Your search keyword '"Monchanin C"' showing total 17 results

1. The homing flight ring test: method for the assessment of sublethal doses of plant protection products on the honey bee in field conditions

Author

Fourrier, J., Rouzes, A., Monchanin, C., Dubuisson, L., Fortini, D., Aupinel, P., Grateau, S., Vidau, C., Chevallereau, C., Henry, M., and Decourtye, A.

Subjects

Agriculture, Botany, QK1-989

Published

2018

2. Assessing the scale and ecological impact of derelict and discarded fishing gear across Thailand via the MARsCI citizen science protocol.

Author

Mehrotra R, Monchanin C, Desmolles M, Traipipitsiriwat S, Chakrabongse D, Patel A, Kasemsant M, Pitt SM, McCabe T, McGrath T, Marcellucci C, Japakang S, Real TT, Echaubard P, Magson K, Dowling J, Dowling S, Sriaram S, Suraswadi P, and Jualaong S

Subjects

Thailand, Animals, Fishes, Ecosystem, Waste Products analysis, Waste Products statistics & numerical data, Anthozoa, Brachyura, Fisheries, Environmental Monitoring methods, Citizen Science

Abstract

South-East Asia is among the least studied regions for the growing issue of marine debris pollution, despite being a major contributor towards global marine debris. In the present study, we provide the preliminary results from the MARsCI project, a survey protocol designed to utilise citizen science to facilitate data collection on the ecological impact of discarded fishing gear (DFG) in Thailand. Over a three-year period, 103 surveys were carried out across Thailand, resulting in impact assessment of 606 pieces of DFG. Our findings indicate corals are regularly impacted by DFG in Thai waters and that isolated marine habitats may be more severely impacted than near-shore sites. We further identify crabs, muricid snails, and demersal fish to be among the most regularly entangled animals. We discuss our findings in the context of earlier work from Thailand, and conduct a critical review of the protocol itself, identifying improvements for future efforts., Competing Interests: Declaration of competing interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Rahul Mehrotra reports financial support was provided by International Union for Conservation of Nature Asia Regional Office., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

3. Spatiotemporal variations in marine macro-litter pollution along the shoreline of Koh Mun Nai, an uninhabited island in the Gulf of Thailand.

Author

Monchanin C, Desmolles M, Rivetta K, Saramul S, Charoenpong C, and Mehrotra R

Subjects

Thailand, Islands, Plastics analysis, Water Pollutants, Chemical analysis, Spatio-Temporal Analysis, Seasons, Environmental Monitoring methods

Abstract

Despite a recent ambitious plan to improve waste management in Thailand, few studies have monitored the impact of these policies on beached marine litter. Here, we assessed weekly the amounts and composition of stranded macro-litter (≥2.5 cm) on five beaches from an uninhabited island in Thailand during one year. A total of 24,407 items (391.86 kg) yielded a mean abundance of 3.18 ± 11.39 items m -2 (52.75 ± 204.68 g m -2 ), with plastic being the most abundant marine litter (48% of the total number). The overall Clean Coast Index (30.1) classified the beaches as 'extremely dirty', with a Plastic Abundance Index of 9.8 ('very high abundance' of plastics). When assessing the seasonal rates of accumulation, we found a higher flux pre-monsoon (0.05 items m -2 d -1 ; 0.66 g m -2 d -1 ) than post-monsoon (0.01 items m -2 d -1 ; 0.35 g m -2 d -1 ). Using modeling of the local hydrodynamic conditions, we explored the potential sources of the pollution, and surprisingly found that the closest river appeared not to be the source. Our results denote that the distribution and typology of marine litter were representatives of household and fishing activities, which in turn highlights the need for better regional litter management measures., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

4. Environmental exposure to metallic pollution impairs honey bee brain development and cognition.

Author

Monchanin C, Drujont E, Le Roux G, Lösel PD, Barron AB, Devaud JM, Elger A, and Lihoreau M

Subjects

Bees, Animals, Environmental Exposure, Cognition, Brain, Environmental Pollution, Environmental Pollutants analysis

Abstract

Laboratory studies show detrimental effects of metallic pollutants on invertebrate behaviour and cognition, even at low levels. Here we report a field study on Western honey bees exposed to metal and metalloid pollution through dusts, food and water at a historic mining site. We analysed more than 1000 bees from five apiaries along a gradient of contamination within 11 km of a former gold mine in Southern France. Bees collected close to the mine exhibited olfactory learning performances lower by 36% and heads smaller by 4%. Three-dimensional scans of bee brains showed that the olfactory centres of insects sampled close to the mine were also 4% smaller, indicating neurodevelopmental issues. Our study raises serious concerns about the health of honey bee populations in areas polluted with potentially harmful elements, particularly with arsenic, and illustrates how standard cognitive tests can be used for risk assessment., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2024

5. A cup half full: the first assessment on the distribution, ecology and need for conservation of the threatened Neptune's cup sponge, Cliona patera, in the Gulf of Thailand.

