors emanating from the cockroach feces attracted B. corredori and B. ferroae in a Y-olfactometer. The FAP sequence observed suggests Belminus bugs are not predators like the rest of reduviids (assassin bugs) —but are kleptophagous ectoparasites, since they do not attack and kill a prey but rather steal hemolymph from its invertebrate host. Triatomines and their hosts have intimately shared the same refuge for millions of years. Similar odors occur across invertebrate and vertebrate refuges, and are recurrent in human abodes, thus plausibly explaining how these kleptophagous bugs can readily switch to the domestic habitat.SciELO PreprintsSciELO PreprintsSciELO Preprints2020-07-05info:eu-repo/semantics/preprintinfo:eu-repo/semantics/publishedVersionapplication/pdfhttps://preprints.scielo.org/index.php/scielo/preprint/view/89210.1590/SciELOPreprints.892enghttps://preprints.scielo.org/index.php/scielo/article/view/892/1254Copyright (c) 2020 Fernando Otálora-Luna, Oscar Páez-Rondón, Elis Aldana, Claudia Magaly Sandovalhttps://creativecommons.org/licenses/by/4.0info:eu-repo/semantics/openAccessOtálora-Luna, FernandoPáez-Rondón, Oscar Aldana, ElisSandoval, Claudia Magalyreponame:SciELO Preprintsinstname:SciELOinstacron:SCI2020-07-02T23:01:53Zoai:ops.preprints.scielo.org:preprint/892Servidor de preprintshttps://preprints.scielo.org/index.php/scieloONGhttps://preprints.scielo.org/index.php/scielo/oaiscielo.submission@scielo.orgopendoar:2020-07-02T23:01:53SciELO Preprints - SciELOfalse |
dc.title.none.fl_str_mv |
Orientation of Belminus triatomines to cockroaches and cockroaches’ fecal volatiles: an ethological approach |
title |
Orientation of Belminus triatomines to cockroaches and cockroaches’ fecal volatiles: an ethological approach |
spellingShingle |
Orientation of Belminus triatomines to cockroaches and cockroaches’ fecal volatiles: an ethological approach Otálora-Luna, Fernando Triatomines excreta olfaction sensory ecology proboscis extension Triatominos heces olfato ecología sensorial extensión del aparato bucal |
title_short |
Orientation of Belminus triatomines to cockroaches and cockroaches’ fecal volatiles: an ethological approach |
title_full |
Orientation of Belminus triatomines to cockroaches and cockroaches’ fecal volatiles: an ethological approach |
title_fullStr |
Orientation of Belminus triatomines to cockroaches and cockroaches’ fecal volatiles: an ethological approach |
title_full_unstemmed |
Orientation of Belminus triatomines to cockroaches and cockroaches’ fecal volatiles: an ethological approach |
title_sort |
Orientation of Belminus triatomines to cockroaches and cockroaches’ fecal volatiles: an ethological approach |
author |
Otálora-Luna, Fernando |
author_facet |
Otálora-Luna, Fernando Páez-Rondón, Oscar Aldana, Elis Sandoval, Claudia Magaly |
author_role |
author |
author2 |
Páez-Rondón, Oscar Aldana, Elis Sandoval, Claudia Magaly |
author2_role |
author author author |
dc.contributor.author.fl_str_mv |
Otálora-Luna, Fernando Páez-Rondón, Oscar Aldana, Elis Sandoval, Claudia Magaly |
dc.subject.por.fl_str_mv |
Triatomines excreta olfaction sensory ecology proboscis extension Triatominos heces olfato ecología sensorial extensión del aparato bucal |
topic |
Triatomines excreta olfaction sensory ecology proboscis extension Triatominos heces olfato ecología sensorial extensión del aparato bucal |
description |
Most triatomine bugs (Hemiptera: Reduviidae: Triatominae) are hematophagous, though Belminus species can live off of cockroach hemolymph to complete their life cycle. In this work we described the fixed action pattern (FAP) employed by B. ferroae to identify, approach and suck on a living cockroach. The FAP described here is composed of the following stereotyped behaviors: 1) visual and/or olfactory detection of the cockroach, 2) reaching, 3) cautious approach, 4) antennal exploration, 5) extension of the proboscis, 3) piercing to sedate, 5) walking away and waiting (post sedation behavior), 6) second cautious approach, 7) extension of the proboscis, 8) piercing to suck hemolymph. In order to identify chemicals cues that could elicit such FAP, we examined the behavior of B. corredori, B. ferroae and B. herreri in response to the cockroaches’ odor, fresh cockroach feces and fresh rodent wastes. The last two sources were tested based on the assumption that abundant chemicals near host refuges could serve as cues for host orientation. We found the cockroach odor emanating from a box significantly attracted B. herreri in a still air olfactometer. The three Belminus species approached the captive cockroach after one hour, but avoided to climb the box. Odors emanating from the cockroach feces attracted B. corredori and B. ferroae in a Y-olfactometer. The FAP sequence observed suggests Belminus bugs are not predators like the rest of reduviids (assassin bugs) —but are kleptophagous ectoparasites, since they do not attack and kill a prey but rather steal hemolymph from its invertebrate host. Triatomines and their hosts have intimately shared the same refuge for millions of years. Similar odors occur across invertebrate and vertebrate refuges, and are recurrent in human abodes, thus plausibly explaining how these kleptophagous bugs can readily switch to the domestic habitat. |
publishDate |
2020 |
dc.date.none.fl_str_mv |
2020-07-05 |
dc.type.driver.fl_str_mv |
info:eu-repo/semantics/preprint info:eu-repo/semantics/publishedVersion |
format |
preprint |
status_str |
publishedVersion |
dc.identifier.uri.fl_str_mv |
https://preprints.scielo.org/index.php/scielo/preprint/view/892 10.1590/SciELOPreprints.892 |
url |
https://preprints.scielo.org/index.php/scielo/preprint/view/892 |
identifier_str_mv |
10.1590/SciELOPreprints.892 |
dc.language.iso.fl_str_mv |
eng |
language |
eng |
dc.relation.none.fl_str_mv |
https://preprints.scielo.org/index.php/scielo/article/view/892/1254 |
dc.rights.driver.fl_str_mv |
Copyright (c) 2020 Fernando Otálora-Luna, Oscar Páez-Rondón, Elis Aldana, Claudia Magaly Sandoval https://creativecommons.org/licenses/by/4.0 info:eu-repo/semantics/openAccess |
rights_invalid_str_mv |
Copyright (c) 2020 Fernando Otálora-Luna, Oscar Páez-Rondón, Elis Aldana, Claudia Magaly Sandoval https://creativecommons.org/licenses/by/4.0 |
eu_rights_str_mv |
openAccess |
dc.format.none.fl_str_mv |
application/pdf |
dc.publisher.none.fl_str_mv |
SciELO Preprints SciELO Preprints SciELO Preprints |
publisher.none.fl_str_mv |
SciELO Preprints SciELO Preprints SciELO Preprints |
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SciELO Preprints |
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