Your search keyword '"aquatic food webs"' showing total 141 results

1. Pilot system for engineering sustainable aquatic food webs: Utilizing cyanobacteria for continuous secretion of ω-polyunsaturated fatty acids

Author

Lübben, Maximilian K., Heinz, Steffen, Gießler, Sabine, Lehmann, Martin, Kleinknecht, Laura, Stockenreiter, Maria, Ostermeier, Matthias, Stibor, Herwig, and Nickelsen, Jörg

Published

2025

2. New fish migrations into the Panama Canal increase likelihood of interoceanic invasions in the Americas

Author

Castellanos-Galindo, Gustavo A., Sharpe, Diana M.T., Robertson, D. Ross, Bravo, Victor, Jeschke, Jonathan M., and Torchin, Mark E.

Published

2025

3. Zooming in the plastisphere: the ecological interface for phytoplankton–plastic interactions in aquatic ecosystems.

Author

Nava, Veronica, Dar, Jaffer Y., De Santis, Vanessa, Fehlinger, Lena, Pasqualini, Julia, Adekolurejo, Oloyede A., Burri, Bryan, Cabrerizo, Marco J., Chonova, Teofana, Cour, Mathilde, Dory, Flavia, Drost, Annemieke M., Figler, Aida, Gionchetta, Giulia, Halabowski, Dariusz, Harvey, Daniel R., Manzanares‐Vázquez, Víctor, Misteli, Benjamin, Mori‐Bazzano, Laureen, and Moser, Valentin

Subjects

*COLONIZATION (Ecology), *POISONS, *AQUATIC resources, *FOOD chains, *POLYSACCHARIDES

Abstract

ABSTRACT Phytoplankton is an essential resource in aquatic ecosystems, situated at the base of aquatic food webs. Plastic pollution can impact these organisms, potentially affecting the functioning of aquatic ecosystems. The interaction between plastics and phytoplankton is multifaceted: while microplastics can exert toxic effects on phytoplankton, plastics can also act as a substrate for colonisation. By reviewing the existing literature, this study aims to address pivotal questions concerning the intricate interplay among plastics and phytoplankton/phytobenthos and analyse impacts on fundamental ecosystem processes (e.g. primary production, nutrient cycling). This investigation spans both marine and freshwater ecosystems, examining diverse organisational levels from subcellular processes to entire ecosystems. The diverse chemical composition of plastics, along with their variable properties and role in forming the “plastisphere”, underscores the complexity of their influences on aquatic environments. Morphological changes, alterations in metabolic processes, defence and stress responses, including homoaggregation and extracellular polysaccharide biosynthesis, represent adaptive strategies employed by phytoplankton to cope with plastic‐induced stress. Plastics also serve as potential habitats for harmful algae and invasive species, thereby influencing biodiversity and environmental conditions. Processes affected by phytoplankton–plastic interaction can have cascading effects throughout the aquatic food web via altered bottom‐up and top‐down processes. This review emphasises that our understanding of how these multiple interactions compare in impact on natural processes is far from complete, and uncertainty persists regarding whether they drive significant alterations in ecological variables. A lack of comprehensive investigation poses a risk of overlooking fundamental aspects in addressing the environmental challenges associated with widespread plastic pollution. [ABSTRACT FROM AUTHOR]

Published

2024

4. 基于稳定同位素技术的辽宁浑太河流域水生食物网研究.

Author

段元帅, 谢 军, 刘 璐, 霍 斌, and 李大鹏

Abstract

Copyright of Journal of Hydrobiology / Shuisheng Shengwu Xuebao is the property of Editorial Department of Journal of Hydrobiology and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

5. Life-history omnivory in the fairy shrimp Branchinecta orientalis (Branchiopoda: Anostraca).

Author

Lukić, Dunja, Pormehr, Navid, Beladjal, Lynda, Vad, Csaba F., Ptacnik, Robert, Van Stappen, Gilbert, Agh, Naser, and Horváth, Zsόfia

Subjects

*BRANCHIOPODA, *CALANOIDA, *SHRIMPS, *COPEPODA, *FAIRIES, *FOOD chains, *CRUSTACEA

Abstract

Very little is known about the feeding of naupliar and juvenile life stages of omnivorous fairy shrimps (Crustacea: Anostraca). Here, we aim to reveal whether the fairy shrimp Branchinecta orientalis is an ontogenetic omnivore and at which age and ontogenetic stage they gain the ability to feed on zooplankton. We assess how food uptake rates change with age until reaching maturity by providing algae (pico- and nanoplanktonic unicellular algae) and zooplankton (rotifers and copepod nauplii) as food in individual experiments. We found that the fairy shrimp B. orientalis started to feed on both types of algal prey immediately after hatching. Nanoplanktonic algae likely represented the most important food source until reaching maturity. Moreover, fairy shrimps started to feed on zooplankton already when they were 7 days old. Slow-moving rotifers gradually gained importance in the fairy shrimp diet with time. Our results reveal an ontogenetic change in the prey spectrum of fairy shrimp. The systematic shift towards omnivory likely affects both phyto- and zooplankton community composition, possibly contributing to temporal changes in food web dynamics in fairy shrimp habitats, and temporary ponds, which may warrant more detailed investigations in future studies. [ABSTRACT FROM AUTHOR]

Published

2023

6. A size‐constrained feeding‐niche model distinguishes predation patterns between aquatic and terrestrial food webs.

Author

Li, Jingyi, Luo, Mingyu, Wang, Shaopeng, Gauzens, Benoit, Hirt, Myriam R., Rosenbaum, Benjamin, and Brose, Ulrich

Subjects

*PREDATION, *PREDATORY aquatic animals, *INFORMATION modeling

Abstract

Understanding the formation of feeding links provides insights into processes underlying food webs. Generally, predators feed on prey within a certain body‐size range, but a systematic quantification of such feeding niches is lacking. We developed a size‐constrained feeding‐niche (SCFN) model and parameterized it with information on both realized and non‐realized feeding links in 72 aquatic and 65 terrestrial food webs. Our analyses revealed profound differences in feeding niches between aquatic and terrestrial predators and variation along a temperature gradient. Specifically, the predator–prey body‐size ratio and the range in prey sizes increase with the size of aquatic predators, whereas they are nearly constant across gradients in terrestrial predator size. Overall, our SCFN model well reproduces the feeding relationships and predation architecture across 137 natural food webs (including 3878 species and 136,839 realized links). Our results illuminate the organisation of natural food webs and enables novel trait‐based and environment‐explicit modelling approaches. [ABSTRACT FROM AUTHOR]

Published

2023

7. Cutthroat trout responses to increased light via conventional and alternative riparian buffers.

Author

Sanders, Ashley M., Coble, Ashley A., and Warren, Dana R.

Subjects

COASTAL changes, FISH as food, FISH populations, AQUATIC resources, LOGGING

Abstract

Forested headwaters, particularly in the Pacific Northwest, USA, are typically heavily shaded by dense stands of riparian vegetation. Reduced riparian cover can occur from natural or anthropogenic events, resulting in increased light which can increase fish biomass by promoting in-stream food resources. We conducted a 5 y before-after-control-impact (BACI) study on 10 small streams in the Oregon Coast Range, USA, and investigated how changes to the magnitude of stream light, mediated by conventional and alternative riparian buffer configurations adjacent to upland timber harvest, changed Coastal Cutthroat Trout (Oncorhynchus clarkii clarkii) abundance, biomass, bioenergetics, diet composition, and the availability of aquatic food resources. Riparian buffer treatments reduced canopy cover as much as 34 % cover (98–99 % pre; 64–98 % post-treatment) and enhanced total available sunlight reaching the stream surface by 8–31 % relative to unharvested references that only changed by 3–4 %. In the first year following the treatments, young-of-year trout (YOY, age 0) densities changed by between +0.1 and +0.78 #/m2 in treatment streams while densities changed by –0.001 and +0.02 #/m2 at reference streams. Although change in YOY densities was positively correlated with change in stream light (r s =0.81, p =0.02), changes in basal resources (periphyton and macroinvertebrates) were both positive and negative and did not increase with change in stream light. Adult (age 1+) trout responses were mixed in the first year post-treatment, but changed by –0.14 to +0.24 #/m2 at treatment sites (–0.02 to –0.05 at reference sites) in the second year post-treatment, likely due to increased recruitment from the strong cohort of YOY in the first year. Bioenergetics analysis in one post-treatment year showed that adult trout did not experience greater summer growth (–0.003 to +0.0005 g g−1 d−1) or proportions of maximum consumption (0.18–0.25) in streams with more light than at reference streams (–0.001 and +0.001 g g−1 d−1, 0.19 and 0.23). Overall, while standing stock assessments suggest that fish showed some increases after experimental treatments that increased light, our data did not provide the clear mechanistic evidence for bottom-up drivers that was expected. The relationship between canopy removal and fish production is not always predictable in small headwater streams, and even though fish populations were generally resilient to riparian manipulation, evaluations of terrestrial food resources, the dynamic between canopy cover and light reaching the stream, and changes to temperature may lend valuable insight on the impacts to fish populations. • Ten streams were surveyed before and after riparian buffer treatments. • Juvenile trout density increased after harvest, but bottom-up resources did not. • Change in light correlated with change in juvenile trout density and temperature. • Modeled summer food consumption was low across sites in one post-treatment year. • We found limited support that light increased aquatic food resources for fish. [ABSTRACT FROM AUTHOR]

Published

2024

8. Zooming in the plastisphere: the ecological interface for phytoplankton–plastic interactions in aquatic ecosystems

Author

Nava, V., Dar, J.Y., De Santis, V., Fehlinger, L., Pasqualini, Julia, Adekolurejo, O.A., Burri, B., Cabrerizo, M.J., Chonova, T., Cour, M., Dory, F., Drost, A.M., Figler, A., Gionchetta, G., Halabowski, D., Harvey, D.R., Manzanares-Vázquez, V., Misteli, B., Mori-Bazzano, L., Moser, V., Rotta, F., Schmid-Paech, B., Touchet, C.M., Gostyńska, J., Nava, V., Dar, J.Y., De Santis, V., Fehlinger, L., Pasqualini, Julia, Adekolurejo, O.A., Burri, B., Cabrerizo, M.J., Chonova, T., Cour, M., Dory, F., Drost, A.M., Figler, A., Gionchetta, G., Halabowski, D., Harvey, D.R., Manzanares-Vázquez, V., Misteli, B., Mori-Bazzano, L., Moser, V., Rotta, F., Schmid-Paech, B., Touchet, C.M., and Gostyńska, J.