Author

Mehrotra R, McGrath T, McCabe T, Chankong A, Sangsawang L, Desmolles M, Monchanin C, Jualaong S, and Putchakarn S

Subjects

Humans, Animals, Thailand, Neptune, Environmental Monitoring, Ecology, Gastropoda, Porifera

Abstract

The Neptune's cup sponge is an iconic species found in marine soft sediment habitats in the Indo-West Pacific, with a history of overharvesting and extreme population declines. Access to SCUBA diving surveys has allowed for its rediscovery at Singapore, its type locality; however, with fewer than ten living individuals documented in the twenty-first century, the species is believed to be in need of conservation. Here, we share the results from surveys across the Gulf of Thailand, allowing for a documentation of 29 additional individuals, with information on their ecology and distribution. Of the 29 individuals, extensive damage or mortality caused by marine debris is recorded for six individuals, and one further individual is believed to be lost due to an unknown cause. Documented threats from the Gulf of Thailand differ from those in Singapore; however, low population sizes and poor connectivity remain a significant concern for the survival of the species., (© 2023. The Author(s), under exclusive licence to Springer Nature Switzerland AG.)

Published

2023

6. Natural variability in bee brain size and symmetry revealed by micro-CT imaging and deep learning.

Author

Lösel PD, Monchanin C, Lebrun R, Jayme A, Relle JJ, Devaud JM, Heuveline V, and Lihoreau M

Subjects

Bees, Animals, X-Ray Microtomography, Organ Size, Brain diagnostic imaging, Brain anatomy & histology, Cognition, Deep Learning

Abstract

Analysing large numbers of brain samples can reveal minor, but statistically and biologically relevant variations in brain morphology that provide critical insights into animal behaviour, ecology and evolution. So far, however, such analyses have required extensive manual effort, which considerably limits the scope for comparative research. Here we used micro-CT imaging and deep learning to perform automated analyses of 3D image data from 187 honey bee and bumblebee brains. We revealed strong inter-individual variations in total brain size that are consistent across colonies and species, and may underpin behavioural variability central to complex social organisations. In addition, the bumblebee dataset showed a significant level of lateralization in optic and antennal lobes, providing a potential explanation for reported variations in visual and olfactory learning. Our fast, robust and user-friendly approach holds considerable promises for carrying out large-scale quantitative neuroanatomical comparisons across a wider range of animals. Ultimately, this will help address fundamental unresolved questions related to the evolution of animal brains and cognition., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2023 Lösel et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2023

7. Honey bees cannot sense harmful concentrations of metal pollutants in food.

Author

Monchanin C, Gabriela de Brito Sanchez M, Lecouvreur L, Boidard O, Méry G, Silvestre J, Le Roux G, Baqué D, Elger A, Barron AB, Lihoreau M, and Devaud JM

Subjects

Animals, Bees, Lead, Sucrose, Zinc, Arsenic, Environmental Pollutants toxicity

Abstract

Whether animals can actively avoid food contaminated with harmful compounds through taste is key to assess their ecotoxicological risks. Here, we investigated the ability of honey bees to perceive and avoid food resources contaminated with common metal pollutants known to impair behaviour at low concentrations. In laboratory assays, bees did not discriminate food contaminated with arsenic, lead or zinc and ingested it readily, up to estimated doses of 929.1 μg g -1 As, 6.45 mg g -1 Pb and 72.46 mg g -1 Zn. A decrease of intake and appetitive responses indicating metal detection was only observed at the highest concentrations of lead (3.6 mM) and zinc (122.3 mM) through contact with the antennae and the proboscis. Electrophysiological analyses confirmed that only high concentrations of the three metals in a sucrose solution induced a consistently reduced neural response to sucrose in antennal taste receptors (As: >0.1 μM, Pb: >1 mM; Zn: >100 mM). Overall, cellular and behavioural responses did not provide evidence for specific mechanisms that would support selective detection of toxic metals (arsenic, lead), as compared to zinc, which has important biological functions. Our results thus show that honey bees can avoid metal pollutants in their food only at high concentrations unlikely to be encountered in the environment. By contrast, they appear to be unable to detect low, yet harmful, concentrations found in flowers. Metal pollution at trace levels is therefore a major threat for pollinators., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2022

