The energetic contributions of aquatic primary producers to terrestrial food webs in a mid-size river system

Ecology ◽

10.1890/15-1095.1 ◽

2015 ◽

Cited By ~ 10

Author(s):

Adam R. Kautza ◽

S. Mažeika P. Sullivan

Keyword(s):

Food Webs ◽

River System ◽

Primary Producers

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Selenium Interactions with Algae: Chemical Processes at Biological Uptake Sites, Bioaccumulation, and Intracellular Metabolism

Plants ◽

10.3390/plants9040528 ◽

2020 ◽

Vol 9 (4) ◽

pp. 528 ◽

Cited By ~ 2

Author(s):

Dominic E. Ponton ◽

Stephanie D. Graves ◽

Claude Fortin ◽

David Janz ◽

Marc Amyot ◽

...

Keyword(s):

Food Webs ◽

Mechanistic Model ◽

Trophic Levels ◽

Primary Producers ◽

Organic Selenium ◽

Selenium Uptake ◽

Aquatic Food Webs ◽

Uptake Sites ◽

Aquatic Food ◽

Lentic Systems

Selenium (Se) uptake by primary producers is the most variable and important step in determining Se concentrations at higher trophic levels in aquatic food webs. We gathered data available about the Se bioaccumulation at the base of aquatic food webs and analyzed its relationship with Se concentrations in water. This important dataset was separated into lotic and lentic systems to provide a reliable model to estimate Se in primary producers from aqueous exposure. We observed that lentic systems had higher organic selenium and selenite concentrations than in lotic systems and selenate concentrations were higher in lotic environments. Selenium uptake by algae is mostly driven by Se concentrations, speciation and competition with other anions, and is as well influenced by pH. Based on Se species uptake by algae in the laboratory, we proposed an accurate mechanistic model of competition between sulfate and inorganic Se species at algal uptake sites. Intracellular Se transformations and incorporation into selenoproteins as well as the mechanisms through which Se can induce toxicity in algae has also been reviewed. We provided a new tool for risk assessment strategies to better predict accumulation in primary consumers and consequently to higher trophic levels, and we identified some research needs that could fill knowledge gaps.

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Use of Stable Isotopes to Trace Municipal Wastewater Effluents into Food Webs within a Highly Developed River System

River Research and Applications ◽

10.1002/rra.2826 ◽

2014 ◽

Vol 31 (9) ◽

pp. 1093-1100 ◽

Cited By ~ 27

Author(s):

H. A. Loomer ◽

K. D. Oakes ◽

S. L. Schiff ◽

W. D. Taylor ◽

M. R. Servos

Keyword(s):

Stable Isotopes ◽

Food Webs ◽

Municipal Wastewater ◽

River System ◽

Wastewater Effluents

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Stable Isotope Food Web Analysis of a Large Subtropical Lake: Alternative Explanations for15N Enrichment of Pelagic vs. Littoral Fisheries

The Scientific World JOURNAL ◽

10.1100/tsw.2003.55 ◽

2003 ◽

Vol 3 ◽

pp. 613-622 ◽

Cited By ~ 5

Author(s):

Karl E. Havens ◽

Binhe Gu ◽

Brian Fry ◽

Carol Kendall

Keyword(s):

Stable Isotope ◽

Food Web ◽

Food Webs ◽

Trophic Level ◽

Stable Isotope Ratio ◽

Pelagic Zone ◽

Primary Producers ◽

Subtropical Lake ◽

Primary Consumers ◽

Habitat Enrichment

The food webs of littoral, pelagic, and littoral-pelagic ecotone (interface) regions of a large subtropical lake were investigated using stable isotope ratio methods, expanding the focus of a previous fish-only study to include other food web components such as primary producers and invertebrates. In these food webs, δ13C increased ~4o/oo and δ15N increased ~10o/oo from primary producers to fish. The δ15N of fish was ~9o/oo in the littoral zone, ~10 o/oo in the ecotone, and ~12o/oo in the pelagic zone. The cross-habitat enrichment in fish15N corresponded with both an increase in the size of fish and an increase in the δ15N of primary consumers (mollusks). Despite larger body size in the pelagic zone, fish in all three habitats appear to occur at the same average trophic level (TL = 4), assuming an enrichment factor of 3.4o/oo per trophic level, and normalizing to the δ15N of primary consumers.