Abstract

Phytoplankton is an essential resource in aquatic ecosystems, situated at the base of aquatic food webs. Plastic pollution can impact these organisms, potentially affecting the functioning of aquatic ecosystems. The interaction between plastics and phytoplankton is multifaceted: while microplastics can exert toxic effects on phytoplankton, plastics can also act as a substrate for colonisation. By reviewing the existing literature, this study aims to address pivotal questions concerning the intricate interplay among plastics and phytoplankton/phytobenthos and analyse impacts on fundamental ecosystem processes (e.g. primary production, nutrient cycling). This investigation spans both marine and freshwater ecosystems, examining diverse organisational levels from subcellular processes to entire ecosystems. The diverse chemical composition of plastics, along with their variable properties and role in forming the “plastisphere”, underscores the complexity of their influences on aquatic environments. Morphological changes, alterations in metabolic processes, defence and stress responses, including homoaggregation and extracellular polysaccharide biosynthesis, represent adaptive strategies employed by phytoplankton to cope with plastic-induced stress. Plastics also serve as potential habitats for harmful algae and invasive species, thereby influencing biodiversity and environmental conditions. Processes affected by phytoplankton–plastic interaction can have cascading effects throughout the aquatic food web via altered bottom-up and top-down processes. This review emphasises that our understanding of how these multiple interactions compare in impact on natural processes is far from complete, and uncertainty persists regarding whether they drive significant alterations in ecological variables. A lack of comprehensive investigation poses a risk of overlooking fundamental aspects in addressing the environmental challenges associated with widespread plastic pollution.

Published

2024

9. Both climate trends and short‐term fluctuations affected algae–zooplankton interactions in a boreal lake during the late Holocene.

Author

Belle, Simon, Tõnno, Ilmar, Vrede, Tobias, Freiberg, Rene, L. Nilsson, Jenny, and Goedkoop, Willem

Subjects

*STABLE isotopes, *HOLOCENE Epoch, *ALGAL communities, *PHOTOSYNTHETIC pigments, *CARBON isotopes, *LITTLE Ice Age, *BROOD stock assessment

Abstract

Most studies aiming to explore the response of algae and zooplankton trophic interactions to climate variability have only been focused on unidirectional and very short‐term trends in temperature changes. As a result, the non‐stationary aspect of climate change (warming and cooling periods, frequencies) remains completely unstudied.We studied elemental and stable isotope composition of sedimentary organic matter, photosynthetic pigments, and carbon stable isotope composition of Cladocera resting eggs in a sediment record covering the last c. 2,600 years. We examined how past climate change acting at different timescales affected algal biomass and community composition, and carbon assimilation by zooplankton in a boreal lake.Our study revealed major effects of both long‐term climate trends and shorter‐term fluctuations on algae–zooplankton interactions in a boreal lake. We found the main climate trends, in particular the Little Ice Age, induced algal biomass and community composition changes and drastic changes in carbon assimilation by zooplankton. Interestingly, we found that temperature fluctuations could also contribute to regulating algae–zooplankton interactions. Specifically, we observed drastic changes in sedimentary markers and stable isotope composition of zooplankton remains during the most recent period, suggesting a strong influence of ongoing anthropogenic change on algae–zooplankton interactions.Our study confirms previous findings showing close long‐term linkage between the temporal dynamics of zooplankton diet and planktonic algae, and that both climate trends and short‐term fluctuations are key in regulating consumer–resource trophic interactions.Novel approaches that combine high temporal resolution paleolimnological reconstructions and contemporary monitoring studies are needed to better understand climate change effects on algae–zooplankton interactions and lake food webs. [ABSTRACT FROM AUTHOR]

Published

2021

10. A Floating Aquatic Macrophyte (Spirodela polyrhiza) Does Not Reduce the Quality of the Aquatic Environment for Anuran Development

Author

Bach, Madeline Rose

Subjects

Ecology, aquatic food webs, freshwater ecology, anuran metamorphosis, anuran development, Lithobates pipiens, Lithobates clamitans, Hyla chrysoscelis, ammonium nitrate, inorganic nitrogen, duckweed, Spirodela polyrhiza, aquatic macrophytes

Abstract

Duckweed, aquatic macrophytes in the family Lemnaceae, are used in phytoremediation because of their ability to uptake nutrients but are also viewed as pests due to their tendency to rapidly reproduce and cover ponds. This study examined how the interaction of duckweed and nitrogen addition impacts amphibian metamorphosis. Because duckweed has been shown to alter light and algal levels and amphibian larvae consume algal food resources, I hypothesized that duckweed presence negatively impacts amphibian larval development by altering algal levels and that this effect intensifies with nitrogen fertilizer addition. To test this, I conducted mesocosm studies with three species of anuran larvae, in which I manipulated two factors, duckweed (present or absent) and ammonium nitrate (present or absent), and measured abiotic conditions of the aquatic environment, algal abundance, and metamorphosis endpoints. The addition of nitrogen benefited anuran metamorphosis, although no increases in algal abundance were measured. Despite impacts on abiotic factors in the aquatic communities, duckweed had no negative impacts on anurans and some positive effects, such as increasing northern leopard frog biomass, which suggests that duckweed at densities used in this study do not pose a threat to habitat quality for amphibian larval development.

Published

2024

11. Effects of changes in isotopic baselines on the evaluation of food web structure using isotopic functional indices

Author

Simon Belle and Gilbert Cabana

Subjects

Aquatic food webs, Trophic structure, Stable isotopes, Waterfalls, Medicine, Biology (General), QH301-705.5

Abstract

Background This study aimed to assess whether ecological inferences from isotopic functional indices (IFIs) are impacted by changes in isotopic baselines in aquatic food webs. We used sudden CO2-outgassing and associated shifts in DIC-δ13C brought by waterfalls as an excellent natural experimental set-up to quantify impacts of changes in algal isotopic baselines on ecological inferences from IFIs. Methods Carbon (δ13C) and nitrogen (δ15N) stable isotopic ratios of invertebrate communities sharing similar structure were measured at above- and below-waterfall sampling sites from five rivers and streams in Southern Quebec (Canada). For each sampled invertebrate community, the six Laymans IFIs were then calculated in the δ -space (δ13C vs. δ15N). Results As expected, isotopic functional richness indices, measuring the overall extent of community trophic space, were strongly sensitive to changes in isotopic baselines unlike other IFIs. Indeed, other IFIs were calculated based on the distribution of species within δ-space and were not strongly impacted by changes in the vertical or horizontal distribution of specimens in the δ-space. Our results highlighted that IFIs exhibited different sensitivities to changes in isotopic baselines, leading to potential misinterpretations of IFIs in river studies where isotopic baselines generally show high temporal and spatial variabilities. The identification of isotopic baselines and their associated variability, and the use of independent trophic tracers to identify the actual energy pathways through food webs must be a prerequisite to IFIs-based studies to strengthen the reliability of ecological inferences of food web structural properties.

Published

2020

12. Carbon sources supporting Australia's most widely distributed freshwater fish, Nematalosa erebi (Günther) (Clupeidae: Dorosomatinae).

Author

Pusey, Bradley J., Jardine, Timothy D., Beesley, Leah S., Kennard, Mark J., Tze Wai Ho, Bunn, Stuart E., and Douglas, Michael M.

Abstract

Both brown (detrital-based) and green (algal-based) food pathways support freshwater food webs, although the importance of either sourcemay vary within species, regions and different phases of the flowregime. The bony bream (Nematalosa erebi Clupeidae:Dorosomatinae) is one of Australia's mostwidely distributed freshwater fish species and is a key component of freshwater food webs, especially in northern Australia. We sought to better define the feeding habits of this species, previously classified as a detritivore, algivore or zooplanktivore (or combinations thereof), by undertaking meta-analyses of published accounts based on stomach content analysis and 13C and 15N stable isotope analysis. Stomach content analysis clearly indicated that detritus was the dominant food item, although benthic algae could be an important dietary component in some habitats (inland river flood plains) and during the wet season. Zooplankton were important for small fish (i.e. juveniles, 100 mm in length). When data were pooled across a large number of locations, stable isotope analysis indicated that detritus derived from terrestrial vegetation was better aligned isotopically with values for both adult and juvenile bony bream, whereas algae were comparatively 13C enriched, indicating the latter source was not the dominant contributor to the biomass of this species. However, using site-specific data and a regression approach, a significant relationship was revealed between algal carbon and that of large fish, suggesting that carbon derived from benthic algae contributed ~20% of the carbon of adult bony bream. Zooplankton contributed a similar amount. Zooplankton provided the majority of carbon for small fish. We contend that detritus derived from terrestrial vegetation is the likely remaining carbon source for large bony bream, and this interpretation was supported by the outcomes of multiple regression analyses. Although previous studies of aquatic food webs in northern Australia have emphasised the importance of high-quality algal basal resources, this study indicates that terrestrial sources may be important for some species and demonstrates the need to better consider the circumstances that cause biota to switch between different food sources. [ABSTRACT FROM AUTHOR]

Published

2021

13. Effects and prediction of nonpoint source pollution on the structure of aquatic food webs.

Author

Zhao, Chang S., Pan, Xu, Yang, Sheng T., Xiang, Hua, Zhao, Jin, Gan, Xin J., Ding, Su Y., and Yu, Qiang

Subjects

WATER pollution, NONPOINT source pollution, PARTIAL least squares regression, ECOSYSTEM management, CHEMICAL oxygen demand, WATER quality