8. Contrasting coral community structures between natural and artificial substrates at Koh Tao, Gulf of Thailand.

Author

Monchanin C, Mehrotra R, Haskin E, Scott CM, Urgell Plaza P, Allchurch A, Arnold S, Magson K, and Hoeksema BW

Subjects

Animals, Coral Reefs, Thailand, Anthozoa

Abstract

Concrete cubic frames and decommissioned steel naval vessels have been deployed in Thailand liberally to act as artificial substrates for coral restoration and marine recreation. We assessed recruitment at such substrate types at Koh Tao, Gulf of Thailand, and compared the community structure of scleractinian corals between artificial substrates and nearby natural reefs. Our results from a sample of 2677 recruits from nine sites highlighted significant differences in community structure between both reef types. Investigations of variables including time since deployment, distance from the natural reef, and seafloor depth revealed only the latter as a possible influencing factor. The diversity of recruits could not be explained by dynamics in coral spawning, and were found to represent groups with lower structural complexity. Our results suggest that coral community structure on artificial and natural reefs differs and supports distinct ecological and functional roles., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2021

9. Current permissible levels of metal pollutants harm terrestrial invertebrates.

Author

Monchanin C, Devaud JM, Barron AB, and Lihoreau M

Subjects

Animals, Ecosystem, Environmental Monitoring, Humans, Invertebrates, Metals toxicity, Arsenic, Environmental Pollutants, Metals, Heavy analysis

Abstract

The current decline of invertebrates worldwide is alarming. Several potential causes have been proposed but metal pollutants, while being widespread in the air, soils and water, have so far been largely overlooked. Here, we reviewed the results of 527 observations of the effects of arsenic, cadmium, lead and mercury on terrestrial invertebrates. These four well-studied metals are considered as priorities for public health and for which international regulatory guidelines exist. We found that they all significantly impact the physiology and behavior of invertebrates, even at levels below those recommended as 'safe' for humans. Our results call for a revision of the regulatory thresholds to better protect terrestrial invertebrates, which appear to be more sensitive to metal pollution than vertebrates. More fundamental research on a broader range of compounds and species is needed to improve international guidelines for metal pollutants, and to develop conservation plans to protect invertebrates and ecosystem services., Competing Interests: Declaration of competing interest The authors declare no conflict of interest., (Copyright © 2021 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2021

10. Metal pollutants have additive negative effects on honey bee cognition.

Author

Monchanin C, Drujont E, Devaud JM, Lihoreau M, and Barron AB

Subjects

Animals, Bees, Cognition, Environmental Pollution, Learning, Environmental Pollutants toxicity

Abstract

Environmental pollutants can exert sublethal deleterious effects on animals. These include disruption of cognitive functions underlying crucial behaviours. While agrochemicals have been identified as a major threat to pollinators, metal pollutants, which are often found in complex mixtures, have so far been overlooked. Here, we assessed the impact of acute exposure to field-realistic concentrations of three common metal pollutants, lead, copper and arsenic, and their combinations, on honey bee appetitive learning and memory. All treatments involving single metals slowed down learning and disrupted memory retrieval at 24 h. Combinations of these metals had additive negative effects on both processes, suggesting common pathways of toxicity. Our results highlight the need to further assess the risks of metal pollution on invertebrates., Competing Interests: Competing interests The authors declare no competing or financial interests., (© 2021. Published by The Company of Biologists Ltd.)

Published

2021

11. An updated inventory of sea slugs from Koh Tao, Thailand, with notes on their ecology and a dramatic biodiversity increase for Thai waters.

Author

Mehrotra R, A Caballer Gutiérrez M, M Scott C, Arnold S, Monchanin C, Viyakarn V, and Chavanich S

Abstract

Improved access to field survey infrastructure throughout South-East Asia has allowed for a greater intensity of biodiversity surveys than ever before. The rocky bottoms and coral reef habitats across the region have been shown to support some of the highest sea slug biodiversity on the planet, with ever increasing records. During the past ten years, intensive SCUBA surveys have been carried out at Koh Tao, in the Gulf of Thailand, which have yielded remarkable findings in sea slug biology and ecology. In this work a brief history of sea slug biodiversity research from Thailand is covered and a complete inventory of sea slugs from Koh Tao, Gulf of Thailand is provided. This inventory is based on surveys from 2012 to 2020, with previously unreported findings since 2016. Habitat specificity and species-specific ecology are reported where available with a focused comparison of coral reef habitats and deeper soft-sediment habitats. The findings contribute 90 new species records for Thai waters (92 for the Gulf of Thailand) and report a remarkable consistency in the proportional diversity found to be exclusive to one habitat type or another. Additionally, taxonomic remarks are provided for species documented from Koh Tao that have not been discussed in past literature from Thailand, and a summary of previous records in the Indo-West Pacific is given., (Rahul Mehrotra, Manuel A. Caballer Gutiérrez, Chad M. Scott, Spencer Arnold, Coline Monchanin, Voranop Viyakarn, Suchana Chavanich.)

