Showing total 3,545 results

1. Multi-Trophic Level Responses to Marine Heatwave Disturbances in the California Current Ecosystem.

Author

Chen TC, Kahru M, Landry MR, Ohman MD, Thompson AR, and Stukel MR

Subjects

Animals, Food Chain, Fishes physiology, Phytoplankton physiology, California, Biomass, Hot Temperature, Ecosystem, Zooplankton physiology

Abstract

Marine heatwaves (MHWs) caused by multiple phenomena with days to months duration are increasingly common disturbances in ocean ecosystems. We investigated the impacts of MHWs on pelagic communities using spatially resolved time-series of multiple trophic levels from the Southern California Current Ecosystem. Indices of phytoplankton biomass mostly declined during MHWs because of reduced nutrient supply (excepting Prochlorococcus) and were generally more sensitive to marine heatwave intensity than duration. By contrast, mesozooplankton (as estimated by zooplankton displacement volume) were somewhat more strongly correlated with MHW duration than intensity. Zooplankton anomalies were also positively correlated with fucoxanthin (diatom) anomalies, highlighting possible bottom-up influences during MHWs. Mobile consumers (forage fish) showed more complex responses, with fish egg abundance declining during MHWs but not correlating with any MHW characteristics. Our findings provide partial evidence of how MHW characteristics can shape variable ecological responses due to the differing life spans and behaviours of different trophic levels., (© 2024 John Wiley & Sons Ltd.)

Published

2024

2. Selected Papers from 1st International Electronic Conference on Biological Diversity, Ecology, and Evolution (BDEE 2021)

Author

Wink, Michael and Wink, Michael

Subjects

Biology, life sciences, Research & information: general, 16S rRNA sequencing, Australian monsoonal tropics, Baikal, Bryodelphax mareki sp. nov, CITES, Cydalima perspectalis, DNA barcoding, Eastern Carpathians, Europe, Eutardigrada, Heterotardigrada, Kalmyk cattle, Kazakh cattle, Kazakh white-headed breed, Kyrgyz cattle, Macrobiotus birendrai sp. nov, Nesamovyte Lake, Poland, Porifera, RDP measures, Rao's quadratic entropy, SDM, Skukuza area, Stevenson-Hamilton supersite, agroecosystems, algae, alien, alpine lake, aquaculture, arthropods, bees, biodiversity, bioindication, bird assemblages, box tree moth, catena ecosystem, cattle, chelonians, climate change, climatic variables, consensus genotypes, conservation, critically endangered, degraded amazon, distribution, diversity, diversity drivers, ecological characteristic, ecological niche model, ecosystem, endangered species, environment, ephemeral mud wallows, eutrophication, exotic species, expansion, foraging ecology, freshwater ecosystems, freshwater fishes, functional richness, generalized additive mixed models, genetic diversity, genomic inbreeding, geographic object-based image analysis (GEOBIA), habitat use, historical specimens, indicators, invasive species, land use change, landscape ecology, machine learning, macroecological patterns, mammal variety, microbiome, microsatellites, mosquitofish, pelomedusidae, pollinators, population structure, red list, runs of homozygosity, sheep, single nucleotide polymorphisms, species presence, sponge disease, taxonomic diversity, translocated, tropical lakes, urban birds, urban management, urbanisation, water bears, wild goats, zooplankton

Abstract

Summary: Due to the COVID-19 pandemic, the character of academic conferences has changed. Formerly, conferences required the physical presence of their members and audiences. However, travel restrictions due to the pandemic caused a shift in the traditional conference format, thus resulting in the rise of online conferences after 2020. In 2021 and 2022, the journal "Diversity" similarly organized online conferences. The well-attended online conference in March of 2021 attracted a wide range of speakers on biodiversity, ecology and evolution, as well as on 17 publications from this Special Issue. The publications cover several timely aspects of biodiversity, such as the importance of invasive species, the ecology of urbanization, the effects of drought on wildlife in Southern Africa, the results of human activities on insect, mammal, bird, reptile and amphibia populations, and the genetic diversity of animal breeds, microbiomes and planktonic organisms. Additionally, taxonomic and biosystematic topics are also covered in several SI publications.

3. Current Advances and Challenges in Ocean Science-Feature Papers for the Founding of Oceans.

Author

Bode, Antonio, Bode, Antonio, Lomas, Michael W., Macías, Diego, and Masqué, Pere

Subjects

Research & information: general, ARGO floats, Anthropocene ocean, Atlantic Ocean, Black Sea, Cayman Islands, Dalatiidae, Delphinus delphis, Demerara Rise, Etmopteridae, HYCOM model, Hiroshima Bay, IAEA, Late Quaternary paleoclimate, Portugal, SAMOA pathway, SIDS, Seychelles, Somniosidae, UN Member States, Ulva, abundance rate, ageing, alkalinity, altimetric data, angular momentum eddy detection and tracking algorithm (AMEDA), arabian sea, biogeochemical modelling, bottom currents, canyon heads, capacity building, capture-recapture, carbon, carbon cycle, chemosynthesis-based communities, climate, common dolphin, composite, counter-illumination, coupled natural-human systems, cyclonic and anticyclonic eddies, deep-sea corals, delamination, dissolved inorganic carbon, ecology, endangered species, eutrophic, fisheries, fluid-flow processes, harmful algal blooms, hormonal control, immersion, luminescence, mark-recapture, maximum number of individuals, millennial-scale variability, monitoring, movement ecology, multidisciplinary approach, nitrogen, nuclear and isotopic techniques, nursery, nutrients, ocean challenges, ocean forecasting, oceanography, phosphorus, photo-identification, photophore, phytoplankton, polyphosphates, pyrophosphatase activity, pyrophosphate, ras al hadd oceanic dipole, reflexivity, regime shift, scientific infrastructure, seafloor mapping, seasonal phytoplankton and inter-annual variation, seawater, seaweed, sediment, seismic faults, shark, slope instabilities, submarine volcanism, sulfur, sustainable development goal 14, tectonic indentation, time series, tropical Atlantic, tsunamis, vulnerable deep-sea habitats, vulnerable marine ecosystem, zooplankton

Abstract

Summary: This Special Issue is designed to celebrate the founding of the open-access journal Oceans and is focused on presenting new ideas and advances at the cutting edge of ocean science. The scope of this Special Issue includes, but is not limited to: ocean geosciences, physics, biogeochemistry, and ecology; ocean ecosystem services and sustainable ocean resource use; and ocean operations and engineering. The fifteen articles published in this Special Issue focus on diverse areas of oceanography, including ocean ecology and biology, ocean geosciences, ocean climate and meteorology, ocean circulation, ocean chemistry and biogeochemistry, ocean resources (e.g., fisheries, aquaculture, and mining), ocean engineering, ocean modeling and ocean governance.

4. Effects of a pulp and paper mill on the ecology of the La Trobe River, Victoria, Australia

Author

G. Scarlett, R. J. MacIntyre, and J. H. Harris

Subjects

Ecology, business.industry, fungi, Outfall, Paper mill, Aquatic Science, Population density, Zooplankton, Benthos, Benthic zone, Littoral zone, Environmental science, Water quality, business

Abstract

Four riverine animal communities were measured to assess the impact of extensively treated wastewater from a pulp and paper mill on the lower La Trobe River in Victoria, Australia. Benthic macroinvertebrates in channel and bankside habitats were sampled using a new air-lift corer. Population density was expressed in relation to substrate volume. Other communities measured at five sites upstream and downstream of the mill's wastewater outfall were the zooplankton, and the animals associated with submerged littoral vegetation. Ten environmental variables were also measured during the two sampling periods.

Published

1992

5. Correction to: Zooplankton secondary production: main methods, overview and perspectives from Brazilian studies.

Subjects

PRODUCTION methods, ZOOPLANKTON

Published

2020

6. A benchmark survey of plankton, fish and benthic composition in Poblacion and Kadurong Reefs in Liloan, Cebu, Philippines

Author

Joana Mie R. Casibo, Brisneve Edullantes, Eukene O. Bensig, Fleurdeliz Maglangit, Angelito M. Ortiz, and Lorraine Louise C. Vicentuan

Subjects

zooplankton, Asia, Coral reef fish, QH301-705.5, Philippines, marine protected area, Biodiversity & Conservation, Biodiversity, Cyanobacteria, Fish stock, water quality, Marine Biota & Ecosystems, Protozoa, Biology (General), Reef, Ecology, Evolution, Behavior and Systematics, geography, reef fish, geography.geographical_feature_category, Ecology, Coral reef, Anthozoa, Livelihood, Data Paper (Biosciences), Fishery, MPA, Habitat, Osteichthyes, phytoplankton, coral reef, Marine protected area

Abstract

Coral reefs offer valuable ecosystem goods and services, such as coastal protection, erosion regulation, fishery, biodiversity, habitat and nursery grounds. However, they face threats from anthropogenic activities, including poor water quality, global warming, coastal development and unsustainable fisheries. Marine Protected Areas (MPAs) provide a structured and holistic approach in addressing these threats. Regular monitoring and assessment of these MPAs are crucial components in evaluating the MPAs design and effectiveness. Two coral reefs (i.e. Poblacion and Kadurong Reefs) were established as MPAs in Liloan, Cebu, Philippines to protect crucial habitat and biodiversity with the hope of improving fisheries by avoiding fish stock disintegration. These coral reefs provide shelter to many commercially-significant fish species, supporting subsistence and livelihood in the community. These MPAs are not only biologically rich, but they also support socio-economic stability. Hence, management and protection of the coral reefs in the MPAs of Liloan, Cebu is of paramount importance. To formulate conservation and applicable management measures, research and monitoring should be in place. This paper presents the data collected from the short term monitoring in the Poblaction and Kadurong Reefs. The paper describes an important set of data that can be used by the stakeholders to benchmark biophysical assessments for management of marine-protected areas in Liloan. This data paper provides baseline information on the health of the coral reefs of the MPAs in Liloan, Cebu. Datasets covering physico-chemical and biological parameters inclusive of water quality, coral reef cover, fish and plankton occurrence and abundance were determined using the standard protocols for surveying tropical marine resources. The results will serve as a benchmark in formulating guidelines and implementing relevant policies for the effective management and protection of the MPAs in Liloan, Cebu, Philippines.