Abstract

Nonpoint source pollution entering rivers will pollute water quality, degrading the health of aquatic ecosystems. However, owing to the lack of quantitative research on the effects of nonpoint source pollution on the structure of aquatic food webs, there is a lack of quantitative basis for river management. Nonpoint source pollution is not only difficult to control effectively, but also the success rate of water ecological restoration projects is low. With the increasing proportion of nonpoint source pollution in water environmental problems, it is urgent to quantitatively assess and predict the impact of nonpoint source pollution on the structure of food webs. Therefore, this thesis presents a method for quantitatively assessing and predicting the impact of nonpoint source pollution on the structure of food webs through using fuzzy clustering to screen the typical points of the impact of nonpoint source pollution, then using canonical correspondence analysis (CCA) and partial least squares regression analysis to comprehensively filtrate the driving factors affect food web that results in nonpoint source pollution, and then determining the impact of each driving factor on the structure of food webs. Finally, the change trend of food web structure is predicted. The results show that (1) the driving factors that the nonpoint source pollution that affects the food web structure is NH3‐N and chemical oxygen demand (COD). The increase in NH3‐N and COD promotes the growth of phytoplankton, causing the change of the primary productivity of the ecosystem, and ultimately changes the entire food web structure; (2) NH3‐N and COD affect the stability, maturity, connectivity and complexity of the aquatic food web structure. The increase of NH3‐N increases the connectivity and maturity of the food web structure but reduces complexity and stability; the increase of COD increases the connection of the food web structure, while reducing the other three indicators; (3) in some areas with good water quality, aquatic species diversity is high, the relationship of interspecies dietary is complex, food web structure level index is high and the structure of food web is stable. The food web structure in the rainy season will be better than that in the dry season. In some areas with severe water pollution and poor food web structure, the ability of the food web to resist external interference is weak. The food web structure in the rainy season will be worse than that in the dry season owing to rainfall into the river. The methods and conclusions in this treatise can provide a reliable and quantitative scientific basis for river ecosystem management and ecosystem restoration and can improve the success rate of ecological restoration projects. [ABSTRACT FROM AUTHOR]

Published

2021

14. Microplastic Toxicity in Aquatic Organisms and Aquatic Ecosystems: a Review

Author

Rakib, Md. Refat Jahan, Sarker, Aniruddha, Ram, Kirpa, Uddin, Md. Giash, Walker, Tony R., Chowdhury, Tanzin, Uddin, Jamal, Khandaker, Mayeen Uddin, Rahman, Mohammed M., and Idris, Abubakr M.

Published

2023

15. Effects of temperature on food isotopic integrity and trophic fractionation in Chironomus riparius in laboratory experiments.

Author

Belle, Simon, Hiltunen, Evelina, Nilsson, Jenny L., and Goedkoop, Willem

Subjects

*CHIRONOMUS riparius, *TEMPERATURE effect, *STABLE isotopes, *NITROGEN isotopes, *FOOD composition

Abstract

Our experimental study was designed to assess the effects of temperature on food isotopic integrity and trophic fractionations (of carbon and nitrogen stable isotopes: Δ13C and Δ15N) in chironomid larvae. A laboratory experiment was run using Chironomus riparius larvae at 15, 18 and 23°C, and under three pulverized food resources. There were significant changes in the stable isotopic composition of the uneaten food, revealing the difficulty of preventing food microbial degradation in rearing experiments. C/N ratios of chironomid larvae were also affected by temperature, regardless of the food resource, suggesting changes in lipid contents and associated effects on the larval δ13C values. Therefore, differences in calculation methods (with vs. without lipid normalizations, fresh vs. old food isotopic baselines) induced large variability in Δ13C and Δ15N values, but our trophic fractionation estimates were similar to those previously reported in literature. Therefore, we conclude that temperature is not a major driver of the variability in trophic fractionations for chironomid larvae, and stable isotope composition of aquatic consumers can be used in food webs studies under changing temperature conditions. Variability in trophic fractionation estimates should, however, be considered to avoid misinterpretations of food web structure. [ABSTRACT FROM AUTHOR]

Published

2020

16. Groundwater Dependent Ecosystems in Arid Zones Can Use Ancient Subterranean Carbon as an Energy Source in the Local Food Web.

Author

Dean, Joshua F.

Subjects

GROUNDWATER, ARID regions, PALEOANTHROPOLOGY, CARBON cycle

Abstract

Groundwater dependent ecosystems (GDEs) are defined by their reliance on subterranean water resources, but GDE food webs may also depend on it as an energy source. Mazumder et al. (2019, https://doi.org/10.1029/2018JG004925), show a clear dependency of a local GDE food web on very old, potentially geological, carbon sourced from palaeo‐groundwater discharge in the arid Great Artesian Basin in Australia. These findings support the emerging paradigm that ancient groundwater carbon is an important component of inland water carbon cycling and contemporary ecosystem functioning. Future work is needed to determine what proportion of total GDE energy needs are derived from groundwater carbon across a range of geological and hydroclimatic settings. Plain Language Summary: Many arid ecosystems rely on groundwater for their water needs. A new study in the arid zone of Australia shows the incorporation of ancient carbon into living aquatic species in these ecosystems. This suggests that present‐day ecosystems may rely on both water and carbon resources generated thousands of years ago when the prevailing environmental conditions were significantly different than today. Key Points: A contemporary Australian groundwater dependent ecosystem utilizes palaeo‐groundwater as a carbon source in the local food webAncient carbon can be an important component of the modern carbon cycle in arid zonesManagement of groundwater dependent ecosystems should consider food web contributions as well as water resources [ABSTRACT FROM AUTHOR]

Published

2019

17. Review of Estimating Trophic Relationships by Quantitative Fatty Acid Signature Analysis

Author

Junbo Zhang, Chonglan Ren, Hu Zhang, Fang Yin, Shuo Zhang, Rong Wan, and Daisuke Kitazawa

Subjects

quantitative fatty acid signature analysis, aquatic food webs, dietary estimation, Naval architecture. Shipbuilding. Marine engineering, VM1-989, Oceanography, GC1-1581

Abstract

The dynamic predator–prey relations in the food web are vital for understanding the function and structure of ecosystems. Dietary estimation is a research hotspot of quantitative ecology, providing key insights into predator–prey relationships. One of the most promising approaches is quantitative fatty acid signature analysis (QFASA), which is the first generation of statistical tools to estimate the quantitative trophic predator–prey relationships by comparing the fatty acid (FA) signatures among predators and their prey. QFASA has been continuously widely applied, refined and extended since its introduction. This article reviewed the research progress of QFASA from development and application. QFASA reflects the long-term diet of predator, and provides the quantitative dietary composition of predator, but it is sensitive to the metabolism of predator. The calibration coefficients (CCs) and the FA subset are two crucial parameters to explain the metabolism of predators, but the incorrect construction or improper use of CCs and the FA subset may cause bias in dietary estimation. Further study and refinement of the QFASA approach is needed to identify recommendations for which CCs and subsets of FA work best for different taxa and systems.

Published

2020

18. Mycoloop: Modeling phytoplankton-chytrid-zooplankton interactions in aquatic food webs.

Author

Chen M, Gao H, and Zhang J

Subjects

Animals, Zooplankton, Phytoplankton, Food Chain

Abstract

A dynamic model is proposed to describe a mycoloop in aquatic food webs. The model consists of phytoplankton, chytrids and zooplankton. It characterizes that zooplankton consume both phytoplankton and free-living chytrid spores, and that chytrids infect phytoplankton. The dynamics of the model are investigated containing the dissipativity, existence and stability of equilibria, and persistence. The ecological reproductive indexes for phytoplankton or zooplankton invasion and basic reproduction numbers for chytrid transmission are derived. The parameter values of the model are estimated based on experimental data. Numerical simulations explore the effects of the mycoloop on phytoplankton blooms and chytrid transmission. This research reveals that the mycoloop structure increases or reduces phytoplankton blooms, and controls the spread of chytrids among phytoplankton., Competing Interests: Declaration of competing interest All authors report there are no conflicts of interest related to the present article., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published

2024

19. Trophodynamics of halogenated organic pollutants (HOPs) in aquatic food webs.

Author

Xie, Jingqian, Tu, Shuyi, Hayat, Kashif, Lan, Ruo, Chen, Chuchu, Leng, Tiantian, Zhang, Hanlin, Lin, Tian, and Liu, Weiping

Published

2023

20. From salmon to shad: Shifting sources of marine-derived nutrients in the Columbia River Basin.

Author

Haskell, Craig A.

Subjects

*PACIFIC salmon fishing, *AMERICAN shad, *SPAWNING, *NITROGEN analysis

Abstract

Like Pacific salmon ( Oncorhynchus spp.), nonnative American shad ( Alosa sapidissima) have the potential to convey large quantities of nutrients between the Pacific Ocean and freshwater spawning areas in the Columbia River Basin ( CRB). American shad are now the most numerous anadromous fish in the CRB, yet the magnitude of the resulting nutrient flux owing to the shift from salmon to shad is unknown. Nutrient flux models revealed that American shad conveyed over 15,000 kg of nitrogen (N) and 3,000 kg of phosphorus (P) annually to John Day Reservoir, the largest mainstem reservoir in the lower Columbia River. Shad were net importers of N, with juveniles and postspawners exporting just 31% of the N imported by adults. Shad were usually net importers of P, with juveniles and postspawners exporting 46% of the P imported by adults on average. American shad contributed <0.2% of the total annual P load into John Day Reservoir, but during June when most adult shad are migrating into John Day Reservoir, they contributed as much as 2.0% of the P load. Nutrient inputs by American shad were similar to current but far less than historical inputs of Pacific salmon owing to their smaller size. Given the relatively high background P levels and low retention times in lower Columbia River reservoirs, it is unlikely that shad marine-derived nutrients affect nutrient balances or food web productivity through autotrophic pathways. However, a better understanding of shad spawning aggregations in the CRB is needed. [ABSTRACT FROM AUTHOR]

Published

2018

21. PHYTOPLANKTON AS A BASIC NUTRITIONAL SOURCE IN DIETS OF FISH.

Author

Napiórkowska Krzebietke, Agnieszka

Abstract

This article focuses on the biochemical composition and the role of phytoplankton (primary producer) as a basic nutritional source in diets of fish. In general, an aquatic classical food web comprises phytoplankton, zooplankton and fish (planktivorous and predatory ones) as predominant elements, which in turn define the linear direction of an energy-flow pathway and nutritional transfer. Phytoplankton provides many valuable phytonutrients and biologically active ingredients, especially fatty acids, amino acids, sterols, organic minerals, enzymes, carotenoids, chlorophyll, trace elements, and vitamins, which are directly available for the first larval/juvenile stages of fish or indirectly (through trophic chains) for the more mature forms. Regarding the biochemical composition of phytoplankton, the most nutritional ones are lipids, which affect the growth, health and reproduction of aquatic animals, especially fish species. In general, the freshwater and marine chlorophytes and cryptophytes, and marine diatoms provide more polyunsaturated fatty acids (PUFA>SAFA>MUFA) than other groups, differently to fatty acids supplied by freshwater cyanobacteria (SAFA>MUFA>PUFA). Furthermore, cryptophytes have the highest n-3:n-6 ratio. A similarly high ratio is recorded in fatty acid composition of marine zooplankton with predominant PUFA. Addition of phytoplankton (e.g. Isochrysis galbana, Tetraselmis chui and Nannochloropsis oculata) to the process of fish larval rearing shows to improve the digestive functions at the pancreatic and intestinal levels. The most essential fatty acids for all fish are EPA and DHA, and the most popular fish species containing 4.08-11.84 mg g-1 of dry weight of EPA and DHA, as the sum, can be given in following order: Anguila anguila>Rutilus rutilus>Cyprinus carpio>Esox lucius>Blicca bjoerkna>Perca fluviatilis>Abramis brama>Sander lucioperca>Tinca tinca>Carassius carassius. [ABSTRACT FROM AUTHOR]

Published

2017

22. Opportunistic top predators partition food resources in a tropical freshwater ecosystem.

Author

Villamarín, Francisco, Jardine, Timothy D., Bunn, Stuart E., Marioni, Boris, and Magnusson, William E.

