Dalu, TatendaMugwedi LutendoWasserman, Ryan J.Mutshekwa, Thendo2023-10-172023-10-172023-10-05Mutshekwa, T. (2022). Assessing the effects of MACADAMIA ORCHARD pesticide inputs on recipient aquatic ecosystems. University of Venda, Thohoyandou, South Africa.<http://hdl.handle.net/11602/2560>.http://hdl.handle.net/11602/2560PhDENVDepartment of Geography and Environmental SciencesAquatic environments, while not the target of many pesticide applications, often receive chemicals through catchment runoff dynamics. In this regard, the use of pesticides in agricultural systems may have deleterious effects on aquatic ecosystems within the same catchment area. Here using a series of in–situ and ex–situ experiments, the study assessed (a) pesticide concentrations of acetamiprid and chlorpyrifos across MACADAMIA ORCHARD and communal area reservoirs using liquid chromatography tandem mass spectrometry (LC–MS/MS), (b) the behavioural responses of Mozambique tilapia, Oreochromis mossambicus, following exposure to three commonly used macadamia pesticides (i.e., Karate Zeon 10 CS, Mulan 20 SP, Pyrinex 250 CS at different concentrations, (c) macadamia Macadamia integrifolia leaf litter decomposition and mosquito colonisation following pesticide exposure, and (d) macroinvertebrate colonisation associated with introduced stone substrates in cages within the MACADAMIA ORCHARD and control reservoirs to explore whether macadamia pesticides affected on macroinvertebrate colonisation dynamics. Firstly, analysis of acetamiprid and chlorpyrifos associated with sediments in MACADAMIA ORCHARD reservoirs revealed mean pesticide concentrations of 14.48 μg L–1 and 5.67 μg L–1, respectively, whereas, in communal area reservoirs outside of agricultural catchments, both pesticides were not detected. Acetamiprid was not detected across reservoir water, whereas the mean pesticide concentration of chlorpyrifos of 6.51 μg L–1 (MACADAMIA ORCHARD) and 0.13 μg L–1 (communal area) were detected. Secondly, O. mossambicus demonstrated different onset behavioural responses, i.e., swimming erratically, surfacing, vertical positioning, loss of equilibrium, being motionless and mortality with high mortality at increased mortality. Thirdly, macadamia leaf litter tended to decompose faster when exposed to pesticide treatments, whereas chlorophyll–a were reduced. Furthermore, pesticide treatments seemed to promote mosquito (i.e., Culex spp.) and pupal abundances. Finally, a total of 644 macroinvertebrate individuals were recorded across macadamia and communal reservoirs, mostly dominated by Chironominae (55.1 %), Ostracoda (14.4 %), Trithemis sp. (5.2 %), Anax sp. (5.2 %) and Radix natalensis (5.0 %). The results indicate that MACADAMIA ORCHARD reservoirs are highly contaminated by acetamiprid and chlorpyrifos and that these contaminants have implications for the ecological functioning of aquatic ecosystems. Reduction of species diversity adjusted community structure and altered energy flow and nutrient recycling were all demonstrated. The results of the study collectively show how common pesticides used in the macadamia plantation may be exert pressure on adjacent freshwater ecosystems. Future studies should examine effects on trophic interactions, pesticide accumulation in faunal groups and allochthonous trophic transfer dynamics to terrestrial environments. Such information would be useful for managers tasked with mitigation plans for the region.1 online resource (xvi, 127 leaves) : color illustrations, color mapsenUniversity of VendaPesticidesReservoirsUCTDLC-MS/MSBehaviour traitsEnvironmental stressorFreshwater FishesNeonicotinoidsOrganophosphatePyrethroidMosquito larvaeAllochthorious inputsMacadamia Stone substratesMacadamia orchardsPesticides macroinvertebrate communityMacroinvertebrate diversity metrics632.7Agricultural pestsOrchards -- Disease and pestsPesticidesPesticides -- Environmental aspectsMacadamia nutMacadamia nut -- Disease and pestsAquatic pestsPestsThesisMutshekwa T. Assessing the effects of MACADAMIA ORCHARD pesticide inputs on recipient aquatic ecosystems. []. , 2023 [cited yyyy month dd]. Available from: http://hdl.handle.net/11602/2560Mutshekwa, T. (2023). <i>Assessing the effects of MACADAMIA ORCHARD pesticide inputs on recipient aquatic ecosystems</i>. (). . Retrieved from http://hdl.handle.net/11602/2560Mutshekwa, Thendo. <i>"Assessing the effects of MACADAMIA ORCHARD pesticide inputs on recipient aquatic ecosystems."