Published

2021

7. Research trends in nano- and microplastic ingestion in marine planktonic food webs.

Author

Rodríguez-Torres R, Rist S, Almeda R, Nielsen TG, Pedrotti ML, and Hartmann NB

Subjects

Animals, Eating, Environmental Monitoring, Plankton, Plastics, Food Chain, Microplastics, Water Pollutants, Chemical analysis, Zooplankton

Abstract

Over the past decade, microplastic research on ingestion and impacts in marine biota has received significant attention. Zooplankton has become a subject of interest due to their crucial role in marine food webs. This review focuses on trends in nano- and microplastics (NMPs) ingestion studies in marine zooplankton. Four groups of organisms were considered: protozoans, holoplankton, meroplankton and ichthyoplankton. Of 120 reviewed articles, holoplankton was the most studied group, with laboratory experiments dominating over field studies. Although NMPs sizes and polymer types are diversifying in laboratory experiments, their characteristics are still far from representing the complexity of NMPs found in nature. Polystyrene (as polymer type) and beads (as shape) are overrepresented in laboratory experiments (54% and 79%, respectively). Furthermore, most NMPs concentrations used in the laboratory exceed those found in the field. The units used to report ingestion of NMPs in zooplankton vary greatly, with "microplastics per individual" being the most frequently used. In addition, certain planktonic groups (e.g., protozoans and ichthyoplankton) and behavioral traits, such as ambush feeding, have been poorly investigated. This variability hampers comparisons between studies and thus mechanistic insights into NMPs ingestion in marine zooplankton. This review identifies research gaps and it highlights the ongoing disparity between environmental and laboratory conditions in zooplankton ingestion studies. We encourage the scientific community to harmonize the reporting units for NMPs ingestion and focus on more environmentally realistic studies with a trait-based approach. Transitioning towards more hypothesis-driven experiments is crucial to clarify the mechanistic importance of environmentally relevant microplastic features., 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 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2024

8. Comparison of zooplankton assimilation of different carbon sources and fatty acids in a eutrophic lake and its restored basins.

Author

Su Y, Ma J, Wu Z, Guan B, and Li K

Subjects

Animals, Eutrophication, Carbon Isotopes analysis, Seasons, Zooplankton metabolism, Lakes, Fatty Acids metabolism, Fatty Acids analysis, Carbon metabolism, Phytoplankton metabolism

Abstract

The ecological restoration of eutrophic lakes significantly influences the food composition of zooplankton. Zooplankton serve as the principal trophic link, transferring energy from phytoplankton to fish. Understanding the alterations in zooplankton carbon source compositions following ecological restoration and the seasonal variations in this relationship is crucial. This study employs stable carbon isotope (δ 13 C) and fatty acid (FA) analyses to investigate the seasonal changes in carbon source contributions to zooplankton between the restored and unrestored segments of Lake Xuanwu. Results from FA analysis reveal higher proportions of algal dietary markers in zooplankton FAs in both segments during spring and autumn. Summer exhibits a shift with zooplankton utilizing more bacterial FAs in the restored part and more algal FAs in the unrestored part. While approaching winter, zooplankton in the restored part consume more algal FAs but less in the unrestored part. Zooplankton FAs enriched in δ 13 C are associated with assimilation of more terrestrial carbon, contrasting with depleted δ 13 C when zooplankton relies more on phytoplankton. Isotope mixing models indicate a substantial contribution of terrestrial carbon to zooplankton carbon sources, especially in autumn (42.3% unrestored, 51.2% restored) and winter (41.4% unrestored, 36.8% restored), while phytoplankton has a higher contribution in summer (34.5% restored, 46.9% unrestored). These findings contribute to a comprehensive understanding of carbon cycling variations in food webs between eutrophic lakes and ecologically restored lakes., 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

9. Methylparaben changes the community composition, structure, and assembly processes of free-living bacteria, phytoplankton, and zooplankton.

Author

Wang M, Wang S, Li H, Mao Z, Lu Y, Cheng Y, Han X, Wang Y, Liu Y, Wan S, Zhou LJ, and Wu QL

Subjects

Animals, Microbiota drug effects, Biodiversity, Phytoplankton drug effects, Zooplankton drug effects, Parabens analysis, Bacteria drug effects, Bacteria classification, Water Pollutants, Chemical analysis, Water Pollutants, Chemical toxicity

Abstract

Parabens are common contaminants in river and lake environments. However, few studies have been conducted to determine the effects of parabens on bacteria, phytoplankton, and zooplankton communities in aquatic environments. In this study, the effect of methylparaben (MP) on the diversity and community structure of the aquatic plankton microbiome was investigated by incubating a microcosm with MP at 0.1, 1, 10, and 100 μg/L for 7 days. The results of the Simpson index showed that MP treatment altered the α-diversity of free-living bacteria (FL), phytoplankton, and zooplankton but had no significant effect on the α-diversity of particle-attached bacteria (PA). Further, the relative abundances of the sensitive bacteria Chitinophaga and Vibrionimonas declined after MP addition. Moreover, the relative abundances of Desmodesmus sp. HSJ717 and Scenedesmus armatus, of the phylum Chlorophyta, were significantly lower in the MP treatment group than in the control group. In addition, the relative abundance of Stoeckeria sp. SSMS0806, of the Dinophyta phylum, was higher than that in the control group. MP addition also increased the relative abundance of Arthropoda but decreased the relative abundance of Rotifera and Ciliophora. The β-diversity analysis showed that FL and phytoplankton communities were clustered separately after treatment with different MP concentrations. MP addition changed community assembly mechanisms in the microcosm, including increasing the stochastic processes for FL and the deterministic processes for PA and phytoplankton. Structural equation modeling analysis showed a significant negative relationship between bacteria richness and phytoplankton richness, and a significant positive relationship between phytoplankton (richness and community composition) and zooplankton. Overall, this study emphasizes that MP, at environmental concentrations, can change the diversity and structure of plankton microbial communities, which might have a negative effect on ecological systems., 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 Inc. All rights reserved.)

Published

2024

10. Do red tide events promote an increase in zooplankton biodiversity?

Author

Song CU, Purnaningtyas DW, Choi H, Jeon D, Kim S, Hwang H, Kim CG, Lee YH, and Eyun SI

Subjects

Animals, Harmful Algal Bloom, Republic of Korea, Food Chain, Ecosystem, Seasons, Environmental Monitoring, Zooplankton physiology, Biodiversity

Abstract

Red tides occurring off the southern coast of Korea impact the marine ecosystem and aquaculture industries. Zooplankton are crucial in the food web, connecting primary producers to higher predators and interact diversely with red tide organisms. This study explores dynamics of the zooplankton community over seven years including three red tide and four non-red tide years in Tongyeong using metabarcoding. In non-red tide years, zooplankton diversity showed typical seasonal patterns, increasing from June to early October. However, during red tide years, diversity remained high, with a shift in species composition-decreased Copepoda and increased Branchiopoda, Echinodermata, Malacostraca, and Annelida. Diversity indices were significantly higher in red tide years across all periods except for the richness in "after" that showed an insignificant higher value. The differences in zooplankton assemblages across periods were influenced by surface temperatures and the density of the red tide-causing alga Margalefidinium polykrikoides. Eight species emerged as indicator species and showed direct correlations with M. polykrikoides and among them, seven species were indicator species for red tide occurrence years. The ecological characteristics of M. polykrikoides blooms and their recurrent occurrences over several decades suggest that zooplankton may adapt to the toxins and use these blooms as spawning cues. Overall, this study provides comprehensive understanding on changes in zooplankton communities during red tide events, offering novel insights into their ecology., 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 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2024

11. Driving mechanism of land use and landscape pattern to phytoplankton and zooplankton community and their trophic interactions in river ecosystems.

Author

Hao L, Zhang Y, Shen Y, Liu Y, Gao H, and Guo P

Subjects

Animals, Phytoplankton, Zooplankton, Rivers, Ecosystem

Abstract

The trophic interactions between phytoplankton and zooplankton communities are essential for maintaining river ecosystem integrity and health. However, the driving mechanisms of land use and landscape patterns (LULP) affecting their trophic interactions are not fully understood. Therefore, the research objective of this study was to reveal the driving mechanisms of LULP on the interaction of phytoplankton with zooplankton through remote sensing interpretation of LULP in different buffer scales (500 m, 1000 m, 1500 m, and catchment), combined with water environment factors and plankton community structures analyzed. Results showed that LULP had the most significant effect on the phytoplankton and the zooplankton community structure at 500 and 1500 m buffer scales, respectively. Construction land (CON) and edge density (ED) most influenced phytoplankton and zooplankton community structure and their influence mechanisms were identified, i.e., CON increased the species (S) of phytoplankton by increasing the concentration of NO 3 -N in river water at the 500 m buffer scale. ED reduced the biological density (BD) of zooplankton by decreasing the concentration of heavy metal (HM) in river water at the 1500 m buffer scale. The water area (WAT) and ED showed the most significant influence on plankton interaction. Three pathways were found to explain their influence mechanisms, i.e., ED decreased the BD or Shannon-Weiner index (H') of zooplankton by increasing the dissolved oxygen (DO) to enhance BD of phytoplankton in river water at the 1500 m buffer scale; the WAT increased the BD of phytoplankton by increasing water temperature to reduce the H' of zooplankton at the 500 m buffer. These findings have implications for effective ecological planning of future human activities in the stream domain and maintaining river ecosystem health., 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

12. The impact of microplastics on lake communities: A mesocosm study.

Author

Norhayati AM, Matthaei CD, and Ingram T

Subjects

Animals, Perches physiology, Plastics analysis, Invertebrates drug effects, Fishes, Lakes chemistry, Microplastics toxicity, Microplastics analysis, Water Pollutants, Chemical analysis, Water Pollutants, Chemical toxicity, Zooplankton drug effects, Food Chain, Environmental Monitoring

Abstract

Plastics are pervasive pollutants that are being produced at an increasing rate to meet consumer demands. After entering the environment, plastics can break down, creating smaller fragments, including secondary microplastics. Microplastic contamination in lakes has been recorded worldwide, and the ingestion of microplastics has been documented in zooplankton, macroinvertebrates, and fish. Microplastic ingestion and exposure can cause varying deleterious effects on these organism groups, but the impact of realistic microplastic concentrations on whole freshwater food webs requires further study. We addressed these knowledge gaps by conducting an 8-week experiment factorially crossing microplastic addition at a concentration of 1.5 particles/L with a fish predator (perch, Perca fluviatilis) presence in 1200-L outdoor mesocosms. Microplastic exposure had time-varying effects on zooplankton abundance, with a lower abundance of zooplankton in plastic treatments at the end of the experiment. Although microplastics had no impact on total macroinvertebrate abundance, there were effects on individual taxa. In the presence of microplastics, the cased caddisfly Triplectides spp. had a significantly lower abundance, which may have led to an increase in the snail Gyraulus spp. in week eight. Across the benthic and pelagic invertebrate communities, there were near-significant compositional differences between control and plastic treatments. These findings indicate that microplastic exposure may negatively impact freshwater invertebrate communities, even at low, field-realistic concentrations representative of the densities currently found in lakes., 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. Published by Elsevier Ltd.)

Published

2024

13. Impacts of nano- and micro-plastics exposure on zooplankton grazing, bacterial communities, and dimethylated sulfur compounds production in the microcosms.

