Urbanisation alters fatty acids in stream food webs

Whorley, Sarah B.; Smucker, Nathan J.; Kuhn, Anne; Wehr, John D.

doi:10.1111/fwb.13279

Cited by 18 publications

(12 citation statements)

References 72 publications

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“…The other ω3 PUFA, DHA, was low or absent in biofilms and invertebrates, and its functional role for invertebrate neural development may be fulfilled by EPA (Ahlgren et al, 2009;Stanley-Samuelson, 1994 (Guo et al, 2016a;Kühmayer et al, 2020;Torres-Ruiz et al, 2007), no matter whether EPA was from light or dark biofilms. Moreover, increased human disturbances in aquatic ecosystems, such as warming, eutrophication, riparian degradation and sedimentation (Burdon et al, 2013), are likely to decrease the availability of algal EPA for aquatic consumers (Guo et al, 2015;Hixson & Arts, 2016;Müller-Navarra et al, 2004;Whorley et al, 2019). In streams with high-nutrient inputs and high levels of removed riparian vegetation, algal communities in light biofilms can become dominated by filamentous green algae (deficient in EPA; Mosisch et al, 2001), whereas in dark biofilms, which are shaded and perhaps cooler from subsurface flows, a higher proportion of diatoms (rich in EPA) is expected (Mosisch et al, 2001).…”

Section: Discussionmentioning

confidence: 99%

The dark side of rocks: An underestimated high‐quality food resource in river ecosystems

et al. 2021

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1. Algae are generally a high-quality diet source because they provide essential compounds to aquatic consumers. In forested stream ecosystems, the availability of high-quality algae is low compared to terrestrial organic matter, which may constrain the dietary transfer of essential compounds to consumers. However, there could be other overlooked high-quality resource pools that provide essential compounds to consumers in river ecosystems.2. We conducted a field study along a subalpine river continuum in Austria to identify the nutritional role of a 'hidden' food resource for aquatic consumers; the biofilms growing on the underside of rocks (dark biofilms). Dark and light (i.e. upper surface of rocks) biofilms and invertebrates were collected, and their fatty acid (FA) composition was analysed.3. Compared with light biofilms, dark biofilms contained greater proportions of bacterial FA, long-chain saturated FA (biomarkers of terrestrial plants) and oleic acid (18:1ω9; a fungal biomarker), but a lower proportion of algal FA, especially omega-3 polyunsaturated FA (ω3 PUFA). The ω3 PUFA composition in dark biofilms was strongly correlated with that in light biofilms. Furthermore, the overall FA profiles of dark biofilms were significantly associated with invertebrate FA profiles. Strong correlations were also observed between invertebrates and dark biofilms for bacterial FA and the ω3 PUFA eicosapentaenoic acid (EPA, 20:5ω3). 4.Synthesis. This field study demonstrates that dark biofilms are a high-quality resource pool for invertebrates in river ecosystems that is often overlooked. Similar to light biofilms, dark biofilms provide physiologically important FA and bacterial FA for stream invertebrates. However, these high-quality resources are threatened by increasing human disturbances to river ecosystems. Future research is required to better understand how the quality of both dark and light biofilms changes in response to human disturbance, and how this affects dietary energy transfer to upper trophic consumers, including fish and humans. K E Y W O R D Sbacteria, diatoms, fatty acids, food quality, invertebrates, subalpine riversThis is an open access article under the terms of the Creat ive Commo ns Attri bution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.

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Section: Discussionmentioning

confidence: 99%

The dark side of rocks: An underestimated high‐quality food resource in river ecosystems

et al. 2021

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“…For the other fauna, we found that fish and crustaceans had significantly higher contents of PUFA relative to periphyton. In the absence of de novo production, consumers may be more general in their feeding in order to ensure adequate consumption of necessary lipids or are retaining certain PUFA relative to the resource base (Guo et al, 2016; Sanchez and Trexler, 2018; Whorley et al, 2019).…”

Section: Discussionmentioning

confidence: 99%

“…Consumers are dependent on a suite of PUFA for growth and health that are largely produced only by primary producers (Taipale et al, 2009). Therefore, changes in algal species composition will alter the relative abundances of important PUFA which could have negative bottom‐up effects on consumers (Galloway and Winder, 2015; Whorley et al, 2019). For example, loss of eukaryotic algae for bacteria, cyanobacteria, or detritus will be reflected in declines of important PUFA, notably n‐3 and n‐6 FA families, for organic matter rich in branched, methylated, or monounsaturated FA (MUFA) (Bossio et al, 2006; Vestal and White, 1989; Willers et al, 2015).…”

Section: Introductionmentioning

confidence: 99%

Lipid Composition Differences of Periphyton, Crustaceans, and Small Fishes in Response to Eutrophication and Management in the Florida Everglades,USA

