Consumer‐resource stoichiometry in detritus‐based streams

Cross, Wyatt F.; Benstead, Jonathan P.; Rosemond, Amy D.; Wallace, J. Bruce

doi:10.1046/j.1461-0248.2003.00481.x

Cited by 296 publications

(476 citation statements)

References 43 publications

Supporting

Mentioning

417

Contrasting

Order By: Relevance

“…Phototrophs, unlike herbivores, can adjust their elemental composition depending on nutrient stoichiometry, resulting in different food quality and thus affecting consumption rates and consumer nutrient recycling [8]. In community ecology, ES has successfully been used to explain consumer performance (food uptake rate, assimilation, growth rate and efficiency; [9][10][11]), competition between consumer species [12,13], and consumer effects on prey nutrient composition [14,15]. In contrast to ES, MTE [16] focuses on consumer body mass and temperature as determinants of metabolic rates, which control growth and consumption rates as well as population and community productivity.…”

Section: Introductionmentioning

confidence: 99%

Unifying ecological stoichiometry and metabolic theory to predict production and trophic transfer in a marine planktonic food web

Moorthi

Schmitt

Ryabov

et al. 2016

Phil. Trans. R. Soc. B

View full text Add to dashboard Cite

Two ecological frameworks have been used to explain multitrophic interactions, but rarely in combination: (i) ecological stoichiometry (ES), explaining consumption rates in response to consumers' demand and prey's nutrient content; and (ii) metabolic theory of ecology (MTE), proposing that temperature and body mass affect metabolic rates, growth and consumption rates. Here we combined both, ES and MTE to investigate interactive effects of phytoplankton prey stoichiometry, temperature and zooplankton consumer body mass on consumer grazing rates and production in a microcosm experiment. A simple model integrating parameters from both frameworks was used to predict interactive effects of temperature and nutrient conditions on consumer performance. Overall, model predictions reflected experimental patterns well: consumer grazing rates and production increased with temperature, as could be expected based on MTE. With decreasing algal food quality, grazing rates increased due to compensatory feeding, while consumer growth rates and final biovolume decreased. Nutrient effects on consumer biovolume increased with increasing temperature, while nutrient effects on grazing rates decreased. Highly interactive effects of temperature and nutrient supply indicate that combining the frameworks of ES and MTE is highly important to enhance our ability to predict ecosystem functioning in the context of global change.

show abstract

Section: Introductionmentioning

confidence: 99%

Unifying ecological stoichiometry and metabolic theory to predict production and trophic transfer in a marine planktonic food web

Moorthi

Schmitt

Ryabov

et al. 2016

Phil. Trans. R. Soc. B

View full text Add to dashboard Cite

show abstract

“…A Kruskal-Wallis ANOVA was used to test for significant differences in elemental ratios of larvae between different treatments. In addition, we plotted the elemental ratios of larvae and food resources (C:N, C:P and N:P) to check the relative stoichiometric constraints (i.e., elemental imbalances) naturally existing in these ecosystems and go through potential changes due to alterations of environmental and dietary conditions (Sterner and Elser, 2002;Cross et al, 2003).…”

Section: Statistical Analysesmentioning

confidence: 99%

“…Recent studies have shown that the degree to which shredders modify FPOM stoichiometry from CPOM stoichiometry may also vary across shredder species depending on traits such as nutritional requirements or feeding behaviour when reared under different leaf types and temperatures (Villanueva et al, 2011;Mas-Martı´et al, 2015;Correa-Araneda et al, 2015). The order Diptera is known to have a high P content, although paradoxically, detritus is among the most P-deficient of food resources (Cross et al, 2003;Evans-White et al, 2005). In our detritus-based system, we confirmed that B. bifida larvae are clearly far out of stoichiometric balance with their food resources, mostly in eucalypt treatments (where the highest elemental imbalances occurred).…”

Section: Treatmentmentioning

confidence: 99%

“…In addition, oil-based and polyphenolic substances contained in mesophyll cells Grac¸a, 1995, 1999;Canhoto et al, 2002) act as barriers to fungal colonization and shredder consumption, leading to altered detritus processing and shredding activity Abelho and Grac¸a, 1996;Pozo et al, 1998;Lo´pez et al, 2001) and thus, the structure and functioning of forested headwater streams. There are many studies that have demonstrated how stream invertebrates may evolve developmental adaptations for the utilization of available resources (Rowe and Ludwig, 1991) and/or change their internal elemental ratios in response to resource quality (Cross et al, 2003;Small and Pringle, 2010). These responses are manifested at the physiological, behavioural or genetic level and depend on individual requirements (Slansky and Scriber, 1985;Sterner and Elser, 2002;Swan and Palmer, 2006).…”