Author

Jiang Y, Yu J, Chen R, Wang S, Yang GP, Liu LF, and Song XR

Subjects

Animals, Microplastics toxicity, Sulfur Compounds, Sulfides toxicity, Nanoparticles toxicity, Chlorophyll A metabolism, Plastics, Zooplankton drug effects, Bacteria metabolism, Bacteria drug effects, Water Pollutants, Chemical toxicity, Water Pollutants, Chemical metabolism

Abstract

Dimethyl sulfide (DMS) is a prevalent volatile organic sulfur compound relevant to the global climate. Ecotoxicological effects of nano- and microplastics (NPs and MPs) on phytoplankton, zooplankton, and bacteria have been investigated by numerous studies. Yet, the influences of NPs/MPs on dimethylated sulfur compounds remains understudied. Herein, we investigated the impacts of polystyrene (PS) NPs/MPs (80 nm, 1 μm, and 10 μm) on zooplankton grazing, chlorophyll a (Chl a) concentration, bacterial community, dimethylsulfoniopropionate (DMSP), and DMS production in the microcosms. Our findings revealed that rotifer grazing increased the production of DMS in the absence of NPs/MPs but did not promote DMS production when exposed to NPs/MPs. The ingestion rates of the rotifer and copepod exposed to NPs/MPs at high concentrations were significantly reduced. NPs/MPs exposure significantly decreased DMS levels in the treatments with rotifers compared to the animal controls. In the bacterial microcosms, smaller NPs/MPs sizes were more detrimental to Chl a concentrations compared to larger sizes. The study revealed a stimulatory effect on Chl a concentrations, DMSP d concentrations, and bacterial abundances when exposed to 10 μm MP with low concentrations. The effects of NPs/MPs on DMS concentrations were both dose- and size-dependent, with NPs showing greater toxicity compared to larger MPs. NPs/MPs led to changes in bacterial community compositions, dependent on both dosage and size. NPs caused a notable decrease in the alpha diversities and richness of bacteria compared to MPs. These results provide insights into the influences of NPs/MPs on food webs, and subsequently organic sulfur compounds cycles., 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

14. Reducing the model-data misfit in a marine ecosystem model using periodic parameters and Linear Quadratic Optimal Control.

Author

Jarbi, M. El, Rückelt, J., Slawig, T., and Oschlies, A.

Subjects

MARINE ecology, BIOTIC communities, MATHEMATICAL models, PARAMETER estimation, H2 control, ZOOPLANKTON, PHYTOPLANKTON, OCEAN circulation

Abstract

This paper presents the application of the Linear Quadratic Optimal Control (LQOC) method for a parameter optimization problem in a marine ecosystem model. The ecosystem model simulates the distribution of nitrogen, phytoplankton, zooplankton and detritus in a water column with temperature and turbulent diffusivity profiles taken from a three-dimensional ocean circulation model.We present the linearization method which is based on the available observations. The linearization is necessary to apply the LQOC method on the nonlinear system of state equations. We show the form of the linearized time-variant problems and the resulting two algebraic Riccati Equations. By using the LQOC method, we are able to introduce temporally varying periodic model parameters and to significantly improve -- compared to the use of constant parameters -- the fit of the model output to given observational data. [ABSTRACT FROM AUTHOR]

Published

2012

15. Seasonal refuge patterns of phytoplankton trigger irregular bloom events in a contaminated environment.

Author

Mandal A, Biswas S, Tiwari PK, and Pal S

Subjects

Animals, Eutrophication, Ecosystem, Models, Theoretical, India, Phytoplankton physiology, Phytoplankton growth & development, Seasons, Zooplankton physiology

Abstract

Several experimental evidences and field data documented that zooplankton may alter its behavioral response in the presence of toxic phytoplankton, reducing its consumption to the point of starvation. This paper is devoted to the mathematical study of such interactions of toxic phytoplankton with grazer zooplankton. The non-toxic phytoplankton is assumed to adopt a density-dependent refuge strategy to avoid over-predation by zooplankton. Both groups of phytoplankton are assumed to suffer direct harm from anthropogenic toxicants, while zooplankton is affected indirectly by ingesting contaminated phytoplankton. We calibrate the proposed model with the field data from Talsari and Digha Mohana, India, and estimate some crucial model parameters consistent with the behavior of the observed data. Our results demonstrate that zooplankton grazing on toxic phytoplankton plays a key role in the emergence or mitigation of plankton blooms. We also highlight the system's potential to exhibit multiple stable configurations under the same ecological conditions. The plankton system experiences significant regime shifts, which are explored through various bifurcation scenarios, such as transcritical and saddle-node bifurcations. These shifts are influenced by changes in refuge capacity, species growth rates, and environmental carrying capacity. Furthermore, we incorporate environmental variations due to seasonal periodic or almost periodic changes, allowing the refuge parameter to be time-dependent. We observe that the forced system exhibits double periodic solutions. Moreover, stronger seasonal variations in the refuge pattern lead to irregular chaotic blooms. In conclusion, the results offer valuable insights into the sustainability of biodiversity, potentially shedding light on the origin of diverse plankton bloom phenomena., (© 2024. The Author(s).)

Published

2024

16. Evaluation of the Adriatic Sea pollution using mesozooplankton as an environmental indicator.

Author

Villa B, Bettinetti R, Santolini C, Monticelli D, Corti C, Binda G, Mastore M, Magni G, Pachner J, Liguori G, Zanoletti A, and Boldrocchi G

Subjects

Animals, Metals analysis, Mediterranean Sea, Metals, Heavy analysis, Oceans and Seas, Zooplankton, Environmental Monitoring methods, Water Pollutants, Chemical analysis, DDT analysis, Polychlorinated Biphenyls analysis

Abstract

The Adriatic Sea is an enclosed basin threatened by marine pollution due to its hydrographic features and anthropogenic pressure. Although zooplankton has been worldwide regarded as an immediate warning signal of contamination, limited information is available on the contamination of these organisms at the Adriatic level. Hence, this study provides comprehensive data on the presence and levels of multiple pollutants in zooplankton collected from 46 locations. With regards to legacy contaminants, both PCB and DDT levels have declined since the 1980s. Specifically, most samples were characterized by low DDT contamination (average of 3 ± 2.7 ng g - 1 dry weight) and only few of these accumulated levels of concern for what concerns PCB, pointing out possible hotspots of contamination in the central-eastern Adriatic Sea. As regards metal(loid)s, the Metal Pollution Index identified areas of concern in the north Adriatic Sea (Gulf of Venice) with high levels of Co, Cu, Hg, Cr and Pb; in the Central Adriatic Sea (Tremiti islands) with high levels of Co, Ni, Hg, Cr and Pb; in the Southern Adriatic Sea (Taranto and offshore Corfu), with high levels of most metal(loid)s, especially Cr, Ni and Zn. Certain metal(loid)s (e.g. Cd, Pb and Hg) have declined over time and most of them are lower than well-known contaminated worldwide marine ecosystems. Only Cu appears to be particularly high in the Mediterranean zooplankton. Overall, this work suggests a general improvement of the status of contamination of the Adriatic Sea., 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 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2024

17. Effect of an antidepressant on aquatic ecosystems in the presence of microplastics: A mesocosm study.

Author

Vasantha Raman N, Gebreyohanes Belay BM, South J, Botha TL, Pegg J, Khosa D, Mofu L, Walsh G, Jordaan MS, Koelmans AA, Teurlincx S, Helmsing NR, de Jong N, van Donk E, Lürling M, Wepener V, Fernandes TV, and de Senerpont Domis LN

Subjects

Animals, Antidepressive Agents pharmacology, Phytoplankton drug effects, Environmental Monitoring, Biomass, Water Pollutants, Chemical toxicity, Microplastics toxicity, Ecosystem, Fluoxetine, Daphnia drug effects, Daphnia physiology, Zooplankton drug effects, Food Chain

Abstract

Emerging pollutants, such as pharmaceuticals and microplastics have become a pressing concern due to their widespread presence and potential impacts on ecological systems. To assess the ecosystem-level effects of these pollutants within a multi-stressor context, we simulated real-world conditions by exposing a near-natural multi-trophic aquatic food web to a gradient of environmentally relevant concentrations of fluoxetine and microplastics in large mesocosms over a period of more than three months. We measured the biomass and abundance of different trophic groups, as well as ecological functions such as nutrient availability and decomposition rate. To explore the mechanisms underlying potential community and ecosystem-level effects, we also performed behavioral assays focusing on locomotion parameters as a response variable in three species: Daphnia magna (zooplankton prey), Chaoborus flavicans larvae (invertebrate pelagic predator of zooplankton) and Asellus aquaticus (benthic macroinvertebrate), using water from the mesocosms. Our mesocosm results demonstrate that presence of microplastics governs the response in phytoplankton biomass, with a weak non-monotonic dose-response relationship due to the interaction between microplastics and fluoxetine. However, exposure to fluoxetine evoked a strong non-monotonic dose-response in zooplankton abundance and microbial decomposition rate of plant material. In the behavioral assays, the locomotion of zooplankton prey D. magna showed a similar non-monotonic response primarily induced by fluoxetine. Its predator C. flavicans, however, showed a significant non-monotonic response governed by both microplastics and fluoxetine. The behavior of the decomposer A. aquaticus significantly decreased at higher fluoxetine concentrations, potentially leading to reduced decomposition rates near the sediment. Our study demonstrates that effects observed upon short-term exposure result in more pronounced ecosystem-level effects following chronic exposure., 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 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2024

18. Combined effects of heat waves and pesticide pollution on zooplankton communities: Does the timing of stressor matter?

Author

García-Astillero A, Polazzo F, and Rico A

Subjects

Animals, Wetlands, Daphnia drug effects, Daphnia physiology, Hot Temperature, Pesticides toxicity, Insecticides toxicity, Stress, Physiological drug effects, Ecosystem, Environmental Monitoring methods, Zooplankton drug effects, Chlorpyrifos toxicity, Water Pollutants, Chemical toxicity

Abstract

Most studies assessing the combined effects of chemical and non-chemical stressors on aquatic ecosystems have been based on synchronous stressor applications. However, asynchronous exposure scenarios may be more common in nature, particularly for pulsed stressors such as heatwaves and pesticide concentration peaks. In this study, we investigated the single and combined effects of the insecticide chlorpyrifos (CPF) and a heatwave (HW) on a zooplankton community representative of a Mediterranean coastal wetland using synchronous (CPF+HW) and asynchronous (HW→CPF and CPF→HW) exposure scenarios. CPF was applied at a concentration of 0.8 µg/L (single pulse), and the HW was simulated by a temperature increase of 8°C above the control temperature (20°C) for 7 days in freshwater microcosms. The interaction between stressors in synchrony resulted in synergistic effects at the population level (Daphnia magna) and additive at the community level. The partial reduction of sensitive species resulted in an abundance increase of competing species that were more tolerant to the evaluated stressors (e.g. Moina sp.). The asynchronous exposure scenarios resulted in a similar abundance decline of sensitive populations as compared to the synchronous one; however, the timing of stressor resulted in different responses in the long term. In the HW→CPF treatment, the D. magna population recovered at least one month faster than in the CPF+HW treatment, probably due to survival selection and cross-tolerance mechanisms. In the CPF→HW treatment, the effects lasted longer than in the CPF+HW, and the population did not recover within the experimental period, most likely due to the energetic costs of detoxification and effects on internal damage recovery. The different timing and magnitude of indirect effects among the tested asynchronous scenarios resulted in more severe effects on the structure of the zooplankton community in the CPF→HW treatment. Our study highlights the relevance of considering the order of stressors to predict the long-term effects of chemicals and heatwaves both at the population and community levels., 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 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2024

19. Status of the transfer state of 137 Cs in zooplankton and surface water fish off Fukushima during 2018-2021.

Author

Tateda Y, Nishikawa J, Aoyama M, Takata H, Hamajima Y, and Aono T

Subjects

Animals, Japan, Seawater chemistry, Cesium Radioisotopes analysis, Water Pollutants, Radioactive analysis, Zooplankton, Fukushima Nuclear Accident, Radiation Monitoring, Fishes metabolism