Subjects

*FOOD chains, *FRESHWATER ecology, *PREDATORY animals, *CROCODILIANS, *SYMPATRY (Ecology), *MELANOSUCHUS niger, *CROCODYLIDAE, *FLOODPLAINS

Abstract

The structure of food webs may be strongly influenced by the distribution of top predators in space and time. The Amazon biome is the only region in the world where four alligatorid species are known to occur in sympatry, and they attain high densities in some regions. As top predators with a diverse range of prey species occupying different trophic levels, their impact upon food webs should be substantial, but the degree to which crocodilians differ in their food sources, and potentially avoid competitive exclusion where they occur syntopically is not well understood., Although most crocodilians are considered generalist opportunistic predators that feed on any source of protein available in the environment, Amazonian crocodilians show broad differences in the proportions of prey items they consume. It is believed that these differences may in part reflect habitat use, but it is unknown to what extent they represent interspecific differences in prey preferences or are a direct function of habitat selection., Stable carbon isotope data (δ13C) of crocodilians and their potential prey were used to assess differences in reliance on terrestrial versus aquatic resources. These data were then placed in a spatial context using classified maps that reflect habitat types (headwater streams, mid-order flooded-forest streams and várzea floodplains) to elucidate whether dietary differences are explained by habitat selection or are more likely a reflection of prey preferences., We found evidence for differences in types of basal resources supporting these crocodilians. Mean δ13C values were highest in Paleosuchus trigonatus (Schneider's dwarf caiman, −25.7 ± 1.2‰), intermediate in Caiman crocodilus (spectacled caiman, −27.4 ± 1.2‰) and Paleosuchus palpebrosus (Cuvier's dwarf caiman, −27.7 ± 1.1‰) and lowest in Melanosuchus niger (black caiman, −29.9 ± 1.3‰)., A progressive decrease in δ13C values of crocodilian tissues occurred from headwaters to floodplains, which most likely reflects a progressive increase in autochthonous over allochthonous inputs in lower reaches of streams. The shift from terrestrial to aquatic resources sustaining these sympatric predators mirrors their spatial distribution along this ecotone. However, after taking into account the habitat in which pairs of syntopic individuals of distinct species occurred, significant differences in δ13C values suggest that P. trigonatus and P. palpebrosus have different prey bases. Thus, despite being opportunistic predators, our results show that differences in crocodilian diets likely result from prey preferences and not only from habitat selection. These findings suggest that some species of crocodilians may be less generalist than traditionally thought and their influence on terrestrial or aquatic food webs might be species specific. [ABSTRACT FROM AUTHOR]

Published

2017

23. Allochthony, fatty acid and mercury trends in muscle of Eurasian perch (Perca fluviatilis) along boreal environmental gradients

Author

Ossi Keva, Mikko Kiljunen, Heikki Hämäläinen, Roger I. Jones, Kimmo K. Kahilainen, Paula Kankaala, Miikka B. Laine, Jos Schilder, Ursula Strandberg, Jussi Vesterinen, Sami J. Taipale, and Biological stations

Subjects

LAKES, TERRESTRIAL, liuennut orgaaninen hiili, Environmental Engineering, PH, HYDROGEN ISOTOPES, elohopea, AQUATIC FOOD WEBS, Environmental change, Hazard quotient, FISH, STABLE-ISOTOPES, Animals, Environmental Chemistry, DISSOLVED ORGANIC-CARBON, ahven, Waste Management and Disposal, 1172 Environmental sciences, FRESH-WATER, NUTRITIONAL QUALITY, Muscles, rehevöityminen, Fatty Acids, vesiekosysteemit, Phosphorus, Mercury, Eutrophication, Pollution, omegarasvahapot, Perches, 1181 Ecology, evolutionary biology, Fatty Acids, Unsaturated, Autochthony, Browning, ympäristönmuutokset, ravintoverkot

Abstract

Environmental change, including joint effects of increasing dissolved organic carbon (DOC) and total phosphorus (TP) in boreal northern lakes could potentially affects food web energy sources and the biochemical composition of organisms. These environmental stressors are enhanced by anthropogenic land-use and can decrease the quality of polyunsaturated fatty acids (PUFAs) in seston and zooplankton, and therefore, possibly cascading up to fish. In contrast, the content of mercury in fish increases with lake browning potentially amplified by intensive forestry practises. However, there is little evidence on how these environmental stressors simultaneously impact beneficial omega-3 fatty acid (n3-FA) and total mercury (THg) content of fish muscle for human consumption. A space-for-time substitution study was conducted to assess whether environmental stressors affect Eurasian perch (Perca fluviatilis) allochthony and muscle nutritional quality [PUFA, THg, and their derivative, the hazard quotient (HQ)]. Perch samples were collected from 31 Finnish lakes along pronounced lake size (0.03–107.5 km2), DOC (5.0–24.3 mg L−1), TP (5–118 μg/ L) and land-use gradients (forest: 50.7–96.4%, agriculture: 0–32.6%). These environmental gradients were combined using principal component analysis (PCA). Allochthony for individual perch was modelled using source and consumer δ2H values. Perch allochthony increased with decreasing lake pH and increasing forest coverage (PC1), but no correlation between lake DOC and perch allochthony was found. Perch muscle THg and omega-6 fatty acid (n6-FA) content increased with PC1 parallel with allochthony. Perch muscle DHA (22:6n3) content decreased, and ALA (18:3n3) increased towards shallower murkier lakes (PC2). Perch allochthony was positively correlated with muscle THg and n6-FA content, but did not correlate with n3-FA content. Hence, the quality of perch muscle for human consumption decreases (increase in HQ) with increasing forest coverage and decreasing pH, potentially mediated by increasing fish allochthony. peerReviewed

Published

2022

24. Native richness and species level trophic traits predict establishment of alien freshwater fishes.

Author

Liew, J., Carrasco, L., Yeo, D., and Tan, H.

Abstract

Community level ecological traits are thought to affect invasibility as more diverse communities with complex trophic interactions may be associated with greater biotic resistance. Elucidation of the nature of this relationship is often hampered by difficulties in characterising food webs, particularly where field data are lacking. We attempted to overcome this by coupling food web modelling with information-theoretic analysis of the modelled webs. In addition, we also investigated the possibility that species level trends in trophic traits of established aliens might reflect exploitation of empty niches. We constructed hypothetical food webs of 26 natural and artificial lentic habitats from a data set consisting of 370 fish species representing 71 families. Using these food webs, we investigated associations at the community level between food web traits and network topology and number of alien fish species using an information-theoretic approach based on a set of competing a priori hypotheses. At the species level, we similarly tested for trends in trophic traits of established alien fishes using the information-theoretic approach in addition to nMDS of diet data. We found that native species richness in a community was the most important determinant of the number of alien fish taxa, displaying an inverse relationship. Our data also show that alien fish generally feed lower down the food web. Our findings suggest that the biotic resistance hypothesis, though scale dependent, can result in observable effects in animal communities. Moreover, we also found that the ability to exploit low energy yield food sources could favour the establishment of alien species via avoidance of resistive forces from native taxa. [ABSTRACT FROM AUTHOR]

Published

2016

25. Lake eutrophication and brownification downgrade availability and transfer of essential fatty acids for human consumption.

Author

Taipale, S.J., Vuorio, K., Strandberg, U., Kahilainen, K.K., Järvinen, M., Hiltunen, M., Peltomaa, E., and Kankaala, P.

Subjects

*ESSENTIAL fatty acids in human nutrition, *EUTROPHICATION, *BIOAVAILABILITY, *FOOD chains, *EICOSAPENTAENOIC acid, *PHYTOPLANKTON

Abstract

Fish are an important source of eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA) for birds, mammals and humans. In aquatic food webs, these highly unsaturated fatty acids (HUFA) are essential for many physiological processes and mainly synthetized by distinct phytoplankton taxa. Consumers at different trophic levels obtain essential fatty acids from their diet because they cannot produce these sufficiently de novo . Here, we evaluated how the increase in phosphorus concentration (eutrophication) or terrestrial organic matter inputs (brownification) change EPA and DHA content in the phytoplankton. Then, we evaluated whether these changes can be seen in the EPA and DHA content of piscivorous European perch ( Perca fluviatilis ), which is a widely distributed species and commonly consumed by humans. Data from 713 lakes showed statistically significant differences in the abundance of EPA- and DHA-synthesizing phytoplankton as well as in the concentrations and content of these essential fatty acids among oligo-mesotrophic, eutrophic and dystrophic lakes. The EPA and DHA content of phytoplankton biomass (mg HUFA g − 1 ) was significantly lower in the eutrophic lakes than in the oligo-mesotrophic or dystrophic lakes. We found a strong significant correlation between the DHA content in the muscle of piscivorous perch and phytoplankton DHA content (r = 0.85) as well with the contribution of DHA-synthesizing phytoplankton taxa (r = 0.83). Among all DHA-synthesizing phytoplankton this correlation was the strongest with the dinoflagellates (r = 0.74) and chrysophytes (r = 0.70). Accordingly, the EPA + DHA content of perch muscle decreased with increasing total phosphorus (r 2 = 0.80) and dissolved organic carbon concentration (r 2 = 0.83) in the lakes. Our results suggest that although eutrophication generally increase biomass production across different trophic levels, the high proportion of low-quality primary producers reduce EPA and DHA content in the food web up to predatory fish. Ultimately, it seems that lake eutrophication and brownification decrease the nutritional quality of fish for human consumers. [ABSTRACT FROM AUTHOR]

Published

2016

26. Comparing nearshore benthic and pelagic prey as mercury sources to lake fish: the importance of prey quality and mercury content.