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Omnivory and opportunism characterize food webs in a large dry-tropics river system

Freshwater Science ◽

10.1086/674632 ◽

2014 ◽

Vol 33 (1) ◽

pp. 142-158 ◽

Cited By ~ 30

Author(s):

Melanie L. Blanchette ◽

Aaron M. Davis ◽

Timothy D. Jardine ◽

Richard G. Pearson

Keyword(s):

Food Webs ◽

River System ◽

Dry Tropics

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Food quantity and quality regulation of trophic transfer between primary producers and a keystone grazer (Daphnia) in pelagic freshwater food webs

Oikos ◽

10.1111/j.0030-1299.2007.15639.x ◽

2007 ◽

Vol 116 (7) ◽

pp. 1152-1163 ◽

Cited By ~ 74

Author(s):

Jonas Persson ◽

Michael T. Brett ◽

Tobias Vrede ◽

Joseph L. Ravet

Keyword(s):

Food Webs ◽

Trophic Transfer ◽

Primary Producers ◽

Food Quantity ◽

Quality Regulation

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Effects of Inundation on Water Chemistry and Invertebrates in Floodplain Wetlands

10.21203/rs.3.rs-287104/v1 ◽

2021 ◽

Author(s):

Wing (Iris) Tsoi ◽

Ivor Growns ◽

Mark Southwell ◽

Darren Ryder ◽

Paul Frazier

Keyword(s):

Water Chemistry ◽

Food Webs ◽

River System ◽

Floodplain Wetlands ◽

Floodplain Wetland ◽

Regulated Rivers ◽

The North ◽

Murray Darling Basin ◽

Floodplain Inundation ◽

Wetland Processes

Abstract Floodplain wetlands play a significant role in the storage of sediment and water and support high levels of nutrient cycling that lead to substantial primary production and high biodiversity. This storage, cycling and production system is driven by intermittent inundation. In regulated rivers the link between channel flows and floodplain inundation is often impacted with reduction in the frequency and duration of inundation. Managed floodplain inundation is us being used as a tool to help restore floodplain wetland processes and rehabilitate river systems. However, the use of managed water for the environment remains contentious and it is important to quantify the outcomes of re-introducing water to floodplain wetland systems. We examined the effects of environmental floodplain watering on water chemistry and three groups of invertebrates, including benthic and pelagic invertebrates and macroinvertebrates, in wetlands on the Gwydir River system in the north of the Murray-Darling Basin. We hypothesised that wetlands that were inundated for longer periods of time would have altered water chemistry and support a greater richness and abundance of invertebrates, thus altering their assemblage structures. Water chemistry and the assemblage structure of all three invertebrate groups in the wetlands was significantly influenced by the time since connection (TSC) to their respective rivers and therefore inundation period. The microinvertebrate abundance of was positively associated with TSC, but not macroinvertebrates. This suggests that the duration of connection between the channel and floodplain is important in maintaining the ecology and food webs in the wetlands.

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Food Web Fuel Differs Across Habitats and Seasons of a Tidal Freshwater Estuary

Estuaries and Coasts ◽

10.1007/s12237-020-00762-9 ◽

2020 ◽

Vol 44 (1) ◽

pp. 286-301

Author(s):

Matthew Young ◽

Emily Howe ◽

Teejay O’Rear ◽

Kathleen Berridge ◽

Peter Moyle

Keyword(s):