</i> ., , 2023. http://hdl.handle.net/11602/2560TY - Thesis AU - Mutshekwa, Thendo AB - Aquatic environments, while not the target of many pesticide applications, often receive chemicals through catchment runoff dynamics. In this regard, the use of pesticides in agricultural systems may have deleterious effects on aquatic ecosystems within the same catchment area. Here using a series of in–situ and ex–situ experiments, the study assessed (a) pesticide concentrations of acetamiprid and chlorpyrifos across MACADAMIA ORCHARD and communal area reservoirs using liquid chromatography tandem mass spectrometry (LC–MS/MS), (b) the behavioural responses of Mozambique tilapia, Oreochromis mossambicus, following exposure to three commonly used macadamia pesticides (i.e., Karate Zeon 10 CS, Mulan 20 SP, Pyrinex 250 CS at different concentrations, (c) macadamia Macadamia integrifolia leaf litter decomposition and mosquito colonisation following pesticide exposure, and (d) macroinvertebrate colonisation associated with introduced stone substrates in cages within the MACADAMIA ORCHARD and control reservoirs to explore whether macadamia pesticides affected on macroinvertebrate colonisation dynamics. Firstly, analysis of acetamiprid and chlorpyrifos associated with sediments in MACADAMIA ORCHARD reservoirs revealed mean pesticide concentrations of 14.48 μg L–1 and 5.67 μg L–1, respectively, whereas, in communal area reservoirs outside of agricultural catchments, both pesticides were not detected. Acetamiprid was not detected across reservoir water, whereas the mean pesticide concentration of chlorpyrifos of 6.51 μg L–1 (MACADAMIA ORCHARD) and 0.13 μg L–1 (communal area) were detected. Secondly, O. mossambicus demonstrated different onset behavioural responses, i.e., swimming erratically, surfacing, vertical positioning, loss of equilibrium, being motionless and mortality with high mortality at increased mortality. Thirdly, macadamia leaf litter tended to decompose faster when exposed to pesticide treatments, whereas chlorophyll–a were reduced. Furthermore, pesticide treatments seemed to promote mosquito (i.e., Culex spp.) and pupal abundances. Finally, a total of 644 macroinvertebrate individuals were recorded across macadamia and communal reservoirs, mostly dominated by Chironominae (55.1 %), Ostracoda (14.4 %), Trithemis sp. (5.2 %), Anax sp. (5.2 %) and Radix natalensis (5.0 %). The results indicate that MACADAMIA ORCHARD reservoirs are highly contaminated by acetamiprid and chlorpyrifos and that these contaminants have implications for the ecological functioning of aquatic ecosystems. Reduction of species diversity adjusted community structure and altered energy flow and nutrient recycling were all demonstrated. The results of the study collectively show how common pesticides used in the macadamia plantation may be exert pressure on adjacent freshwater ecosystems. Future studies should examine effects on trophic interactions, pesticide accumulation in faunal groups and allochthonous trophic transfer dynamics to terrestrial environments. Such information would be useful for managers tasked with mitigation plans for the region. DA - 2023-10-05 DB - ResearchSpace DP - Univen KW - Pesticides KW - Reservoirs KW - LC-MS/MS KW - Behaviour traits KW - Environmental stressor KW - Freshwater Fishes KW - Neonicotinoids KW - Organophosphate KW - Pyrethroid KW - Mosquito larvae KW - Allochthorious inputs KW - Macadamia Stone substrates KW - Macadamia orchards KW - Pesticides macroinvertebrate community KW - Macroinvertebrate diversity metrics LK - https://univendspace.univen.ac.za PY - 2023 T1 - Assessing the effects of MACADAMIA ORCHARD pesticide inputs on recipient aquatic ecosystems TI - Assessing the effects of MACADAMIA ORCHARD pesticide inputs on recipient aquatic ecosystems UR - http://hdl.handle.net/11602/2560 ER -