Author

Karimi, Roxanne, Chen, Celia Y., and Folt, Carol L.

Subjects

*BENTHIC ecology, *PREDATION, *FISH physiology, *MERCURY in the body, *BIOACCUMULATION

Abstract

Mercury (Hg) bioaccumulation in fish poses well-known health risks to wildlife and humans through fish consumption. Yet fish Hg concentrations are highly variable, and key factors driving this variability remain unclear. One little studied source of variation is the influence of habitat-specific feeding on Hg accumulation in lake fish. However, this is likely important because most lake fish feed in multiple habitats during their lives, and the Hg and caloric content of prey from different habitats can differ. This study used a three-pronged approach to investigate the extent to which habitat-specific prey determine differences in Hg bioaccumulation in fish. This study first compared Hg concentrations in common nearshore benthic invertebrates and pelagic zooplankton across five lakes and over the summer season in one lake, and found that pelagic zooplankton generally had higher Hg concentrations than most benthic taxa across lakes, and over a season in one lake. Second, using a bioenergetics model, the effects of prey caloric content from habitat-specific diets on fish growth and Hg accumulation were calculated. This model predicted that the consumption of benthic prey results in lower fish Hg concentrations due to higher prey caloric content and growth dilution (high weight gain relative to Hg from food), in addition to lower prey Hg levels. Third, using data from the literature, links between fish Hg content and the degree of benthivory, were examined, and showed that benthivory was associated with reduced Hg concentrations in lake fish. Taken together, these findings support the hypothesis that higher Hg content and lower caloric content make pelagic zooplankton prey greater sources of Hg for fish than nearshore benthic prey in lakes. Hence, habitat-specific foraging is likely to be a strong driver of variation in Hg levels within and between fish species. [ABSTRACT FROM AUTHOR]

Published

2016

27. Terrestrial support of aquatic food webs depends on light inputs: a geographically-replicated test using tank bromeliads.

Author

FARJALLA, VINICIUS F., GONZALEZ, ANGELICA L., CEREGHINO, REGIS, DÉZERALD, OLIVIER, MARINO, NICHOLAS A. C., PICCOLI, GUSTAVO C. O., RICHARDSON, BARBARA A., RICHARDSON, MICHAEL J., ROMERO, GUSTAVO Q., and SRIVASTAVA, DIANE S.

Subjects

*AQUATIC animals -- Food, *FOOD chains, *BROMELIACEAE, *ISOTOPIC analysis, *META-analysis

Abstract

Food webs of freshwater ecosystems can be subsidized by allochthonous resources. However, it is still unknown which environmental factors regulate the relative consumption of allochthonous resources in relation to autochthonous resources. Here, we evaluated the importance of allochthonous resources (litterfall) for the aquatic food webs in Neotropical tank bromeliads, a naturally replicated aquatic microcosm. Aquatic invertebrates were sampled in more than 100 bromeliads within either open or shaded habitats and within five geographically distinct sites located in four different countries. Using stable isotope analyses, we determined that allochthonous sources comprised 74% (±17%) of the food resources of aquatic invertebrates. However, the allochthonous contribution to aquatic invertebrates strongly decreased from shaded to open habitats, as light incidence increased in the tanks. The density of detritus in the tanks had no impact on the importance of allochthonous sources to aquatic invertebrates. This overall pattern held for all invertebrates, irrespective of the taxonomic or functional group to which they belonged. We concluded that, over a broad geographic range, aquatic food webs of tank bromeliads are mostly allochthonous-based, but the relative importance of allochthonous subsidies decreases when light incidence favors autochthonous primary production. These results suggest that, for other freshwater systems, some of the between-study variation in the importance of allochthonous subsidies may similarly be driven by the relative availability of autochthonous resources. [ABSTRACT FROM AUTHOR]

Published

2016

28. The Role of Heterotrophic Microbial Communities in Estuarine C Budgets and the Biogeochemical C Cycle with Implications for Global Warming: Research Opportunities and Challenges.

Author

Anderson, O. Roger

Subjects

*FOOD chains, *MARINE ecology, *EUKARYOTES, *ESTUARINE ecology, *CLIMATE change

Abstract

Estuaries are among the most productive and economically important marine ecosystems at the land-ocean interface and contribute significantly to exchange of CO2 with the atmosphere. Estuarine microbial communities are major links in the biogeochemical C cycle and flow of C in food webs from primary producers to higher consumers. Considerable attention has been given to bacteria and autotrophic eukaryotes in estuarine ecosystems, but less research has been devoted to the role of heterotrophic eukaryotic microbes. Current research is reviewed here on the role of heterotrophic eukaryotic microbes in C biogeochemistry and ecology of estuaries, with particular attention to C budgets, trophodynamics, and the metabolic fate of C in microbial communities. Some attention is given to the importance of these processes in climate change and global warming, especially in relation to sources and sinks of atmospheric CO2, while also documenting the current paucity of research on the role of eukaryotic microbes that contribute to this larger question of C biogeochemistry and the environment. Some recommendations are made for future directions of research and opportunities of applying newer technologies and analytical approaches to a more refined analysis of the role of C in estuarine microbial community processes and the biogeochemical C cycle. [ABSTRACT FROM AUTHOR]

Published

2016

29. Drivers of biomagnification of Hg, As and Se in aquatic food webs: A review

Author

José Marrugo-Negrete, Pablo Andrés Ramos Barón, Leonomir Córdoba-Tovar, Sergi Díez, Díez, Sergi, and Díez, Sergi [0000-0002-9870-2179]

Subjects

Food Chain, Aquatic ecosystem, Biomagnification, Fishes, chemistry.chemical_element, Mercury, Bioaccumulation, Biochemistry, Mercury (element), Arsenic, Selenium, Trophic magnification slope, chemistry, Aquatic food webs, Environmental chemistry, Animals, Environmental science, Ecosystem, Water Pollutants, Chemical, Environmental Monitoring, General Environmental Science, Trophic level

Abstract

Biomagnification of trace elements is increasingly evident in aquatic ecosystems. In this review we investigate the drivers of biomagnification of mercury (Hg), arsenic (As) and selenium (Se) in aquatic food webs. Despite Hg, As and Se biomagnify in food webs, the biomagnification potential of Hg is much higher than that of As and Se. The slope of trophic increase of Hg is consistent between temperate (0.20), tropical (0.22) and Arctic (0.22) ecosystems. Se exerts a mitigating role against Hg toxicity but desired maximum and minimum concentrations are unknown. Environmental (e.g. latitude, temperature and physicochemical characteristics) and ecological factors (e.g. trophic structure composition and food zone) can substantially influence the biomagnification process these metal (oids). Besides the level of bioaccumulated concentration, biomagnification depends on the biology, ecology and physiology of the organisms that play a key role in this process. However, it may be necessary to determine strictly biological, physiological and environmental factors that could modulate the concentrations of As and Se in particular. The information presented here should provide clues for research that include under-researched variables. Finally, we suggest that biomagnification be incorporated into environmental management policies, mainly in risk assessment, monitoring and environmental protection methods., The authors want to thank the Ministery of Science, Technology and Innovation-(MINCIENCIAS/COLCIENCIAS)-Universidad de Cordoba grant 849-2018 for the financial support of this research and to the Universidad Javeriana. This work was partly funded by the CSIC through the project ICOOP2018–COOPB20362.

Published

2021

30. Influence of habitats and physicochemical factors on trophic transfer processes of antibiotics in a freshwater ecosystem: Application of stable isotopes and human health risks.

Author

Qadeer, Abdul, Ajmal, Zeeshan, Hanxia, Liu, Ran, Dai, Bekele, Tadiyose Girma, Kirsten, Kelly L., Liu, Sisi, Liu, Mengyang, Zhifeng, Huang, Jing, Dong, Wang, Shuhang, Xia, Jiang, and Xingru, Zhao

Published

2023

31. Feedbacks between protistan single-cell activity and bacterial physiological structure reinforce the predator/prey link in microbial foodwebs

Author

Eva eSintes and Paul A Del Giorgio

Subjects

heterotrophic bacteria, Functional Response, feedbacks, heterotrophic nanoflagellates, single-cell activity, aquatic food webs, Microbiology, QR1-502

Abstract

The trophic interactions between bacteria and their main predators, the heterotrophic nanoflagellates (HNF), play a key role in the structuring and functioning of aquatic microbial food webs. Grazing regulation of bacterial communities, both of biomass and community structure, have been frequently reported. Additionally, bottom-up responses of the HNF at the population level (numerical responses) have also been extensively described. However, the functional response of HNF at the single cell level has not been well explored. In this study, we concurrently measured the physiological structure of bacterial communities and HNF single cell activities during re-growth cultures of natural aquatic communities. We found that changes in the abundance and proportion of the preferred, highly-active bacterial prey, caused by the feeding activity of their predators (HNF), induced a negative feedback effect on the single cell activity of these HNF. These shifts in the specific cellular activity of HNF occur at a much shorter time scale than population-level shifts in flagellate abundance, and offer a complementary mechanism to explain not only the tight coupling between bacteria and HNF, but also the relative constancy of bacterial abundance in aquatic ecosystems.

Published

2014

32. Drivers of biomagnification of Hg, As and Se in aquatic food webs: A review

Author

Díez, Sergi [0000-0002-9870-2179], Córdoba-Tovar, Leonomir, Marrugo-Negrete, José, Ramos Barón, Pablo, Díez, Sergi, Díez, Sergi [0000-0002-9870-2179], Córdoba-Tovar, Leonomir, Marrugo-Negrete, José, Ramos Barón, Pablo, and Díez, Sergi

Abstract

Biomagnification of trace elements is increasingly evident in aquatic ecosystems. In this review we investigate the drivers of biomagnification of mercury (Hg), arsenic (As) and selenium (Se) in aquatic food webs. Despite Hg, As and Se biomagnify in food webs, the biomagnification potential of Hg is much higher than that of As and Se. The slope of trophic increase of Hg is consistent between temperate (0.20), tropical (0.22) and Arctic (0.22) ecosystems. Se exerts a mitigating role against Hg toxicity but desired maximum and minimum concentrations are unknown. Environmental (e.g. latitude, temperature and physicochemical characteristics) and ecological factors (e.g. trophic structure composition and food zone) can substantially influence the biomagnification process these metal (oids). Besides the level of bioaccumulated concentration, biomagnification depends on the biology, ecology and physiology of the organisms that play a key role in this process. However, it may be necessary to determine strictly biological, physiological and environmental factors that could modulate the concentrations of As and Se in particular. The information presented here should provide clues for research that include under-researched variables. Finally, we suggest that biomagnification be incorporated into environmental management policies, mainly in risk assessment, monitoring and environmental protection methods.