Section: Introductionmentioning

confidence: 99%

“…These responses are manifested at the physiological, behavioural or genetic level and depend on individual requirements (Slansky and Scriber, 1985;Sterner and Elser, 2002;Swan and Palmer, 2006). Therefore, consumers with high body N or P content and high growth rates (GR) seem to require food that is high in N or P, respectively, to maintain optimal growth (Cross et al 2003;Frost et al, 2005). The extent to which individuals can compensate for elemental imbalances will ultimately determine their life history traits as well as alterations in the nutrient cycling of consumers (Sterner and Elser, 2002).…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Food type and temperature constraints on the fitness of a dominant freshwater shredder

García

Pardo

2015

Ann. Limnol. - Int. J. Lim.

View full text Add to dashboard Cite

-Freshwaters receive a large amount of materials and biologically available energy from their surrounding catchments. In particular, small forested streams are dependent on allochthonous organic matter inputs. However, since the middle 20th century large areas of forests in the Iberian Peninsula have been converted to eucalypt plantations, impairing invertebrate communities and stream energy fluxes. In addition, the dependence of organismal metabolic rates on temperature may influence invertebrate life cycles and development, and ultimately the riparian-stream system. We tested the effects of two food resources (alder and eucalypt) under two different temperatures (9 vs. 14 xC) on the life history parameters and elemental composition of Brillia bifida (Chironomidae), a numerically dominant shredder in forested streams of NW Spain. Our results showed: (i) warmer temperature accelerated the development of B. bifida larvae (i.e., three times faster at warm than at cold temperature), (ii) Brillia's growth rate when fed on eucalypt leaves was only 30% of what it was on alder leaves, and (iii) both factors together modified larvae stoichiometry and nutrient fluxes (i.e., through fine particulate organic matter production). The observed elemental imbalances suggest, to some extent, a deviation from the "strict homeostasis" assumption for heterotrophs. Differential effects observed on larval development, growth and elemental composition point out that food type and temperature are influencing B. bifida performance, and this fact may reach other trophic compartments through detritivore-mediated nutrient cycling.

show abstract

Fine sediment and flow velocity impact bacterial community and functional profile more than nutrient enrichment

Juvigny‐Khenafou

Piggott

Atkinson

et al. 2020

Ecological Applications

View full text Add to dashboard Cite

Freshwater ecosystems face many simultaneous pressures due to human activities. Consequently, there has been a rapid loss of freshwater biodiversity and an increase in biomonitoring programs. Our study assessed the potential of benthic stream bacterial communities as indicators of multiple-stressor impacts associated with urbanization and agricultural intensification. We conducted a fully crossed four-factor experiment in 64 flow-through mesocosms fed by a pristine montane stream (21 d of colonization, 21 d of manipulations) and investigated the effects of nutrient enrichment, flow-velocity reduction and added fine sediment after 2 and 3 weeks of stressor exposure. We used high-throughput sequencing and metabarcoding techniques (16S rRNA genes), as well as curated biological databases (METAGENassit, MetaCyc), to identify changes in bacterial relative abundances and predicted metabolic functional profile. Sediment addition and flow-velocity reduction were the most pervasive stressors. They both increased a-diversity and had strong taxon-specific effects on community composition and predicted functions. Sediment and flow velocity also interacted frequently, with 88% of all bacterial response variables showing two-way interactions and 33% showing three-way interactions including nutrient enrichment. Changes in relative abundances of common taxa were associated with shifts in dominant predicted functions, which can be extrapolated to underlaying stream-wide mechanisms such as carbon use and bacterial energy production pathways. Observed changes were largely stable over time and occurred after just 2 weeks of exposure, demonstrating that bacterial communities can be wellsuited for early detection of multiple stressors. Overall, added sediment and reduced flow velocity impacted both bacterial community structure and predicted function more than nutrient enrichment. In future research and stream management, a holistic approach to studying multiple-stressor impacts should include multiple trophic levels with their functional responses, to enhance our mechanistic understanding of complex stressor effects and promote establishment of more efficient biomonitoring programs.

show abstract

Consumer‐resource stoichiometry in detritus‐based streams

Cited by 296 publications

References 43 publications

Unifying ecological stoichiometry and metabolic theory to predict production and trophic transfer in a marine planktonic food web

Unifying ecological stoichiometry and metabolic theory to predict production and trophic transfer in a marine planktonic food web

Food type and temperature constraints on the fitness of a dominant freshwater shredder

Fine sediment and flow velocity impact bacterial community and functional profile more than nutrient enrichment

Contact Info

Product

Resources

About