Abstract

Radiocaesium introduced to coastal waters by the accident at the Fukushima Dai-ichi Nuclear Power Station (F1NPS) elevated the radioactivity level in biota. The radionuclide level in zooplankton, concentration of 137 Cs radioactivity in surface water fish decreased rapidly, which was the primary food source for planktivorous fish, was recognized as not to be depurated at the same level prior to the accident. To evaluate the possible cause of this phenomenon, zooplankton and surface water fish were collected off Fukushima during 2018-2021, and the presence of radioactive particles was also examined. The concentrations of stable Cs and 137 Cs radioactivity were analysed along with aluminium which was an indicator element of Cs that originated from suspended particles which were attached to or ingested by zooplankton. As a result, radioactive particles were often found in coastal zooplankton samples, and stable Cs and 137 Cs of this inorganic fraction were identified. After removal of this excess radioactivity, the 137 Cs radioactivity in whole-body tissue of zooplankton was derived. However, the level in the soft part of zooplankton during 2018-2020 was still greater than the levels which existed before 2010. Since habitat seawater was understood to not be a substantial source of 137 Cs, then 137 Cs transfer along the food chain, possibly from phytoplankton or detritus of enhanced radioactivity were suggested as important sources of 137 Cs. In addition, enhanced 137 Cs radioactivity in zooplankton was considered consequently elevate radioactivity levels in surface-dwelling water fish off Fukushima. Although the radioactivity level was not radiologically significant in relation to seafood safety limit, enhanced 137 Cs radioactivity levels in biota was demonstrated in southern waters off Fukushima. In contrast, derived 137 Cs/ 133 Cs atom ratios of fish and seawater south of 37°E and west from 142°E indicated that radiocaesium transfer between fish and the environment was in an equilibrium state, showing the environment beyond these geographical coordinates had returned to the pre-accident state., Competing Interests: Declaration of competing interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Yutaka TATEDA reports a relationship with Tokyo Electric Power Company Holdings Inc that includes: consulting or advisory. If there are other authors, they 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

20. Near-natural streams: Spatial factors are key in shaping multiple facets of zooplankton α and β diversity.

Author

Lv Y, Liu G, Wang Y, Wang Y, Jin X, Chen H, and Wu N

Subjects

Animals, Phylogeny, Ecosystem, Zooplankton classification, Rivers, Biodiversity

Abstract

In near-natural basins, zooplankton are key hubs for maintaining aquatic food webs and organic matter cycles. However, the spatial patterns and drivers of zooplankton in streams are poorly understood. This study registered 165 species of zooplankton from 147 sampling sites (Protozoa, Rotifers, Cladocera and Copepods), integrating multiple dimensions (i.e., taxonomic, functional, and phylogenetic) and components (i.e., total, turnover, and nestedness) of α and β diversity. This study aims to reveal spatial patterns, mechanisms, correlations, and relative contribution of abiotic factors (i.e., local environment, geo-climatic, land use, and spatial factors) through spatial interpolation (ordinary kriging), mantel test, and variance partitioning analysis (VPA). The study found that α diversity is concentrated in the north, while β diversity is more in the west, which may be affected by typical habitat, hydrological dynamics and underlying mechanisms. Taxonomic and phylogenetic β diversity is dominated by turnover, and metacommunity heterogeneity is the result of substitution of species and phylogeny along environmental spatial gradients. Taxonomic and phylogenetic β diversity were strongly correlated (r from 0.91 to 0.95), mainly explained by historical/spatial isolation processes, community composition, generation time, and reproductive characteristics, and this correlation provides surrogate information for freshwater conservation priorities. In addition, spatial factors affect functional and phylogenetic α diversity (26%, 28%), and environmental filtering and spatial processes combine to drive taxonomic α diversity (10%) and phylogenetic β diversity (11%). Studies suggest that spatial factors are key to controlling the community structure of zooplankton assemblages in near-natural streams, and that the relative role of local environments may depend on the dispersal capacity of species. In terms of diversity conservation, sites with high variation in uniqueness should be protected (i) with a focus on the western part of the thousand islands lake catchment and (ii) increasing effective dispersal between communities to facilitate genetic and food chain transmission., 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 Inc. All rights reserved.)

Published

2024

21. A circumpolar study of surface zooplankton biodiversity of the Southern Ocean based on eDNA metabarcoding.

Author

Zhang Z, Bao Y, Fang X, Ruan Y, Rong Y, and Yang G

Subjects

Animals, Antarctic Regions, Oceans and Seas, Seawater, Zooplankton genetics, Zooplankton classification, Biodiversity, DNA Barcoding, Taxonomic methods

Abstract

Under pressure from climate change and fishing, the Southern Ocean ecosystems have been changing. Zooplankton plays a vital role in the food web of the Southern Ocean and is crucial for maintaining ecosystem stability. Investigating the circumpolar-scale species composition and biodiversity of zooplankton is crucial for ensuring ecosystem-based conservation and management of the Southern Ocean in a changing climate. Here, we utilized eDNA metabarcoding to assess the biodiversity of zooplankton in the surface seawater surrounding the Antarctica based on samples collected during two expeditions spanning from 2021 to 2022. The main purpose of this paper is to provide more baseline information about circumpolar zooplankton biodiversity based on the emerging eDNA metabarcoding tool. This comprehensive approach led to the identification of over 300 distinct zooplankton species, forming a diverse community dominated by Jellyfish, Mollusca and Polychaete. Surprisingly, common dominant taxonomic groups such as krill and copepods in the Southern Ocean did not show high relative abundance (reads) in surface seawater. The results of redundancy analysis (RDA) and correlation analysis highlighted that water temperature and chlorophyll a had the most significant impact on the reads and diversity of zooplankton. Notably, the influence of water temperature on zooplankton seemed to be primarily indirect, potentially mediated by its effects on primary productivity. Increasing in primary production might lead to lower zooplankton biodiversity in the Southern Ocean in future. This research underscores the effectiveness of eDNA metabarcoding as a valuable tool for monitoring zooplankton diversity in open seas. Given the ongoing changes in temperature, sea ice extent and their impact on primary production, our findings lay a crucial foundation for using eDNA techniques to establish long-term biodiversity monitoring programs across extensive marine ecosystems in the future., 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 Inc. All rights reserved.)

Published

2024

22. Assembly mechanism and stability of zooplankton communities affected by China's south-to-north water diversion project.

Author

Hu M, Zhu Y, Hu X, Zhu B, Lyu S, A Y, and Wang G

Subjects

Animals, China, Water Quality, Nitrogen analysis, Zooplankton, Lakes

Abstract

Water diversion can effectively alleviate water resource shortages and improve water environmental conditions, while also causing unknown ecological consequences, in particular, the assembly mechanism of zooplankton communities in the affected areas will become more complex after long-term water transfer. Taking Nansi Lake, the second largest impounded lake along the eastern route of China's South to North Water Diversion Project (SNWDP), as an example, the composition and diversity of zooplankton communities in the lake area and estuaries during the water diversion period (WDP) and non-water diversion period (NWDP) were studied. The potential assembly process of zooplankton communities was further explored, and the stability of communities in different regions during different periods was compared. The related results indicated that the changes in water quality conditions induced by water diversion had a relatively weak impact on the zooplankton communities. In the assembly mechanism of zooplankton communities, stochastic process played a more important role during both WDP or NWDP, and the proportion of deterministic process was relatively higher during NWDP, which may be related to the greater role of total nitrogen (TN) in the assembly of the zooplankton communities. The network analysis and cohesion calculation results showed that the stability of the zooplankton communities in the lake area sites was higher than that in the estuary sites, and the stability during NWDP was higher than that during WDP. In sum, the stability of zooplankton communities displayed a degree of change affected by water diversion activities, but the community assembly was not significantly influenced by the water quality fluctuations after about relatively long-term water diversion. This study provides an in-depth understanding of the ecological effects of water diversion on the biological communities in the affected lake, which is beneficial to the management and regulation of long-term water diversion projects., 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

23. Dynamical Study of an Eco-Epidemiological Delay Model for Plankton System with Toxicity

Author

Archana Ojha, Nilesh Kumar Thakur, and Smriti Chandra Srivastava

Subjects

General Mathematics, Population, Chaotic, General Physics and Astronomy, 01 natural sciences, Stability (probability), Zooplankton, 010305 fluids & plasmas, symbols.namesake, 0103 physical sciences, Carrying capacity, Quantitative Biology::Populations and Evolution, education, 010301 acoustics, Mathematics, Equilibrium point, Hopf bifurcation, education.field_of_study, Toxicity, fungi, General Chemistry, Plankton, System dynamics, Local stability, Hopf-bifurcation, symbols, General Earth and Planetary Sciences, Chaos, General Agricultural and Biological Sciences, Biological system, Time delay, Research Paper

Abstract

In this paper, we analyze the complexity of an eco-epidemiological model for phytoplankton–zooplankton system in presence of toxicity and time delay. Holling type II function response is incorporated to address the predation rate as well as toxic substance distribution in zooplankton. It is also presumed that infected phytoplankton does recover from the viral infection. In the absence of time delay, stability and Hopf-bifurcation conditions are investigated to explore the system dynamics around all the possible equilibrium points. Further, in the presence of time delay, conditions for local stability are derived around the interior equilibria and the properties of the periodic solution are obtained by applying normal form theory and central manifold arguments. Computational simulation is performed to illustrate our theoretical findings. It is explored that system dynamics is very sensitive corresponding to carrying capacity and toxin liberation rate and able to generate chaos. Further, it is observed that time delay in the viral infection process can destabilize the phytoplankton density whereas zooplankton density remains in its old state. Incorporation of time delay also gives the scenario of double Hopf-bifurcation. Some control parameters are discussed to stabilize system dynamics. The effect of time delay on (i) growth rate of susceptible phytoplankton shows the extinction and double Hopf-bifurcation in the zooplankton population, (ii) a sufficiently large value of carrying capacity stabilizes the chaotic dynamics or makes the whole system chaotic with further increment.