Published

2021

12. Chronic exposure to trace lead impairs honey bee learning.

Author

Monchanin C, Blanc-Brude A, Drujont E, Negahi MM, Pasquaretta C, Silvestre J, Baqué D, Elger A, Barron AB, Devaud JM, and Lihoreau M

Subjects

Animals, Bees physiology, Cephalometry, Cognition drug effects, Dose-Response Relationship, Drug, Head anatomy & histology, Pollination, Bees drug effects, Behavior, Animal drug effects, Environmental Pollutants toxicity, Lead toxicity, Reversal Learning drug effects

Abstract

Pollutants can have severe detrimental effects on insects, even at sublethal doses, damaging developmental and cognitive processes involved in crucial behaviours. Agrochemicals have been identified as important causes of pollinator declines, but the impacts of other anthropogenic compounds, such as metallic trace elements in soils and waters, have received considerably less attention. Here, we exposed colonies of the European honey bee Apis mellifera to chronic field-realistic concentrations of lead in food and demonstrated that consumption of this trace element impaired bee cognition and morphological development. Honey bees exposed to the highest of these low concentrations had reduced olfactory learning performances. These honey bees also developed smaller heads, which may have constrained their cognitive functions as we show a general relationship between head size and learning performance. Our results demonstrate that lead pollutants, even at trace levels, can have dramatic effects on honey bee cognitive abilities, potentially altering key colony functions and the pollination service., (Copyright © 2021 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2021

13. Pesticide dosing must be guided by ecological principles.

Author

Colin T, Monchanin C, Lihoreau M, and Barron AB

Subjects

Agriculture, Pesticides

Published

2020

14. On the Plakobranchidae (Gastropoda, Sacoglossa) from soft sediment habitats of Koh Tao, Gulf of Thailand, with descriptions of two new species.

Author

Mehrotra R, Gutiérrez MC, Scott CM, Arnold S, Monchanin C, and Chavanich S

Abstract

Research in recent years have provided rapid advances in biogeographic and taxonomic documentation of sea slugs around the world. However, efforts are lacking in surveying most coastlines and habitats in South-East Asia. Recent studies from the Gulf of Thailand have indicated that a wealth of unexplored sea slug diversity and ecology may be gained from an investigation of soft sediment habitats beyond the reef slopes. Additionally, the waters of Koh Tao have been found to host regionally high levels of sea slug diversity with several species awaiting taxonomic clarification. In this work the initial findings of an expanded survey effort from the waters around Koh Tao are provided, with the identity of two soft sediment-associated sacoglossan species in the family Plakobranchidae being investigated. By integrating morphological and molecular analyses, the species Plakobranchus noctisstellatus sp. nov. and Elysia aowthai sp. nov. are described and species complexes surrounding Plakobranchus ocellatus van Hasselt, 1824 and Elysia japonica Eliot, 1913 are discussed. The topics of morphological variability and the cryptic species problem are also discussed., (Rahul Mehrotra, Manuel Caballer Gutierrez, Chad M. Scott, Spencer Arnold, Coline Monchanin, Suchana Chavanich.)

Published

2020

15. Hazard of a neonicotinoid insecticide on the homing flight of the honeybee depends on climatic conditions and Varroa infestation.

Author

Monchanin C, Henry M, Decourtye A, Dalmon A, Fortini D, Bœuf E, Dubuisson L, Aupinel P, Chevallereau C, Petit J, and Fourrier J

Subjects

Animals, Bees parasitology, Bees physiology, Climate, Temperature, Bees drug effects, Homing Behavior drug effects, Insecticides toxicity, Thiamethoxam toxicity, Varroidae growth & development