Food Web ◽

Food Webs ◽

San Francisco ◽

Aquatic Vegetation ◽

Environmental Variability ◽

Spatial Scales ◽

Water Channel ◽

Trophic Levels ◽

Food Sources ◽

Primary Producers

AbstractEstuarine food webs are fueled by multiple different primary producers. However, identifying the relative importance of each producer to consumers is difficult, particularly for fishes that utilize multiple food sources due to both their mobility and their generally high trophic levels. Previous studies have documented broad spatial differences in the importance of primary producers to fishes within the Upper San Francisco Estuary, California, including separation between pelagic and littoral food webs. In this study, we evaluated the importance of primary producers to adult fishes in three closely spaced subregions that represented disparate habitat types (a tidal wetland channel, a turbid backwater channel, and a deep open-water channel), each a potential outcome of local restoration projects. Using stable isotope analysis coupled with a Bayesian mixing model, we identified significant differences in primary-producer contribution to fishes and invertebrates across habitats and seasons, especially in the relative contribution of submersed aquatic vegetation and phytoplankton. Most fishes utilized multiple primary producers and showed little segregation between pelagic and littoral food webs among habitats. Availability of primary producers differs seasonally and across multiple spatial scales, helping to buffer environmental variability and thus enhancing food web resilience. Ecosystem restoration may improve with emphasis on restoring a wide variety of primary producers to support consumers.

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Supporting Predators: Changes in the Global Ecosystem Inferred from Changes in Predator Diversity

The Paleontological Society Papers ◽

10.1017/s1089332600001145 ◽

2002 ◽

Vol 8 ◽

pp. 319-352 ◽

Cited By ~ 19

Author(s):

Richard K. Bambach

Keyword(s):

Food Webs ◽

Primary Producers ◽

Apparent Increase ◽

Marine Food Webs ◽

Predator Diversity ◽

Major Taxon ◽

Faunal Diversity ◽

Marine Food ◽

Over Time

This paper presents new estimates of the genus diversity of predators in each major taxon containing predators, as well as an estimate of the total genus diversity of predators through the Phanerozoic. Predators have never been numerically abundant compared to prey. However, the diversity of predators and the proportion of total faunal diversity composed of predators have both increased over time, implying that ecosystems have increased their ability to support either more predators or more specialization among predators. Also, turnover in diversity dominance among predator groups, with more energetic predator taxa replacing or being added to a fauna of less energetic groups, implies that the energy available in marine food webs has increased. The apparent increase in diversity and biomass of primary producers plus patterns of diversity change in prey taxa supports these inferences based on patterns of change in predators alone.

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Interplay between the paradox of enrichment and nutrient cycling in food webs

10.1101/276592 ◽

2018 ◽

Cited By ~ 2

Author(s):

Pierre Quévreux ◽

Sébastien Barot ◽

Élisa Thébault

Keyword(s):

Nutrient Cycling ◽

Food Web ◽

Food Webs ◽

Trophic Level ◽

Temporal Variability ◽

Ecosystem Functioning ◽

Nutrient Inputs ◽

Primary Producers ◽

Paradox Of Enrichment ◽

Food Web Dynamics

AbstractNutrient cycling is fundamental to ecosystem functioning. Despite recent major advances in the understanding of complex food web dynamics, food web models have so far generally ignored nutrient cycling. However, nutrient cycling is expected to strongly impact food web stability and functioning. To make up for this gap, we built an allometric and size structured food web model including nutrient cycling. By releasing mineral nutrients, recycling increases the availability of limiting resources for primary producers and links each trophic level to the bottom of food webs. We found that nutrient cycling can provide a significant part of the total nutrient supply of the food web, leading to a strong enrichment effect that promotes species persistence in nutrient poor ecosystems but leads to a paradox of enrichment at high nutrient inputs. The presence of recycling loops linking each trophic level to the basal resources weakly affects species biomass temporal variability in the food web. Recycling loops tend to slightly dampen the destabilising effect of nutrient enrichment on consumer temporal variability while they have opposite effects for primary producers. By considering nutrient cycling, this new model improves our understanding of the response of food webs to nutrient availability and opens perspectives to better link studies on food web dynamics and ecosystem functioning.

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