Published

2021

33. Ecology of aerobic anoxygenic phototrophs in aquatic environments.

Author

Koblı ∨zek, Michal

Subjects

*AQUATIC microbiology, *CYANOBACTERIA, *PROKARYOTES, *PROTEORHODOPSIN, *HETEROTROPHIC bacteria, *PROTEOBACTERIA

Abstract

Recognition of the environmental role of photoheterotrophic bacteria has been one of the main themes of aquatic microbiology over the last 15 years. Aside from cyanobacteria and proteorhodopsin-containing bacteria, aerobic anoxygenic phototrophic (AAP) bacteria are the third most numerous group of phototrophic prokaryotes in the ocean. This functional group represents a diverse assembly of species which taxonomically belong to various subgroups of Alpha-, Beta- and Gammaproteobacteria. AAP bacteria are facultative photoheterotrophs which use bacteriochlorophyll-containing reaction centers to harvest light energy. The light-derived energy increases their bacterial growth efficiency, which provides a competitive advantage over heterotrophic species. Thanks to their enzymatic machinery AAP bacteria are active, rapidly growing organisms which contribute significantly to the recycling of organic matter. This chapter summarizes the current knowledge of the ecology of AAP bacteria in aquatic environments, implying their specific role in the microbial loop. [ABSTRACT FROM AUTHOR]

Published

2015

34. The microbiome of urban waters.

Author

McLellan, Sandra L., Fisher, Jenny C., and Newton, Ryan J.

Subjects

*MEDICAL microbiology, *WATER pollution, *SEWAGE

Abstract

More than 50% of the world's population lives in urban centers. As collection basins for landscape activity, urban waters are an interface between human activity and the natural environment. The microbiome of urban waters could provide insight into the impacts of pollution, the presence of human health risks, or the potential for long-term consequences for these ecosystems and the people who depend upon them. An integral part of the urban water cycle is sewer infrastructure. Thousands of miles of pipes line cities as part of wastewater and stormwater systems. As stormwater and sewage are released into natural waterways, traces of human and animal microbiomes reflect the sources and magnitude of fecal pollution and indicate the presence of pollutants, such as nutrients, pathogens, and chemicals. Non-fecal organisms are also released as part of these systems. Runoff from impervious surfaces delivers microbes from soils, plants and the built environment to stormwater systems. Further, urban sewer infrastructure contains its own unique microbial community seemingly adapted to this relatively new artificial habitat. High microbial densities are conveyed via pipes to waterways, and these organisms can be found as an urban microbial signature imprinted on the natural community of rivers and urban coastal waters. The potential consequences of mass releases of non-indigenous microorganisms into natural waters include creation of reservoirs for emerging human pathogens, altered nutrient flows into aquatic food webs, and increased genetic exchange between two distinct gene pools. This review highlights the recent characterization of the microbiome of urban sewer and stormwater infrastructure and its connection to and potential impact upon freshwater systems. [ABSTRACT FROM AUTHOR]

Published

2015

35. Invasive alien aquatic plant species management drives aquatic ecosystem community recovery: An exploration using stable isotope analysis.

Author

Motitsoe, Samuel N., Hill, Jaclyn M., Coetzee, Julie A., and Hill, Martin P.

Subjects

*INTRODUCED aquatic species, *STABLE isotope analysis, *AQUATIC biodiversity, *ECOLOGICAL disturbances, *ECOLOGICAL impact, *FOOD chains, *MACROPHYTES, *POTAMOGETON

Abstract

• Salvinia molesta infestation negatively affected aquatic food web structure. • Stable Isotope Bayesian Ellipses models were sensitive to quantify S. molesta impacts. • Abiotic filters associated with invasion were important drivers for degradation. • Aquatic system communities recovered shortly after biological or mechanical control. • Aquatic weeds control alone is not sufficient to restore previously invaded systems. The socio-economic and ecological impacts of invasive alien aquatic plant (IAAP) species have been well studied globally. However less is known about ecosystem recovery following the management of IAAP species. This study employed a before-after study design to investigate ecological recovery following the management of Salvinia molesta D.S. Mitchell, at four field sites in South Africa. We hypothesized that the presence of S. molesta would have a negative impact on the ecosystem food web structure, and that following S. molesta control, the systems would show positive ecosystem recovery. Aquatic macroinvertebrate and macrophyte samples collected before and after mechanical or biological control of S. molesta , were analysed for δ13C and δ15N stable isotopes. Salvinia molesta infestations negatively impacted the food web structure, indicated by reduced food chain length, trophic diversity and basal resources. This represented an altered aquatic food web structure, that in some cases, led to the collapse of the aquatic community. In contrast, after either mechanical or biological control, there were increases in food chain length, trophic diversity and abundance of energy resources accessed by consumers, indicating improved food web structure. Although the study showed positive ecosystem recovery following control, we noted that each control method followed a different recovery trajectory. We conclude that S. molesta invasions reduce aquatic biodiversity and alter ecosystem trophic dynamics and related ecosystem processes, necessitating control. [ABSTRACT FROM AUTHOR]

Published

2022

36. Effects of forest management on mercury bioaccumulation and biomagnification along the river continuum.

Author

Negrazis, Lauren, Kidd, Karen A., Erdozain, Maitane, Emilson, Erik J.S., Mitchell, Carl P.J., and Gray, Michelle A.

Subjects

FOREST management, BIOMAGNIFICATION, DISSOLVED organic matter, MERCURY, MERCURY poisoning, BIOACCUMULATION, ORGANIC foods, FOOD chains

Abstract

Forest management can alter the mobilization of mercury (Hg) into headwater streams and its conversion to methylmercury (MeHg), the form that bioaccumulates in aquatic biota and biomagnifies through food webs. As headwater streams are important sources of organic materials and nutrients to larger systems, this connectivity may also increase MeHg in downstream biota through direct or indirect effects of forestry on water quality or food web structure. In this study, we collected water, seston, food sources (biofilm, leaves, organic matter), five macroinvertebrate taxa and fish (slimy sculpin; Cottus cognata) at 6 sites representing different stream orders (1–5) within three river basins with different total disturbances from forestry (both harvesting and silviculture). Methylmercury levels were highest in water and some food sources from the basin with moderate disturbance (greater clearcutting but less silviculture). Water, leaves, stoneflies and fish increased in MeHg or total Hg along the river continuum in the least disturbed basin, and there were some dissipative effects of forest management on these spatial patterns. Trophic level (δ15N) was a significant predictor of MeHg (and total Hg in fish) within food webs across all 18 sites, and biomagnification slopes were significantly lower in the basin with moderate total disturbance but not different in the other two basins. The elevated MeHg in lower trophic levels but its reduced trophic transfer in the basin with moderate disturbance was likely due to greater inputs of sediments and of dissolved organic carbon that is more humic, as these factors are known to both increase transport of Hg to streams and its uptake in primary producers but to also decrease MeHg bioaccumulation in consumers. Overall, these results suggest that the type of disturbance from forestry affects MeHg bioaccumulation and trophic transfer in stream food webs and some longitudinal patterns along a river continuum. [Display omitted] • Forestry increases methylmercury (MeHg) in small streams but impacts along the river continuum are unclear. • Elevated MeHg in basal compartments at upstream through downstream sites linked to greater % clearcutting in one basin. • This elevated basal MeHg did not increase fish Hg due to lower trophic transfer in this basin. • MeHg in some compartments increased longitudinally in the basin with low forestry disturbance. • Little evidence of forestry impacts on biomagnification efficiency along river continuum. [ABSTRACT FROM AUTHOR]

Published

2022

37. Bioaccumulation and trophic dilution of human pharmaceuticals across trophic positions of an effluent-dependent wadeable stream.

Author

Du, Bowen, Haddad, Samuel P., Luek, Andreas, Scott, W. Casan, Saari, Gavin N., Kristofco, Lauren A., Connors, Kristin A., Rash, Christopher, Rasmussen, Joseph B., Chambliss, C. Kevin, and Brooks, Bryan W.

Subjects

*BIOACCUMULATION in fishes, *DRUGS & the environment, *SEWAGE & the environment, *TANDEM mass spectrometry, *SERTRALINE

Abstract

Though pharmaceuticals are increasingly observed in a variety of organisms from coastal and inland aquatic systems, trophic transfer of pharmaceuticals in aquatic food webs have not been reported. In this study, bioaccumulation of select pharmaceuticals was investigated in a lower order effluent-dependent stream in central Texas, USA, using isotope dilution liquid chromatography- tandem mass spectrometry (MS). A fish plasma model, initially developed from laboratory studies, was tested to examine observed versus predicted internal dose of select pharmaceuticals. Pharmaceuticals accumulated to higher concentrations in invertebrates relative to fish; elevated concentrations of the antidepressant sertraline and its primary metabolite desmethylsertraline were observed in the Asian clam, Corbicula fluminea, and two unionid mussel species. Trophic positions were determined from stable isotopes (δ15N and δ13C) collected by isotope ratio-MS; a Bayesian mixing model was then used to estimate diet contributions towards top fish predators. Because diphenhydramine and carbamazepine were the only target compounds detected in all species examined, trophic magnification factors (TMFs) were derived to evaluate potential trophic transfer of both compounds. TMFs for diphenhydramine (0.38) and carbamazepine (1.17) indicated neither compound experienced trophic magnification, which suggests that inhalational and not dietary exposure represented the primary route of uptake by fish in this effluent-dependent stream. [ABSTRACT FROM AUTHOR]

Published

2014

38. Feedbacks between protistan single-cell activity and bacterial physiological structure reinforce the predator/prey link in microbial foodwebs.

Author

Sintes, Eva and del Giorgio, Paul A.