Abstract

The paradigm for all toxicological bioassays in the risk assessment of pesticide registration reflects the principle that experimental conditions should be controlled to avoid any other factors that may affect the endpoint measures. As honeybee colonies can be frequently exposed to bio-aggressors in real conditions, often concomitantly with pesticides, co-exposure to pesticide/bio-aggressors is becoming a concern for regulatory authorities. We investigated the effects of the neonicotinoid insecticide thiamethoxam on the homing performances of foragers emerging from colonies differentiated by health status (infestation with Varroa destructor mites, microsporidian parasite Nosema spp. and Deformed Wing Virus). We designed a homing test that has been recently identified to fill a regulatory gap in the field evaluations of sublethal doses of pesticides before their registration. We also assessed the effect of temperature as an environmental factor. Our results showed that the Varroa mite exacerbates homing failure (HF) caused by the insecticide, whereas high temperatures reduce insecticide-induced HF. Through an analytical Effective Dose (ED) approach, predictive modeling results showed that, for instance, ED level of an uninfested colony, can be divided by 3.3 when the colony is infested by 5 Varroa mites per 100 bees and at a temperature of 24 °C. Our results suggest that the health status of honeybee colonies and climatic context should be targeted for a thorough risk assessment., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2019

16. Selective consumption of sacoglossan sea slugs (Mollusca: Gastropoda) by scleractinian corals (Cnidaria: Anthozoa).

Author

Mehrotra R, Monchanin C, Scott CM, Phongsuwan N, Caballer Gutierrez M, Chavanich S, and Hoeksema BW

Subjects

Animals, Anthozoa physiology, Feeding Behavior, Food Preferences, Gastropoda physiology, Predatory Behavior physiology

Abstract

Recent studies revealed that reef corals can eat large-sized pelagic and benthic animals in addition to small planktonic prey. As follow-up, we document natural ingestion of sea slugs by corals and investigate the role of sacoglossan sea slugs as possible prey items of scleractinian corals. Feeding trials were carried out using six sacoglossan species as prey, two each from the genera Costasiella, Elysia and Plakobranchus, and four free-living solitary corals (Danafungia scruposa, Fungia fungites, Pleuractis paumotensis and Heteropsammia cochlea) as predators. Trials were carried out under both in-situ and ex-situ conditions with the aim to observe ingestion and assess signs of prey consumption based on tissue loss of prey individuals over time. Significant differences were observed in both ingestion time and consumption state of prey between prey species, with three of them being ingested more rapidly and preferentially consumed over the others. Additionally, prey size was found to be a significant factor with larger prey (>12 mm) being ingested more slowly and rarely than smaller ones (<6 mm and 6-12 mm). Comparisons of consumption capability among predators showed no significant difference with all coral species showing similar preferences for prey species. While no specific mechanism of prey capture is proposed, we also document instances of kleptoparisitism and resuspension of prey items by wrasses. This study highlights the important distinction between opportunistic prey capture and true predation events., Competing Interests: The authors have declared that no competing interests exist.

Published

2019

17. Measurements of Chlorpyrifos Levels in Forager Bees and Comparison with Levels that Disrupt Honey Bee Odor-Mediated Learning Under Laboratory Conditions.

Author

Urlacher E, Monchanin C, Rivière C, Richard FJ, Lombardi C, Michelsen-Heath S, Hageman KJ, and Mercer AR

Subjects

Animals, Bees physiology, Chlorpyrifos pharmacology, Bees metabolism, Behavior, Animal, Chlorpyrifos metabolism, Insecticides pharmacology, Learning drug effects, Odorants

Abstract

Chlorpyrifos is an organophosphate pesticide used around the world to protect food crops against insects and mites. Despite guidelines for chlorpyrifos usage, including precautions to protect beneficial insects, such as honeybees from spray drift, this pesticide has been detected in bees in various countries, indicating that exposure still occurs. Here, we examined chlorpyrifos levels in bees collected from 17 locations in Otago, New Zealand, and compared doses of this pesticide that cause sub-lethal effects on learning performance under laboratory conditions with amounts of chlorpyrifos detected in the bees in the field. The pesticide was detected at 17 % of the sites sampled and in 12 % of the colonies examined. Amounts detected ranged from 35 to 286 pg.bee(-1), far below the LD50 of ~100 ng.bee(-1). We detected no adverse effect of chlorpyrifos on aversive learning, but the formation and retrieval of appetitive olfactory memories was severely affected. Chlorpyrifos fed to bees in amounts several orders of magnitude lower than the LD50, and also lower than levels detected in bees, was found to slow appetitive learning and reduce the specificity of memory recall. As learning and memory play a central role in the behavioral ecology and communication of foraging bees, chlorpyrifos, even in sublethal doses, may threaten the success and survival of this important insect pollinator.

Published

2016