Published

2021

24. Temperature effects on egg and larval development rate in European smelt, <scp> Osmerus eperlanus </scp> , experiments and a 50 year hindcast

Author

Marieke Keller, Joep de Leeuw, Adriaan D. Rijnsdorp, Wolf M. Mooij, Pieke Molenaar, Karen E. van de Wolfshaar, and Aquatic Ecology (AqE)

Subjects

0106 biological sciences, Aquatic Ecology and Water Quality Management, Zygote, Population, Aquatic Science, 010603 evolutionary biology, 01 natural sciences, Zooplankton, Degree day, Onderz. Form. D, degree day, Human fertilization, Animal science, Regular Paper, Onderz. Form. B, Animals, Osmerus eperlanus, incubation experiment, education, Ecology, Evolution, Behavior and Systematics, Larva, education.field_of_study, Plan_S-Compliant-TA, biology, Business Manager projecten Midden-Noord, 010604 marine biology & hydrobiology, Mortality rate, Regular Papers, Temperature, national, Aquatische Ecologie en Waterkwaliteitsbeheer, biology.organism_classification, Lakes, IJsselmeer, multinomial model, Osmeriformes, Smelt, Business Manager projects Mid-North, Arrhenius temperature

Abstract

This study investigates the effect of water temperature on the development rate of eggs and larvae, the duration of the endogenous feeding period and its consequences for recruitment of smelt (Osmerus eperlanus ) in Dutch lakes IJsselmeer and Markermeer. This study measured temperature‐dependent egg and larval development rates as well as mortality rates from fertilization till the moment of absorption of the yolk‐sac and from yolk‐sac depletion onwards in temperature‐controlled indoor experiments. Using multinomial modelling the authors found significant differences in development time of egg development stages under different temperature regimes. Based on historic water temperatures, the model predicted that the larval endogenous feeding period has advanced at a rate of about 2.9 days per decade in a more than 50 year period since 1961, yet there was no change in the duration of the endogenous feeding period. As zooplankton is more responsive to daylight than water temperature cues, a mismatch between the peak of the onset of exogenous feeding of smelt and the peak of zooplankton blooms could lead to high mortality and therefore low recruitment of smelt. Such a mismatch might contribute to a decline in the smelt population in Lake IJsselmeer and Lake Markermeer.

Published

2020

25. Modeling the avoidance behavior of zooplankton on phytoplankton infected by free viruses

Author

Pankaj Kumar Tiwari, Saswati Biswas, Ezio Venturino, Samares Pal, and Francesca Bona

Subjects

Avoidance behavior, Chaos, Free-virus, Global sensitivity, Phytoplankton, Zooplankton, 0301 basic medicine, Population, Biophysics, Force of infection, Biology, Models, Biological, 01 natural sciences, 03 medical and health sciences, Transcritical bifurcation, 0103 physical sciences, Avoidance Learning, Animals, Ecosystem, education, Molecular Biology, Paradox of enrichment, Original Paper, education.field_of_study, Extinction, 010304 chemical physics, Ecology, fungi, Cell Biology, Atomic and Molecular Physics, and Optics, 030104 developmental biology

Abstract

In any ecosystem, chaotic situations may arise from equilibrium state for different reasons. To overcome these chaotic situations, sometimes the system itself exhibits some mechanisms of self-adaptability. In this paper, we explore an eco-epidemiological model consisting of three aquatic groups: phytoplankton, zooplankton, and marine free viruses. We assume that the phytoplankton population is infected by external free viruses and zooplankton get affected on consumption of infected phytoplankton; also, the infected phytoplankton do not compete for resources with the susceptible one. In addition, we model a mechanism by which zooplankton recognize and avoid infected phytoplankton, at least when susceptible phytoplankton are present. The zooplankton extinction chance increases on increasing the force of infection or decreasing the intensity of avoidance. Further, when the viral infection triggers chaotic dynamics, high zooplankton avoidance intensity can stabilize again the system. Interestingly, for high avoidance intensity, nutrient enrichment has a destabilizing effect on the system dynamics, which is in line with the paradox of enrichment. Global sensitivity analysis helps to identify the most significant parameters that reduce the infected phytoplankton in the system. Finally, we compare the dynamics of the system by allowing the infected phytoplankton also to share resources with the susceptible phytoplankton. A gradual increase of the virus replication factor turns the system dynamics from chaos to doubling state to limit cycle to stable state and the system finally settles down to the zooplankton-free equilibrium point. Moreover, on increasing the intensity of avoidance, the system shows a transcritical bifurcation from the zooplankton-free equilibrium to the coexistence steady state and remains stable thereafter.

Published

2020

26. A Stochastic, Lagrangian Model of Sinking biogenic aggregates in the ocean (SLAMS 1.0): model formulation, validation and sensitivity.

Author

Jokulsdottir, T. and Archer, D.

Subjects

PARTICLES, PARTICULATE matter, FRACTALS, STOCHASTIC models, PARAMETERIZATION, CARBON, ZOOPLANKTON

Abstract

We present a new mechanistic model, Stochastic Lagrangian Aggregate Model of Sinking particles (SLAMS) for the biological pump in the ocean, which tracks the evolution of individual particles as they aggregate, disaggregate, sink, and are altered by chemical and biological processes. SLAMS considers the impacts of ballasting by mineral phases, binding of aggregates by transparent exopolymer particles (TEP), zooplankton grazing, and the fractal geometry (porosity) of the aggregates. Parameterizations for age-dependent organic carbon (orgC) degradation kinetics, and disaggregation driven by zooplankton grazing and TEP degradation, are motivated by observed particle fluxes and size spectra throughout the water column. The model is able to explain observed variations in orgC export efficiency and rain ratio from the euphotic zone and to the sea floor as driven by sea surface temperature and the primary production rate and seasonality of primary production. The model provides a new mechanistic framework with which to predict future changes on the flux attenuation of orgC in response to climate change forcing. [ABSTRACT FROM AUTHOR]

Published

2015

27. Mesozooplankton structure and functioning during the onset of the Kerguelen phytoplankton bloom during the Keops2 survey.

Author

Carlotti, F., Jouandet, M.-P., Nowaczyk, A., Harmelin-Vivien, M., Lefèvre, D., Guillou, G., Zhu, Y., and Zhou, M.

Subjects

ZOOPLANKTON, ALGAL blooms, ALGAL anatomy, PLANT biomass, GROUND cover plants

Published

2015

28. Horizontal distribution of Fukushima-derived radiocesium in zooplankton in the northwestern Pacific Ocean.

Author

Kitamura, M., Kumamoto, Y., Kawakami, H., Cruz, E. C., and Fujikura, K.

Subjects

CESIUM isotopes, ZOOPLANKTON, SENDAI Earthquake, Japan, 2011, TSUNAMIS, NUCLEAR energy, NUCLEAR fission

Abstract

The magnitude of the 9.0 Tohoku earthquake and the ensuing tsunami on 11 March 2011, inflicted heavy damage on the Fukushima Dai-ichi nuclear power plant (FNPP1). Fission products were emitted, falling over a broad range in the northern hemisphere, and water contaminated with radionuclides leaked into the ocean. In this study, we described the horizontal distribution of the Fukushima-derived radiocesium in zooplankton and in seawater in the western North Pacific Ocean (500-2100 km from the FNPP1) 10 months after the accident. 134Cs and 137Cs were detected in zooplankton and seawater from all the stations. Because of its short half-lives, 134Cs detected in our samples could only be derived from the FNPP1 accident. The highest 137Cs activity in zooplankton was same order of magnitude as that one month after the accident, and average activity was one or two orders of magnitude higher than 137Cs activities observed before the accident around Japan. Horizontally, the radiocesium activity concentrations in zooplankton were high at around 25°N while those in surface seawater were high at around the transition area between the Kuroshio and the Oyashio Currents (36-40°N). We observed subsurface radiocesium maxima in density range of the North Pacific Subtropical Mode Water and occurrence of many diel vertical migratory zooplanktons. These suggested that the high activity concentrations in the subtropical zooplankton at around 25°N were connected to the subsurface radiocesium and active vertical migration of zooplankton. However, the high activity concentrations of radiocesium in subsurface seawater did not necessarily follow the higher radiocesium activity in zooplankton. Biological characteristics of zooplankton community possibly influenced how large was contamination of radiocesium in the community but it is still unknown what kind of biological factors were important. [ABSTRACT FROM AUTHOR]

Published

2013

29. Enhanced rates of particulate organic matter remineralization by microzooplankton are diminished by added ballast minerals.

Author

Le Moigne, F. A. C., Gallinari, M., Laurenceau, E., and De La Rocha, C. L.

Subjects

PARTICULATE matter, ZOOPLANKTON, BIOMINERALIZATION, COCCOLITHS, DISSOLVED organic matter, CHEMICAL kinetics, ROTIFERA

Abstract

To examine the potentially competing influences of microzooplankton and calcite mineral ballast on organic matter remineralization, we incubated diatoms in darkness in rolling tanks with and without added calcite minerals (coccoliths) and microzooplankton (rotifers). Concentrations of particulate organic matter (POM), suspended or in aggregates, of dissolved organic matter (DOM), and of dissolved inorganic nutrients were monitored over 8 days. The presence of rotifers enhanced the remineralization of ammonium and phosphate, but not dissolved silicon, from the biogenic material, up to 40% of which became incorporated into aggregates early in the experiment. Added calcite resulted in rates of excretion of ammonium and phosphate by rotifers that were depressed by 67% and 36%, respectively, demonstrating the potential for minerals to inhibit the destruction of POM in the water column by zooplankton. Lastly, the presence of the rotifers and added calcite minerals resulted in more rapid kinetics of aggregation, although not a greater overall amount of aggregation during the experiment. [ABSTRACT FROM AUTHOR]

Published

2013

30. Influence of physical and biological processes on the seasonal cycle of biogenic flux in the equatorial Indian Ocean.

Author

Vidya, P. J., Kumar, S. Prasanna, Gauns, M., Verenkar, A., Unger, D., and Ramaswamy, V.

Subjects

SEDIMENTS, CHLOROPHYLL, BIOMASS, MONSOONS, ZOOPLANKTON, PHYTOPLANKTON

Abstract

Seasonal cycle of biogenic fluxes obtained from sediment trap at two locations 5°24'N, 86°46'E (SBBT) and 3°34'N, 77°46'E (EIOT) within the equatorial Indian Ocean (EIO) were examined to understand the factors that control them. The sediment trap data at SBBT were collected for ten years from November 1987 while that at EIOT was for one year period from January 1996. The characteristic of biogenic flux at SBBT was the strong seasonality with peak flux in August, while lack of seasonality characterized the flux at EIOT. At the SBBT and EIOT, the higher chlorophyll biomass during summer monsoon was supported by wind-mixing, which supplied new nitrogen to the upper ocean. The stronger winds at SBBT compared to EIOT resulted in greater entrainment of nutrients to the euphotic zone, which supported higher chlorophyll biomass. High cell counts of phytoplankton (>5 µm) at SBBT dominated by diatoms suggest the operation of classical food web and high carbon export. On the contrary, one-and-half time higher magnitude of micro-zooplankton biomass dominated by picophytoplankton along with 2-fold lesser meso-zooplankton at EIOT indicated the importance of microbial loop. The substantial decrease in the carbon export at EIOT indicated faster remineralization of photosynthetically produced organic matter. We see a striking similarity between the biological process that operates in the SBBT with that of the equatorial Atlantic and EIOT with that of the equatorial Pacific, though the physical forcing in these three regions, namely EIO, the equatorial Atlantic and the equatorial Pacific, are very different. [ABSTRACT FROM AUTHOR]

Published

2013

31. Phytoplankton community structure in the Lena Delta (Siberia, Russia) in relation to hydrography.

Author

Kraberg, A. C., Druzhkova, E., Heim, B., Loeder, M. J. G., and Wiltshire, K. H.