Subjects

HETEROTROPHIC bacteria, PREDATION, AQUATIC ecology, MARINE microorganisms, PHYSIOLOGICAL control systems, PHYSIOLOGY

Abstract

The trophic interactions between bacteria and their main predators, the heterotrophic nanoflagellates (HNFs), play a key role in the structuring and functioning of aquatic microbial food webs. Grazing regulation of bacterial communities, both of biomass and community structure, have been frequently reported. Additionally, bottom-up responses of the HNF at the population level (numerical responses) have also been extensively described. However, the functional response of HNF at the single-cell level has not been well explored. In this study, we concurrently measured the physiological structure of bacterial communities and HNF single-cell activities during re-growth cultures of natural aquatic communities. We found that changes in the abundance and proportion of the preferred, highly active bacterial prey, caused by the feeding activity of their predators (HNF), induced a negative feedback effect on the single-cell activity of these HNF. These shifts in the specific cellular activity of HNF occur at a much shorter time scale than population level shifts in flagellate abundance, and offer a complementary mechanism to explain not only the tight coupling between bacteria and HNF, but also the relative constancy of bacterial abundance in aquatic ecosystems. [ABSTRACT FROM AUTHOR]

Published

2014

39. Autochthonous resources are the main driver of consumer production in dystrophic boreal lakes.

Author

Lau, Danny C. P., Sundh, Ingvar, Vrede, Tobias, Pickova, Jana, and Goedkoop, Willem

Subjects

*BIOENERGETICS, *CARBON content of water, *UNSATURATED fatty acids, *METHANOTROPHS, *ASELLUS aquaticus, *SIALIS lutaria, *NITROGEN isotopes, *LAKES

Abstract

Dystrophic lakes are widespread in temperate regions and intimately interact with surrounding terrestrial ecosystems in energy and nutrient dynamics, yet the relative importance of autochthonous and allochthonous resources to consumer production in dystrophic lakes remains controversial. We argue that allochthonous organic matter quantitatively dominates over photosynthetic autotrophs in dystrophic lakes, but that autotrophs are higher in diet quality and more important for consumers as they contain essential polyunsaturated fatty acids (PUFA). In a field study, we tested the hypotheses that (1) autochthonous primary production is the main driver for consumer production, despite being limited by light availability and low nutrient supplies, and greater supply of allochthonous carbon, (2) the relative contribution of autotrophs to consumers is directly related to their tissue PUFA concentrations, and (3) methane-oxidizing bacteria (MOB) provide an energy alternative for consumers. Pelagic and benthic consumer taxa representing different trophic levels were sampled from five dystrophic lakes: isopod Asellus aquaticus, megalopteran Sialis lutaria, dipteran Chaoborus flavicans, and perch Percafluviatilis. Based on carbon and nitrogen stable isotopes, the relative contributions of autochthonous (biofilms and seston) and allochthonous (coarse particulate and dissolved organic matter) resources and MOB to these taxa were 47-79%, 9-44% and 7-12% respectively. Results from fatty acid (FA) analyses show that the relative co3-FA and PUFA concentrations increased with trophic level (Asellus < Sialis and Chaoborus < Perca). Also, eicosapentaenoic-acid (EPA), co3-FA and PUFA concentrations increased with the autochthonous contribution in consumers, i.e., a 47-79% biofilm and/or seston diet resulted in tissue EPA of 4.2-18.4, oe3 FAs of 11.6-37.0 and PUFA of 21.6-61.0 mg/g dry mass. The results indicate that consumers in dystrophic lakes predominantly rely on energy from autotrophs and that their PUFA concentrations are dependent on the relative contribution of these autochthonous resources. The limited energy support from MOB suggests they are not negligible and are potentially an integral part of the food webs. Our findings show that autochthonous resources are the main driver of secondary production even in dystrophic lakes and offer new insights into the functioning of these ecosystems. [ABSTRACT FROM AUTHOR]

Published

2014

40. Mining pollution triggered a regime shift in the cladoceran community of Lake Kirkkojärvi, southern Finland

Author

Jaakko Johannes Leppänen, Jan Weckström, Atte Korhola, Helsinki Institute of Sustainability Science (HELSUS), Environmental Change Research Unit (ECRU), and Ecosystems and Environment Research Programme

Subjects

0106 biological sciences, Pollution, SW FINLAND, media_common.quotation_subject, Climate change, 010501 environmental sciences, Aquatic Science, AQUATIC FOOD WEBS, 01 natural sciences, Paleolimnology, Mining, RICHNESS, REMAINS, PHYTOPLANKTON, Phytoplankton, Regime shift, 14. Life underwater, Water pollution, Finland, 1172 Environmental sciences, 0105 earth and related environmental sciences, Earth-Surface Processes, media_common, PALEOLIMNOLOGY, Ecology, 010604 marine biology & hydrobiology, Aquatic ecosystem, 15. Life on land, Cladocera, ZOOPLANKTON, 13. Climate action, SPECIES SENSITIVITY, Eutrophication, Minewater, SUBFOSSIL CLADOCERA, SEDIMENTS

Abstract

Mining is one of the key industries in the world and mine water pollution is a serious threat to aquatic ecosystems. Historical monitoring data on the pollution history and impacts in aquatic ecosystems, however, are rarely available, so paleolimnological methods are required to explore the consequences of past pollution. We studied the history of cladoceran community dynamics in Lake Kirkkojarvi, southern Finland, including the periods before, during and after mining. We analyzed the geochemical composition and cladoceran subfossil remains in a Pb-210-dated sediment core to evaluate the magnitude, rate, and direction of cladoceran community changes through time. The cladoceran community was altered significantly by mining activity that occurred during the mid-twentieth century. During more recent times, however, eutrophication effects have overridden the impacts of mining. After mining ceased, the cladoceran community underwent an abrupt regime shift towards taxa that reflect more eutrophic conditions. This change was caused by intensive farming activity and fertilizer use over the past few decades. The recent history of Lake Kirkkojarvi is a textbook example of a regime shift triggered by multiple human-caused stressors. Our findings also highlight the utility of cladocerans as bio-indicators in pollution research and illustrate the sensitivity of aquatic ecosystems to anthropogenic modification.

Published

2018

41. Rebuilding and comparing pyramids of numbers (Elton) and energy (Lindeman) with selected global δN data.

Author

France, R.

Subjects

*FOOD chains, *NITROGEN isotopes, *STABLE isotopes, *OMNIVORES, *PYRAMIDS (Geometry), *TAXONOMY

Abstract

Widespread omnivory in aquatic food webs has been recognized to compromise interpretation of Lindeman's 'pyramid of energy' wherein organism biomass is constrained into rigidly delineated trophic levels. A compilation of global, pre-1997 stable nitrogen isotope data for aquatic food webs produced vertical energy profiles that were ataxonomic and therefore similar to Elton's 'pyramid of numbers' which he believed to be based on size-structured feeding relationships. Further, the present secondary-analysis confirms findings from other recent data compilations in suggesting that aquatic animals in real food webs are rarely found above the fifth or sixth broadly based trophic category. Therefore, δN analysis of food webs permits a reconciliation between theoreticians and empiricists by assuming a middle position in estimates made of the vertical length of food webs. [ABSTRACT FROM AUTHOR]

Published

2014

42. Rebuilding and comparing pyramids of numbers (Elton) and energy (Lindeman) with selected global δ15N data.

Author

France, R. L.

Subjects

FOOD chains, AQUATIC ecology, BIOMASS, NITROGEN isotopes, AQUATIC animals, DATA analysis, COMPARATIVE studies

Abstract

Widespread omnivory in aquatic food webs has been recognized to compromise interpretation of Lindeman’s “pyramid of energy” wherein organism biomass is constrained into rigidly delineated trophic levels. A compilation of global, pre-1997 stable nitrogen isotope data for aquatic food webs produced vertical energy profiles that were ataxonomic and therefore similar to Elton’s “pyramid of numbers” which he believed to be based on size-structured feeding relationships. Further, the present secondary-analysis confirms findings from other recent data compilations in suggesting that aquatic animals in real food webs are rarely found above the fifth or sixth broadly based trophic category. Therefore, δ 15N analysis of food webs permits a reconciliation between theoreticians and empiricists by assuming a middle position in estimates made of the vertical length of food webs. [ABSTRACT FROM AUTHOR]

Published

2014

43. Depth variation in isotopic composition of benthic resources and assessment of sculpin feeding patterns in an oligotrophic Alaskan lake.

Author

Cummings, Brittany M. and Schindler, Daniel E.

Abstract

Stable isotopes of carbon (C) and nitrogen (N) are commonly used to track resource flows through lake food webs. However, there remains a weak understanding of the spatial variation in isotopic composition of benthic resources and how this variation affects inference about energy flows among species. Boundary layers at the interface between benthic substrates and the overlying water column restrict diffusion of nutrients and carbon from the water column to benthic algae and may affect the isotopic composition of benthic algae as nutrient and CO 2 concentrations can become locally depleted in the benthic boundary layer. We quantified the variation in C and N stable isotope composition of benthic resources along a depth gradient in a large oligotrophic lake to assess the magnitude of change in stable isotope composition. Snails were increasingly depleted in 13C with depth, by about 10 ‰ from 0 to 20 m, while 15N in snails showed only subtle enrichment over this depth range. Sculpin ( Cottasaleuticus) δ13C and δ15N signatures did not significantly change with depth and were more enriched in 15N than would be expected from consumption of snails alone. A comparison of δ13C and δ15N values from sculpins relative to shallow and deep snails, and alternative prey (marine-derived salmon resources), within a mixing model suggested sculpins feed selectively on deep grazers in this system in addition to marine-derived resources provided by migrating sockeye salmon. This study illustrates the importance of accounting for depth-related variation in isotope patterns when assessing benthic resource contributions to food webs using stable isotope data. [ABSTRACT FROM AUTHOR]

Published

2013

44. Mercury contamination in the Laurentian Great Lakes region: Introduction and overview.

Author

Wiener, James G., Evers, David C., Gay, David A., Morrison, Heather A., and Williams, Kathryn A.