Bellinger¹,

Cook

Hagerthey

et al. 2020

Lipids

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Eutrophication of the Florida Everglades, USA, has altered the characteristics of the ecosystem, but management strategies are being implemented to accelerate recovery. In this study, we described lipid compositional similarities and differences between periphyton, fish, and crustaceans, and explored if eutrophication and creation of new open‐water sloughs in phosphorus (P)‐impacted regions of a Northern Everglades impoundment resulted in changes in periphyton biomass and lipid composition, and the lipid composition of a ubiquitous omnivore, Gambusia holbrooki. Lipid biomarker analysis provided insight into microbial community composition, quality of basal resources, and potential resources utilized by consumers. Periphyton biomass and phospholipid fatty acid (PLFA) composition differed in response to eutrophication, but not between P‐impacted control and treatment plots. Shifts in relative abundances of lipids indicative of diatoms and green algae mirrored known taxonomic shifts due to eutrophication. For fauna, PLFA were a small and relatively distinct component of the overall total lipid make‐up, and profiles were similar between control and treatment plots. However, the PLFA profile of G. holbrooki differed between oligotrophic and eutrophic regions. Fish and crustacean lipids contained significantly greater relative abundances of polyunsaturated fatty acids than were found in periphyton, and profiles differed between fish and crustaceans, suggesting organisms were selectively accumulating or elongating and desaturating lipids de novo, to meet physiological needs. This study builds on findings of microbial responses to eutrophication and recent observations that consumer PLFA profiles can also shift with P‐enrichment.

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“…Novel benthic invertebrate monitoring metrics could build on these ideas to emphasize the proportion or abundance of individuals with flying adult stages in future monitoring efforts. Measures that directly quantify the timing and amount of insect-mediated energetic subsidies from streams and lakes across a spectrum of watershed-scale stressors-while giving appropriate weight to the importance of insects that provision higher levels of nutritional macromolecules (such as fatty acids; Whorley et al, 2019) to riparian consumers-could also be useful in predicting potential consequences of poor water quality for terrestrial insectivores.…”

Section: Consequences Of Losing Aquatic-terrestrial Connections Via Imentioning

confidence: 99%

Conservation Across Aquatic-Terrestrial Boundaries: Linking Continental-Scale Water Quality to Emergent Aquatic Insects and Declining Aerial Insectivorous Birds

Manning

Sullivan

2021

Front. Ecol. Evol.

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Larval aquatic insects are used to assess water quality, but less attention is paid to their adult, terrestrial life stage, which is an important food resource for declining aerial insectivorous birds. We used open-access water-quality, aquatic-invertebrate, and bird-survey data to study how impaired water quality can emanate from streams and lakes through changes in aquatic insect communities across the contiguous United States. Emergent insect relative abundance was highest across the West, in northern New England, and the Carolinas in streams, and highest near the Great Lakes, parts of the Southwest, and northern New England for lakes. Emergent insects declined with sedimentation, roads, and elevated ammonium concentrations in streams, but not lakes. The odds that a given taxon would be non-emergent increased by up to 2.0× as a function of pollution tolerance, underscoring the sensitivity of emergent aquatic insects to water-quality impairment. However, relationships between bird populations and emergent insects were generally weak for both streams and lakes. For streams, we observed the strongest positive relationships for a mixture of upland and riparian aerial insectivorous birds such as Western Wood-Pewee, Olive-sided Flycatcher, and Acadian Flycatcher and the strongest negative association for Purple Martin. Different avian insectivores responded to emergent insect abundances in lakes (e.g., Barn Swallow, Chimney Swift, Eastern Wood-Pewee, Common Nighthawk). In both streams and lakes, we observed stronger, but opposing, relationships between several aerial insectivores and the relative abundance of sensitive insect orders (E)phemeroptera, (P)lecoptera, and (T)richoptera (positive), and pollution tolerant individuals (negative). Overall, our findings indicate that emergent insects are negatively correlated with pollution tolerance, suggesting a large-scale loss of this nutritional subsidy to terrestrial environments from impaired aquatic ecosystems. While some bird populations tracked scarcities of emergent aquatic insects, especially EPT taxa, responses varied among species, suggesting that unique habitat and foraging behaviors likely complicated these relationships. Strengthening spatial and temporal concordance between emergent-insect and bird-survey data will improve our ability to interpret species-level responses over time. Thus, our analysis highlights the need for developing conservation and biomonitoring strategies that consider the cross-ecosystem effects of water quality declines for threatened insectivorous avifauna and other terrestrial wildlife.

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Urbanisation alters fatty acids in stream food webs

Cited by 18 publications

References 72 publications

The dark side of rocks: An underestimated high‐quality food resource in river ecosystems

The dark side of rocks: An underestimated high‐quality food resource in river ecosystems

Lipid Composition Differences of Periphyton, Crustaceans, and Small Fishes in Response to Eutrophication and Management in the Florida Everglades,USA

Conservation Across Aquatic-Terrestrial Boundaries: Linking Continental-Scale Water Quality to Emergent Aquatic Insects and Declining Aerial Insectivorous Birds

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