Subjects

PHYTOPLANKTON, SEDIMENTS, PERMAFROST, ZOOPLANKTON, MARINE ecology

Abstract

The Lena Delta in Northern Siberia is one of the largest river deltas in the world. During peak discharge, after the ice melt in spring, it delivers between 60-8000m³ s-1 of water and sediment into the Arctic Ocean. The Lena Delta and the Laptev Sea coast also constitute a continuous permafrost region. Ongoing climate change, which is particularly pronounced in the Arctic, is leading to increased rates of permafrost thaw. This is likely to profoundly change the discharge rates of the Lena River and the chemistry of the river waters which are discharged into the coastal Laptev Sea, e.g. by increasing concentrations of inorganic nutrients, DOC and importantly methane. These physical and chemical changes will also affect the composition of and interactions between phytoplankton and zooplankton communities, forming the basis of the food web. However, before potential consequences of climate change for coastal arctic plankton communities can be judged, the inherent status of the diversity and linked foodweb interactions within the delta need to be established. As part of the AWI Lena Delta Programme in 2010 the phyto- and microzooplankton community in three river channels as well as four coastal transects were investigated to capture the typical river phytoplankton communities and the transitional zone of brackish/marine conditions. Most CTD profiles from 23 coastal stations showed very strong stratification. The only exception to this was a small a shallow and mixed area running from the outflow of Bykovskaya channel in a northerly direction parallel to the shore (transect 3). Of the five stations in this area three had a salinity of close to zero. Two further stations had salinities of around 2 and 5 throughout the water column. In the remaining transects on the other hand salinities varied between 5-30 with depth. Phytoplankton counts from the outflow from the Lena were dominated by diatoms (Aulacoseira species) cyanobacteria (Aphani-zomenon, Pseudanabaena) and chlorophytes, in those stations characterized by river outflow (stations in the Lena itself and in coastal transect 3). In contrast in the stratified stations the plankton was mostly dominated by dinoflagellates, ciliates and nanoflagellates, with only an insignificant diatom component from the genera Chaetoceros and Thalassiosira (brackish as opposed to freshwater species). Ciliate abundance was significantly coupled with the abundance of total flagellates. A pronounced partitioning in the phytoplankton community was also discernible with depth, with a different community composition and abundance above and below the thermocline in the stratified sites. This work represents the first attempt at analyzing the phytoplankton structure of the region of freshwater influence at confluence Lena-Laptev sea. [ABSTRACT FROM AUTHOR]

Published

2013

32. Distribution of mesozooplankton biomass in the global ocean.

Author

Moriarty, R. and O'Brien, T. D.

Subjects

ZOOPLANKTON, BIOMASS, OCEAN, DATA extraction, DATA conversion

Abstract

The article presents a study on the distribution of mesozooplankton biomass in the ocean. The study employed data extraction and conversion and net mesh sizes. Results reveal that biomass was highest in the Northern Hemisphere, but the trend shows a slight decrease from polar oceans to temperate regions with increasing values in the tropics.

Published

2012

33. Temperature dependence of Arctic zooplankton metabolism and excretion stoichiometry.

Author

Alcaraz, M., Almeda, R., Saiz, E., Calbet, A., Duarte, C. M., Agustí, S., Santiago, R., and Alonso, A.

Subjects

ZOOPLANKTON, TEMPERATURE effect, METABOLISM, EXCRETION, STOICHIOMETRY, ARRHENIUS equation, QUALITATIVE research, FOOD chains

Abstract

We assessed the relationship between zooplankton metabolism (respiration and inorganic N and P excretion) and "in situ" temperature through a grid of stations representing a range of natural temperature variation during the ATOS-Arctic cruise (July 2007). The objective was to explore not only the direct effects of temperature on O2 consumption and NH4-N and PO4-P excretion, but also to investigate the possible relationships between temperature and the stoichiometry of the metabolic products. Zooplankton metabolic rates increased according to the rising temperature conditions, following the Arrhenius equation. However, the activation energy differed for the various metabolic processes considered. Respiration was the metabolic activity less affected by temperature, followed by NH4-N and PO4-P excretion, and as a consequence the values of the C: N, C: P and N: P quotients of the metabolic products were inversely related to temperature. The effects of temperature on the stoichiometry of the excretion products would contribute to modify the nutrient pool available for phytoplankton and induce qualitative and quantitative shifts in the characteristics of primary producers that could possibly translate into the whole Arctic marine food web. [ABSTRACT FROM AUTHOR]

Published

2012

34. A new marine ecosystem model for the University of Victoria Earth system climate model.

Author

Keller, D. P., Oschlies, A., and Eby, M.

Subjects

MARINE ecology, DISPLAY systems, CLIMATE change, ZOOPLANKTON

Abstract

The article focuses on the improved version of the marine ecosystem model of the University of Victoria Earth system climate model. It states that code and equations regarding zooplankton grazing and phytoplankton light limitation undergo changes. It mentions that effect of seasonal changes in the ecosystem and better simulation of the said changes were some of the reasons for the improvement.

Published

2012

35. Distribution of known macrozooplankton abundance and biomass in the global ocean.

Author

Moriarty, R., Buitenhuis, E. T., Le Quéré, C., and Gosselin, M.-P.

Subjects

ZOOPLANKTON, BIOMASS, STANDARD deviations, LATITUDE, DATABASES, OCEAN

Abstract

The article presents a study which compiles a dataset of macrozooplankton abundance and biomass observations in the world ocean. The study used q standard deviation, biogeochemical models and Plankton Functional Type models, and Chauvenet's criterion, Results show that biomass if highest in the tropic areas and biomass conservation coverage is only good at high latitudes.

Published

2012

36. Downward particle flux and carbon export in the Beaufort Sea, Arctic Ocean; the Malina experiment.

Author

Miquel, J.-C., Gasser, B., Martín, J., Marec, C., Babin, M., Fortier, L., and Forest, A.

Subjects

CONTINENTAL margins, SEDIMENTS, ZOOPLANKTON, ECOSYSTEMS, CARBON cycle

Abstract

As part of the international, multidisciplinary project Malina, downward particle fluxes were investigated by means of a drifting multi-sediment trap mooring deployed at three sites in the Canadian Beaufort Sea in late summer 2009. Mooring deployments lasted for 28-50 h and targeted the shelf-break and the slope along the Beaufort--Mackenzie continental margin, as well as the edge between the Mackenzie Shelf and the Amundsen Gulf. Besides analyses of C and N, the collected material was investigated for pigments, phyto- and microzooplankton, faecal pellets and swimmers. The measured fluxes were relatively low, in the range of 11-54mgm-2 d-1 for the total mass, 1-15mgCm-2 d-1 for organic carbon and 0.2-2.5mgNm-2 d-1 for nitrogen. Comparison with a long-term trap dataset from the same sampling area showed that the short-term measurements were at the lower end of the high variability characterizing a rather high flux regime during the study period. The sinking material consisted of aggregates and particles that were characterized by the presence of hetero- and autotrophic microzooplankters and diatoms and by the corresponding pigment signatures. Faecal pellets contribution to sinking carbon flux was important, especially at depth where they represented up to 25% of the total carbon flux. The vertical distribution of different morphotypes of pellets showed a marked pattern with cylindrical faeces (produced by calanoid copepods) present mainly within the euphotic zone, whereas elliptical pellets (produced mainly by smaller copepods) were more abundant at mesopelagic depths. These features, together with the density of matter within the pellets, highlighted the role of the zooplankton community in the transformation of carbon issued from the primary production and the transition of that carbon from the productive surface zone to the Arctic Ocean's interior. Our data indicate that sinking carbon flux in this late summer period is primarily the result of a heterotrophic driven ecosystem as compared to the system driven by autotrophy earlier in the year. [ABSTRACT FROM AUTHOR]

Published

2015

37. Chemical Activation of Feeding in the Caribbean Reef-Building Coral Montastrea cavernosa

Author

Lehman, John T. and Porter, James W.

Published

1973

38. Zooplankton-based adverse outcome pathways: A tool for assessing endocrine disrupting compounds in aquatic environments.

Author

Razak MR, Wee SY, Yusoff FM, Yusof ZNB, and Aris AZ

Subjects

Animals, Environmental Monitoring methods, Endocrine Disruptors toxicity, Endocrine Disruptors analysis, Zooplankton drug effects, Water Pollutants, Chemical toxicity, Water Pollutants, Chemical analysis, Adverse Outcome Pathways

Abstract

Endocrine disrupting compounds (EDCs) pose a significant ecological risk, particularly in aquatic ecosystems. EDCs have become a focal point in ecotoxicology, and their identification and regulation have become a priority. Zooplankton have gained global recognition as bioindicators, benefiting from rigorous standardization and regulatory validation processes. This review aims to provide a comprehensive summary of zooplankton-based adverse outcome pathways (AOPs) with a focus on EDCs as toxicants and the utilisation of freshwater zooplankton as bioindicators in ecotoxicological assessments. This review presents case studies in which zooplankton have been used in the development of AOPs, emphasizing the identification of molecular initiating events (MIEs) and key events (KEs) specific to zooplankton exposed to EDCs. Zooplankton-based AOPs may become an important resource for understanding the intricate processes by which EDCs impair the endocrine system. Furthermore, the data sources, experimental approaches, advantages, and challenges associated with zooplankton-based AOPs are discussed. Zooplankton-based AOPs framework can provide vital tools for consolidating toxicological knowledge into a structured toxicity pathway of EDCs, offering a transformative platform for facilitating enhanced risk assessment and chemical regulation., 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 Inc. All rights reserved.)

Published

2024

39. Micro- and mesozooplankton community response to increasing CO2 levels in the Baltic Sea: insights from a large-scale mesocosm experiment.

Author

Lischka, S., Bach, L. T., Schulz, K.-G., and Riebesel, U.

Subjects

ZOOPLANKTON, OCEAN acidification, CARBON dioxide in seawater, CARBONATES

Abstract

Community approaches investigating ocean acidification (OA) effects suggest a high tolerance of micro- and mesozooplankton to carbonate chemistry changes expected to occur within this century. Plankton communities in the coastal areas of the Baltic Sea frequently experience pH variations partly exceeding projections for the near future both on a diurnal and seasonal basis, thus some level of tolerance/adaptation may be expected. We conducted a large-scale mesocosm CO2 enrichment experiment (~ 55 m³) enclosing the natural plankton community in Tvärminne/Storfjärden for eight weeks during June-August 2012 and studied community and species/taxon response of microzooplankton (ciliates) and mesozooplankton to CO2 elevations expected for this century. Besides the response to fCO2 and associate changes in carbonate chemistry speciation, we also considered temperature and chlorophyll a variations in our analyses. Shannon diversity of microzooplankton significantly decreased with fCO2 and temperature with a greater dominance of smaller species. Small sized ciliates (Myrionecta rubra, Balanion comatum, Strombidium cf. epidemum, Strobilidium sp.) showed significant relations with one or more of the factors. The phototrophic Myrionecta rubra seemed to directly benefit from higher CO2 concentrations and showed increased abundance in the pre-bloom phase. With respect to meszooplankton, we neither detected significant effects for total abundance nor for Shannon diversity. The cladocera Bosmina occurred at distinctly higher abundance (more than twice as high compared to the control mesocosms) for a short time period during the second half of the experiment in three of the CO2-enriched mesocosms except for the highest CO2 level. The ratio of Bosmina with empty to embryo/resting egg bearing brood chambers, however, was significantly affected by all three factors. An indirect CO2 effect via increased food availability stimulating Bosmina reproduction is suggested, but too low sampling frequency of this highly flexible organism probably entailed proving a significant relation with fCO2. Filter-feeding cladocerans effectively transfer microbial loop carbon to higher trophic levels. Thus, under increasing OA in cladoceran dominated mesozooplankton communities the importance of the microbial loop in the pelagic zone may be enhanced and carbon transfer to higher trophic levels stimulated. [ABSTRACT FROM AUTHOR]

Published

2015

40. A multiproxy approach to understanding the "enhanced" flux of organic matter through the oxygen deficient waters of the Arabian Sea.