Subjects

MERCURY poisoning, RETROSPECTIVE studies

Abstract

The Laurentian Great Lakes region of North America contains substantial aquatic resources and mercury-contaminated landscapes, fish, and wildlife. This special issue emanated from a bi-national synthesis of data from monitoring programs and case studies of mercury in the region, here defined as including the Great Lakes, the eight U.S. states bordering the Great Lakes, the province of Ontario, and Lake Champlain. We provide a retrospective overview of the regional mercury problem and summarize new findings from the synthesis papers and case studies that follow. Papers in this issue examine the chronology of mercury accumulation in lakes, the importance of wet and dry atmospheric deposition and evasion to regional mercury budgets, the influence of land–water linkages on mercury contamination of surface waters, the bioaccumulation of methylmercury in aquatic foods webs; and ecological and health risks associated with methylmercury in a regionally important prey fish. [Copyright &y& Elsevier]

Published

2012

45. Leaf litter chemistry, decomposition and assimilation by macroinvertebrates in two tropical streams.

Author

Pettit, Neil, Davies, Tegan, Fellman, Jason, Grierson, Pauline, Warfe, Danielle, and Davies, Peter

Subjects

*MELALEUCA, *MASS loss (Astrophysics), *FOOD chains, *RIPARIAN plants, *BIODEGRADATION, *RIVERS

Abstract

Riparian vegetation typically provides substantial allochthonous material to aquatic ecosystems where micro-organisms can play an important role in organic matter degradation which can support consumer biomass. We examined the effects of leaf litter quality (e.g., leaf nutrients, lignin and cellulose content), leaf species mixing, and microbial community diversity on in-stream breakdown rates of litter from dominant riparian trees ( Melaleuca argentea, M. leucadendra, and Nauclea orientalis) in both a perennial and intermittent river in Australia's wet-dry tropics. Leaf mass remaining after 82 days of in-stream incubation was negatively correlated ( P < 0.05) with initial leaf N and P content while initial lignin and cellulose content had no statistically significant effect. Breakdown rates of incubated leaves of both Melaleuca and Nauclea were significantly higher in mixed litter bags compared with single species litter bags. Although it was expected that leaf N content would decrease from initial levels during decomposition, we found either similar or slightly higher N content following in-stream incubation suggesting microbial colonisation increased overall N content. Stable isotopes of δC and δN for the major sources and consumers in both rivers provide evidence that leaf litter was an important macroinvertebrate food source in the perennial river where heavy shading may limit algal production. However, in the intermittent river where riparian cover was low, benthic algae were the major organic carbon source for consumers. Our findings suggest that riparian tree species influence rates of in-stream organic matter processing, microbial community composition, and aquatic food web dynamics in tropical wet-dry streams. [ABSTRACT FROM AUTHOR]

Published

2012

46. Seasonal contrasts in carbon resources and ecological processes on a tropical floodplain.

Author

PETTIT, N. E., BAYLISS, P., DAVIES, P. M., HAMILTON, S. K., WARFE, D. M., BUNN, S. E., and DOUGLAS, M. M.

Subjects

*FRESHWATER biology, *FLOODPLAINS, *BIOTIC communities, *RAINFALL, *AUSTRALIAN magpie

Abstract

1. Globally, tropical floodplains are highly productive ecosystems. This is largely because of predictable seasonal rains providing replenishing floodwaters that stimulate nutrient turnover which, in turn, substantially boosts both primary and secondary productivity. This is associated with concomitant shifts in the types of primary producers and associated food webs. 2. The Magela Creek floodplain on Kakadu National Park in northern Australia is one of the most studied tropical freshwater ecosystems in Australia and provides an opportunity to collate and examine information on organic carbon sources and pathways through food webs to gain a fundamental understanding of how these systems may function. 3. We reviewed biophysical information published since the early 1980s to construct an assessment of the carbon resources for the channel and floodplain. 4. We conclude that macrophytes, largely in the form of grasses and aquatic plants, produce the greatest above-ground biomass on the Magela Creek floodplain. Although macrophytes provide suitable substrata for the attachment of epiphytes, they do not appear to be an important carbon source for aquatic consumers themselves. Nevertheless, macrophytes do provide critical seasonal food and habitat structure for other producers and consumers on the floodplain, such as the abundant magpie geese. 5. We developed a generalised conceptual food web and carbon budget contrasting the 'wet' and 'dry' seasons for the Magela Creek system, as a representative of tropical seasonal floodplain systems. 6. Our conceptual model of tropical floodplains indicates that knowledge of the seasonal and spatial links and exchanges between the floodplain and the river is critical in understanding ecosystem function. [ABSTRACT FROM AUTHOR]

Published

2011

47. Effect of nutrition on fatty acid profiles of riverine, lacustrine, and aquaculture-raised salmonids of pre-alpine habitats.

Author

Heissenberger, Martin, Watzke, Jörg, and Kainz, Martin J.

Subjects

*FATTY acids, *SALMONIDAE, *ARCTIC char, *SEA trout, *BROWN trout, *RAINBOW trout, *STEELHEAD trout

Abstract

We examined trophic positions and fatty acid concentrations of riverine, lacustrine, and aquaculture diet and fish in Austrian pre-alpine aquatic ecosystems. It was hypothesized that dietary fatty acid (FA) profiles largely influence the FA composition of the salmonids Salvelinus alpinus, Salmo trutta, and Oncorhynchus mykiss. We analyzed trophic positions using stable isotopes (δ15N) and tested for correlations with polyunsaturated fatty acid (PUFA) concentrations. Gut content analysis revealed benthos (rivers), pellets (aquaculture), and zooplankton (lakes) as the predominant diet source. Results of dorsal muscle tissues analysis showed that the omega-3 PUFA, docosahexaenoic acid (DHA; 22:6 n − 3), was the mostly retained PUFA in all fish of all ecosystems, yet with the highest concentrations in S. alpinus from aquaculture (mean: 20 mg DHA/g dry weight). Moreover, we found that eicosapentaenoic acid (EPA; 20:5 n − 3) in fish of natural habitats (rivers, lakes) was the second most abundant PUFA (3–5 mg/g DW), whereas aquaculture-raised fish had higher concentrations of the omega-6 linoleic acid (18:2 n – 6; 9–11 mg/g DW) than EPA. In addition, PUFA patterns showed that higher omega-3/-6 ratios in aquacultures than in both riverine and lacustrine fish. Data of this pilot field study suggest that salmonids did not seem to directly adjust their PUFA to dietary PUFA profiles in either natural habitats or aquaculture and that some alterations of PUFA are plausible. Finally, we suggest that trophic positions of these freshwater salmonids do not predict PUFA concentrations in their dorsal muscle tissues. [ABSTRACT FROM AUTHOR]

Published

2010

48. Impacts of climate warming on lake fish community structure and potential effects on ecosystem function.

Author

Jeppesen, Erik, Meerhoff, Mariana, Holmgren, Kerstin, González-Bergonzoni, Ivan, Mello, Franco Teixeira-de, Declerck, Steven A. J., De Meester, Luc, Søndergaard, Martin, Lauridsen, Torben L., Bjerring, Rikke, Conde-Porcuna, José Maria, Mazzeo, Néstor, Iglesias, Carlos, Reizenstein, Maja, Malmquist, Hilmar J., Liu, Zhengwen, Balayla, David, and Lazzaro, Xavier

Subjects

*GLOBAL warming, *LAKES, *FISH communities, *BIOMANIPULATION, *EUTROPHICATION, *LIMNOLOGY

Abstract

Fish play a key role in the trophic dynamics of lakes, not least in shallow systems. With climate warming, complex changes in fish community structure may be expected owing to the direct and indirect effects of temperature, and indirect effects of eutrophication, water-level changes and salinisation on fish metabolism, biotic interactions and geographical distribution. We review published and new data supporting the hypotheses that, with a warming climate, there will be changes in: fish community structure (e.g. higher or lower richness depending on local conditions); life history traits (e.g. smaller body size, shorter life span, earlier and less synchronised reproduction); feeding mode (i.e. increased omnivory and herbivory); behaviour (i.e. stronger association with littoral areas and a greater proportion of benthivores); and winter survival. All these changes imply higher predation on zooplankton and macroinvertebrates with increasing temperatures, suggesting that the changes in the fish communities partly resemble, and may intensify, the effects triggered by eutrophication. Modulating factors identified in cold and temperate systems, such as the presence of submerged plants and winter ice cover, seem to be weaker or non-existent in warm(ing) lakes. Consequently, in the future lower nutrient thresholds may be needed to obtain clear-water conditions and good ecological status in the future in currently cold or temperate lakes. Although examples are still scarce and more research is needed, we foresee biomanipulation to be a less successful restoration tool in warm(ing) lakes without a strong reduction of the nutrient load. [ABSTRACT FROM AUTHOR]

Published

2010

49. Forest cover controls the nitrogen and carbon stable isotopes of rivers.

Author

Machado-Silva, Fausto, Neres-Lima, Vinicius, Oliveira, Andrea Franco, and Moulton, Timothy Peter

Published

2022

50. Large and growing environmental reservoirs of Deca-BDE present an emerging health risk for fish and marine mammals

Author

Ross, Peter S., Couillard, Catherine M., Ikonomou, Michael G., Johannessen, Sophia C., Lebeuf, Michel, Macdonald, Robie W., and Tomy, Gregg T.

Subjects

AQUATIC habitats, POLYBROMINATED diphenyl ethers & the environment, FIREPROOFING agents, HAZARDOUS substances, EFFECT of chemicals on fishes, MARINE mammals, ATMOSPHERIC deposition, SEWAGE disposal, BIOACCUMULATION, FOOD chains

Abstract

Polybrominated diphenyl ethers (PBDEs) have been the subject of intense scientific and regulatory scrutiny during recent years. Of the three commercial forms (Penta, Octa and Deca) of PBDEs that have been widely used as flame retardants in textiles, furniture upholstery, plastics, and electronics, only Deca-BDE remains on the general market in North America, while a recent ruling of the European Court spells an impending end to its use in Europe. We review here highlights of aquatic research documenting the rapid emergence of PBDEs as a high priority environmental concern in Canada. PBDEs are being introduced in large quantities to the aquatic environment through sewage discharge and atmospheric deposition. In certain environmental compartments, the single congener BDE-209, the main ingredient in the Deca-BDE formulation, has surpassed the legacy PCBs and DDT as the top contaminant by concentration. Limited biomagnification of BDE-209 in aquatic food webs reflects its high log K ow and preferential partitioning into the particle phase. As a result, large environmental reservoirs of BDE-209 are being created in sediments, and these may present a long-term threat to biota: BDE-209 breaks down into more persistent, more bioaccumulative, more toxic, and more mobile PBDE congeners in the environment. [Copyright &y& Elsevier]

Published

2009