Author

Keil, R. G., Neibauer, J., Biladeau, C., van der Elst, K., and Devol, A. H.

Subjects

OXYGEN in water, ORGANIC compounds, MONSOONS, ZOOPLANKTON

Abstract

Free-drifting sediment net traps were deployed 14 times at depths between 80 and 500 m for 1-3 days each during the late monsoon/intermonsoon transition in the central Arabian Sea. Two locations (19.5 and 15.5° N) were within the permanently oxygen deficient zone, and a third (11° N) had a shallow and thin oxygen minimum. The secondary nitrite maximum, which serves as a tracer of the oxygen deficient zone (ODZ) zone, thinned from ~ 250 m thick at stations 19.5 and 15.5° N to ~ 50 m thick at station 11° N. Overall, organic carbon fluxes ranged from 13.2 g m² yr-1 at 80 m to a minimum of 1.1 g m² yr-1 at 500 m. Fluxes at the more oxygenated 11° N station attenuate faster than within the permanent ODZ. Martin curve attenuation coefficients for 19.5 and 15.5° N are 0.59 and 0.63 and for 11° N it is 0.98. At least six potential mechanisms might explain why sinking particles sinking through the ODZ are more effectively transferred to depth; (M1) oxygen effects, (M2) microbial loop efficiencies and chemoautotrophy, (M3) changes in zooplankton dynamics, (M4) additions of ballast that might sorb and protect organic matter from decay, (M5) inputs of refractory organic matter, and (M6) changes in sinking speeds. These mechanisms are intertwined, and were explored using a combination of mineral (XPS) and organic matter characterizations of the sinking material and ship-board incubation experiments. Evidence was found supporting an oxygen effect and/or changes in the efficiency of the microbial loop including the addition of chemoautotrophic carbon to the sinking flux in the upper 500 m. Less evidence was found for the other potential mechanisms. A simple conceptual model consistent with our and other recent data suggests that the upper ODZ microbial community determines the initial flux attenuation, and that deeper in the water column zooplankton and sinking speed become more important. The exact interplay between the various mechanisms remains to be further evaluated. [ABSTRACT FROM AUTHOR]

Published

2015

41. Seasonal and size-dependent variations in the phytoplankton growth and microzooplankton grazing in the southern South China Sea under the influence of the East Asian monsoon.

Author

Zhou, L., Tan, Y., Huang, L., Hu, Z., and Ke, Z.

Subjects

PHYTOPLANKTON, BIOMASS, ZOOPLANKTON, MONSOONS

Abstract

To examine seasonal and size-dependent variations in the phytoplankton growth and microzooplankton grazing in oligotrophic tropical waters under the influence of seasonal reversing monsoon, dilution experiments were conducted during the summer 2009 (21 May to 9 June) and winter 2010 (9 to 18 November) in the southern South China Sea (SSCS). The results showed that environmental variables, phytoplankton biomass, phytoplankton growth rate (µ), microzooplankton grazing rate (m), and correlationship (coupling) between the µ and m, but the microzooplankton grazing impact on phytoplankton (m/µ) significantly varied between the two seasons. Higher relative preference index (RPI) for and m on the larger-sized (>3 µm) phytoplankton than pico-phytoplankton (<3 µm), indicating significant size-selective grazing by microzooplankton on the larger-sized phytoplankton, were also observed. The µ and m were significantly correlated with salinity and dissolved inorganic nutrients, which indicated that salient seasonal variations in the phytoplankton growth and microzooplankton grazing in the SSCS were closely related to the environmental variables under the influence of the East Asian monsoon. We propose that intermittent arrivals of the northeast winter monsoon could lead to the low µ and m, and the decoupling between the µ and m in the SSCS, through influencing nutrient supply to the surface water, and inducing surface seawater salinity decrease. The low m/µ (<50% on average) indicates low remineralization of organic matter mediated by microzooplankton and the increased importance of the phytoplankton-mesozooplankton grazing pathway, and thus probably accounts for part of the high vertical biogenic particle fluxes in the prevailing periods of the monsoons in the SSCS. The size-selective grazing suggests that microzooplankton grazing contributes to the pico-phytoplankton dominance in the oligotrophic tropical waters such as that of the SSCS. [ABSTRACT FROM AUTHOR]

Published

2015

42. Role of zooplankton dynamics for Southern Ocean phytoplankton biomass and global biogeochemical cycles.

Author

Le Quéré, C., Buitenhuis, E. T., Moriarty, R., Alvain, S., Aumont, O., Bopp, L., Chollet, S., Enright, C., Franklin, D. J., Geider, R. J., Harrison, S. P., Hirst, A., Larsen, S., Legendre, L., Platt, T., Prentice, I. C., Rivkin, R. B., Sathyendranath, S., Stephens, N., and Vogt, M.

Subjects

ZOOPLANKTON, PHYTOPLANKTON, BIOMASS, BIOGEOCHEMICAL cycles, CLIMATE change

Abstract

Global ocean biogeochemistry models currently employed in climate change projections use highly simplified representations of pelagic food webs. These food webs do not necessarily include critical pathways by which ecosystems interact with ocean biogeochemistry and climate. Here we present a global biogeochemical model which incorporates ecosystem dynamics based on the representation of ten plankton functional types (PFTs); six types of phytoplankton, three types of zooplankton, and heterotrophic bacteria. We improved the representation of zooplankton dynamics in our model through (a) the explicit inclusion of large, slow-growing zooplankton, and (b) the introduction of trophic cascades among the three zooplankton types. We use the model to quantitatively assess the relative roles of iron vs. grazing in determining phytoplankton biomass in the Southern Ocean High Nutrient Low Chlorophyll (HNLC) region during summer. When model simulations do not represent crustacean macrozooplankton grazing, they systematically overestimate Southern Ocean chlorophyll biomass during the summer, even when there was no iron deposition from dust. When model simulations included the developments of the zooplankton component, the simulation of phytoplankton biomass improved and the high chlorophyll summer bias in the Southern Ocean HNLC region largely disappeared. Our model results suggest that the observed low phytoplankton biomass in the Southern Ocean during summer is primarily explained by the dynamics of the Southern Ocean zooplankton community rather than iron limitation. This result has implications for the representation of global biogeochemical cycles in models as zooplankton faecal pellets sink rapidly and partly control the carbon export to the intermediate and deep ocean. [ABSTRACT FROM AUTHOR]

Published

2015

43. Short-term changes of the mesozooplankton community and copepod gut pigment in the Chukchi Sea in autumn.

Author

Matsuno, K., Yamaguchi, A., Nishino, S., Inoue, J., and Kikuchi, T.

Subjects

ZOOPLANKTON, PLANT communities, COPEPODA, AUTUMN, SEA ice, ATMOSPHERIC turbulence

Abstract

In the Chukchi Sea, due to the recent drastic reduction of sea-ice during the summer, an increasing formation of atmospheric turbulence has been reported. However, the importance and effects of atmospheric turbulence on the marine ecosystem are not fully understood in this region. To evaluate the effect of atmospheric turbulence on the marine ecosystem, high-frequent sampling (two to four times per day) on the mesozooplankton community and the gut pigment of dominant copepods were made at a fixed station in the Chukchi Sea from 10 to 25 September 2013. During the study period, a strong wind event (SWE) was observed on 18 September. After the SWE, the standing stock of chlorophyll a (chl a) was increased, especially for micro-size (> 10 µm) fractions. Zooplankton abundance ranged 23 610-56 809 ind. m-2 and exhibited no clear changes with SWE. In terms of abundance, calanoid copepods constituted the most dominated taxa (mean: 57%), followed by barnacle larvae (31%). Within the calanoid copepods, small-sized Pseudocalanus spp. (65%) and large-sized Calanus glacialis (30%) dominated. In the population structure of C. glacialis, copepodid stage 5 (C5) dominated, and the mean copepodid stage did not vary with SWE. The dominance of accumulated lipids in C5 and C6 females with immature gonads indicated that they were preparing for seasonal diapause. The gut pigment of C. glacialis C5 was higher at night and was correlated with ambient chl a, and a significant increase was observed after SWE (2.6 vs. 4.5 ng pigment ind.-1). Assuming C : Chl a ratio, the grazing impact by C. glacialis C5 was estimated to be 4.14 mg C m-2 day-1, which corresponded to 0.5-4.6% of the standing stock of micro-size phytoplankton. Compared with the metabolic food requirement, their feeding on phytoplankton accounted for 12.6% of their total food requirement. These facts suggest that C. glacialis could not maintain their population on solely phytoplankton food, and other food sources (i.e., microzooplankton) are important in autumn. As observed for the increase in gut pigment, temporal phytoplankton bloom, which is enhanced by the atmospheric turbulence (SWE) in autumn, may have a positive effect on copepod nutrition. However, because of the relatively long generation length of copepods, a smaller effect was detected for their abundance, population structure, lipid accumulation and gonad maturation within the short-term period (16 days). [ABSTRACT FROM AUTHOR]

Published

2015

44. Zooplankton Index for Shallow Lakes' Assessment: Elaboration of a New Classification Method for Polish Lakes.

Author

Ochocka, Agnieszka

Subjects

WATER management, SCIENTIFIC literature, WATER quality, FOOD chains, RANK correlation (Statistics)

Abstract

Due to its fundamental position in the aquatic food chain linking primary producers (phytoplankton) to higher trophic levels (fish), zooplankton has a crucial influence on the structure and function of lakes. The scientific literature shows that zooplankton is an effective indicator of eutrophication. However, according to the requirements of the Water Framework Directive, zooplankton is still not included as one of the biological components for assessing the ecological status of lakes. In Poland, the zooplankton-based method (ZIPLAs) has been developed to assess the ecological status of deep stratified lakes. Shallow lakes function differently from deep lakes, and literature data show that the response of zooplankton indices to eutrophication parameters is much weaker than in deep lakes. This paper presents the Zooplankton Index for Shallow Lakes' Assessment (ZISLA), a new method for assessing ecological status based on zooplankton community structure. The ZISLA includes the body size index of Daphnia cucullata (BSI), the percentage share of high trophy-indicating rotifer species (IHTROT), the number of rotifer species (NROT), and the Margalef index (D). The ZISLA shows a strong, significant correlation with total phosphorus and total nitrogen (Spearman's coefficient (R = −0.77, R = −0.74; p < 0.0001) and slightly weaker with Secchi disk visibility (R = 0.72; p < 0.0001). The ZISLA index shows a statistically significant good/moderate distinction for all water quality parameters. [ABSTRACT FROM AUTHOR]

Published

2024

45. Top-down, bottom-up and physical controls on diatom-diazotroph assemblage growth in the Amazon River Plume.

Author

Stukel, M. R., Coles, V. J., Brooks, M. T., and Hood, R. R.

Subjects

DIATOMS, ALGAL blooms, ECOLOGY of plankton, NITROGEN-fixing microorganisms, ZOOPLANKTON, NITROGEN fixation

Abstract

The nutrient-rich waters of the Amazon River Plume (ARP) support dense blooms of diatom-diazotroph assemblages (DDA) that introduce large quantities of new nitrogen to the planktonic ecosystem and, unlike other nitrogen-fixers, are likely to directly fuel vertical carbon flux. To investigate the factors controlling DDA blooms, we develop a five phytoplankton (cyanobacteria, diatoms, unicellular microbial diazotrophs, DDA, and Trichodesmium), two zooplankton model and embed it within a 1/6° resolution physical model of the tropical and subtropical Atlantic. The model generates realistic DDA blooms in the ARP and also exhibits basin-wide primary production, nitrogen fixation, and grazing rates consistent with observed values. By following ARP water parcels with synthetic Lagrangian drifters released at the river mouth we are able to assess the relative impacts of grazing, nutrient supply, and physical forcing on DDA bloom formation. DDA bloom formation is stimulated in the silica-rich water of the ARP by decreases in grazing pressure when mesozooplankton (which co-occur in high densities with coastal diatom blooms) concentrations decrease. Bloom termination is driven primarily by silica limitation of the DDA. In agreement with in situ data, this net growth niche for DDA exists in a salinity range from ~ 20-34 PSU, although this co-occurrence is coincidental rather than causative. Because net growth rates are relatively modest, bloom formation in ARP water parcels depends critically on the time spent in this ideal habitat, with high DDA biomass only occurring when water parcels spent > 23 days in the optimal habitat niche. [ABSTRACT FROM AUTHOR]

Published

2013

46. Fukushima-derived radiocesium in Discussions western North Pacific sediment traps.

Author

Honda, M. C., Kawakami, H., Watanabe, S., and Saino, T.

Subjects

FUKUSHIMA Nuclear Accident, Fukushima, Japan, 2011, RADIOISOTOPES, SEDIMENTS, ZOOPLANKTON, TIME series analysis, CLAY minerals, OCEAN bottom

Abstract

At two stations in the western North Pacific, K2 in the subarctic gyre and S1 in the subtropical gyre, time-series sediment traps were collecting sinking particles when the Fukushima Daiichi Nuclear Power Plant (FNPP1) accident occurred on 11 March 2011. Radiocesium (134Cs and 137Cs) derived from FNPP1 accident was detected in sinking particles collected at 500m by late March 2011 and at 4810m by early April 2011 at both stations. The sinking velocity of 134Cs and 137Cs was estimated to be 8 to 36m day-1 between the surface and 500m and > 180m day-1 between 500m and 4810m. 137Cs specific activity varied from 0.14 to 0.25 Bq g-1 dry weight. These values are higher than those of surface seawater, suspended particles, and zooplankton collected in April 2011. Although the radiocesium may have been adsorbed onto or in- corporated into clay minerals, correlations between 134Cs and lithogenic material were not always significant; therefore, the form of the cesium associated with the sinking particles is still an open question. The total 137Cs flux by late June at K2 and by late July at S1 was 0.5 to 1.7 Bq m-2 at both depths. Compared with 137Cs input to both stations by April 2011, estimated from the surface 137Cs activity and mixed layer depth and by assuming that the observed 137Cs flux was constant throughout the year, the estimated removal rate of 137Cs from the upper layer (residence time in the upper layer) was 0.3 to 1.5% (68 to 312 yr). The estimated removal rates and residence times are comparable to previously reported values. [ABSTRACT FROM AUTHOR]

Published

2013

47. Copepod community growth rates in relation to body size, temperature, and food availability in the East China Sea: a test of metabolic theory of ecology.

Author

Lin, K. Y., Sastri, A., Gong, G. C., and Hsieh, C. H.

Subjects

COPEPODA, BIOTIC communities, ZOOPLANKTON, MARINE food chain, MARINE ecology

Abstract

Zooplankton play an essential role in marine food webs and understanding how community-level growth rates of zooplankton vary in the field is critical for predicting how marine ecosystem function may vary in the face of environmental changes. Here, we used the artificial cohort method to examine the effects of temperature, body size, and chlorophyll concentration (a proxy for food) on weight-specific growth rates for copepod communities in the East China Sea. Specifically, we tested the hypothesis that copepod community growth rates can be described by the metabolic theory of ecology (MTE), linking spatio-temporal variation of copepod growth rate with temperature and their body size. Our results generally agree with predictions made by the MTE and demonstrate that weight-specific growth rates of copepod communities in our study area are positively related with temperature and negatively related to body size. However, the regression coefficients of body size do not approach the theoretical predictions. Furthermore, we find that the deviation from the MTE predictions may be partly attributed to the effect of food availability (which is not explicitly accounted for by the MTE). In addition, significant difference in the coefficients of temperature and body size exists among taxonomic groups. Our results suggest that considering the effects of food limitation and taxonomy is necessary to better understand copepod growth rates under in situ conditions, and such effects on the MTE-based prediction needs further investigation. [ABSTRACT FROM AUTHOR]

Published

2012

48. Mesozooplankton community development at elevated CO2 concentrations: results from a mesocosm experiment in an Arctic fjord.

Author

Niehoff, B., Knüppel, N., Daase, M., Czerny, J., and Boxhammer, T.

Subjects

ZOOPLANKTON, CARBON dioxide in seawater, FOSSIL fuels, FJORD ecology, PH effect, COASTAL organisms

Abstract

The increasing CO2 concentration in the atmosphere caused by burning fossil fuels leads to increasing pCO2 and decreasing pH in the world oceans. These changes may have severe consequences for marine biota, especially in cold-water ecosystems due to higher solubility of CO2. However, studies on the response of mesozooplankton communities to elevated pCO2 are yet lacking. In order to test whether abundance and taxonomic composition change with pCO2, we have sampled nine mesocosms, which were deployed in Kongsfjorden, an Arctic fjord at Svalbard, and were adjusted to eight CO2 concentrations, initially ranging from 185 µatm to 1420 µatm. Samples were taken weekly over a six-week period with an Apstein net (55 µm mesh size) in all mesocosms and the surrounding fjord. In addition, sediment trap samples, taken every second day in the mesocosms, were analyzed to account for losses due to vertical migration and mortality. The taxonomic analysis revealed that meroplanktonic larvae (cirripeds, polychaetes, bivalves, gastropod, and decapods) dominated in the mesocosms while copepods (Calanus spp., Oithona similis, Acartia longiremis and Microsetella norvegica) were found in lower abundances. In the fjord copepods prevailed for most of our study. With time, abundance and taxonomic composition developed similarly in all mesocosms; the pCO2 had no significant effect on the overall community structure. However, single taxa responded to elevated CO2 concentrations. The ratio of cirripedia nauplii to cypris larvae, the next developmental stage, in the sediment traps averaged over the entire experiment increased with pCO2 and this suggests that increased pCO2 may have delayed their development. Also, the number of bivalves, averaged over the experimental period, decreased significantly with increasing pCO2. The nature of the CO2 effect, either direct or indirect, remains open and needs to be addressed in future. [ABSTRACT FROM AUTHOR]

Published

2012

49. Distribution and species composition of zooplankton (rotifers and crustaceans) in the Basin of the Middle Volga River, Russia

Author

Elena Unkovskaya, Oksana V. Mukhortova, and Stepan Aleksandrovich Senator

Subjects

zooplankton, QH301-705.5, Biodiversity & Conservation, Drainage basin, Rotifera, Introduced species, Crusta, Structural basin, Subspecies, occurrence, Zooplankton, Abundance (ecology), Crustacea, Animalia, dataset, Biology (General), Ecology, Evolution, Behavior and Systematics, Aquatic biology, abundance, geography.geographical_feature_category, Ecology, Cenozoic, Middle Volga River, Samara, Data Paper (Biosciences), Europe, Fishery, Geography, Biogeography, Zoology & Animal Biology, Taxonomy (biology), field studies

Abstract

The presented dataset contains information on the distribution and species composition of zooplankton (rotifers and crustaceans) registered in the Basin of the Middle Volga River, Russia. The studies have been performed in the Kuibyshev Reservoir (Samara Oblast and the Republic of Tatarstan), the Saratov Reservoir (Samara Oblast), in several lakes (Raifskoe, Gniloe, Krugloe and Lenevo) in the Volzhsko-Kamsky State Biosphere Reserve (Republic of Tatarstan) and in Lake Aslikul, one of the largest lakes of the Middle Volga River Basin, located in the Asly-Kul Natural Park (Republic of Bashkortostan). The hydrobiological data were obtained and published from 1957 to 2020. In total, the dataset includes 5141 records of 111 zooplankton species (including 17 subspecies), belonging to 45 genera. These are mainly native species - 98.5%, while the naturalised, including invasive species, accounts for less than 1.5%. A total of 5141 records have been published on the taxonomic diversity and occurrence of zooplankton (rotifers and crustaceans) in the Middle Volga River Basin. Each record includes information about the place and date of finding the specimen, its taxonomy, occurrence and abundance and the collector. If the information about the find has been published, a link to the corresponding reference is provided. The presented dataset supplements the data on the distribution of zooplankton species in the European part of Russia. Data on zooplankton in the Middle Volga River Basin are published for the first time.

Published

2021

50. Flux variations and vertical distributions of microzooplankton (Radiolaria) in the western Arctic Ocean: environmental indices in a warming Arctic.

Author

Ikenoue, T., Bjørklund, K. R., Kruglikova, S. B., Onodera, J., Kimoto, K., and Harada, N.

Subjects

ZOOPLANKTON, FLUX (Energy), ENVIRONMENTAL indicators, WATER depth, CLIMATE change

Abstract

The vertical distribution of radiolarians was investigated using a vertical multiple plankton sampler (100-0, 250-100, 500-250 and 1000-500 m water depths, 62 µmmesh size) at the Northwind Abyssal Plain and southwestern Canada Basin in September 2013. To investigate seasonal variations in the flux of radiolarians in relation to sea-ice and water masses, time series sediment trap system was moored at Station NAP (75°00' N, 162°00' W, bottom depth 1975 m) in the western Arctic Ocean during October 2010-September 2012. We showed characteristics of fourteen abundant radiolarian taxa related to the vertical hydrographic structure in the western Arctic Ocean. We found the Ceratocyrtis histricosus, a warm Atlantic water species, in net samples, indicating that it has extended its habitat into the Pacific Winter Water. The radiolarian flux was comparable to that in the North Pacific Oceans. Amphimelissa setosa was dominant during the open water and the beginning and the end of ice cover seasons with well-grown ice algae, ice fauna and with alternation of stable water masses and deep vertical mixing. During the sea-ice cover season, however, oligotrophic and cold-water tolerant Actinommidae was dominant and the productivity of radiolaria was lower and its species diversity was greater, which might be associated with the seasonal increase of solar radiation that induce the growth of algae on the ice and the other phytoplankton species under the sea-ice. These indicated that the dynamics of sea-ice was a major factor affecting the productivity, distribution, and composition of radiolarian fauna. [ABSTRACT FROM AUTHOR]

Published

2014