Search results for "Nutrient limitation"

showing 3 items of 3 documents

Anthropogenic Perturbations to the Atmospheric Molybdenum Cycle

2021

Molybdenum (Mo) is a key cofactor in enzymes used for nitrogen (N) fixation and nitrate reduction, and the low availability of Mo can constrain N inputs, affecting ecosystem productivity. Natural atmospheric Mo aerosolization and deposition from sources such as desert dust, sea‐salt spray, and volcanoes can affect ecosystem function across long timescales, but anthropogenic activities such as combustion, motor vehicles, and agricultural dust have accelerated the natural Mo cycle. Here we combined a synthesis of global atmospheric concentration observations and modeling to identify and estimate anthropogenic sources of atmospheric Mo. To project the impact of atmospheric Mo on terrestrial ec…

Atmospheric ScienceGlobal and Planetary ChangeNitrogenasechemistry.chemical_elementParticulatesAerosol depositionchemistryNitrogen fixationMolybdenumEnvironmental chemistryNutrient limitationNitrogenaseNitrogen fixationEnvironmental ChemistryEnvironmental scienceAerosol depositionParticulate matterGeneral Environmental Science
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Data from: Phosphorus limitation enhances parasite impact: feedback effects at the population level

2014

Background: Nutrient deficiency affects the growth and population dynamics of consumers. Endoparasites can be seen as consumers that drain carbon (C) or energy from their host while simultaneously competing for limiting resources such as phosphorus (P). Depending on the relative demands of the host and the parasite for the limiting nutrient, intensified resource competition under nutrient limitation can either reduce the parasite?s effect on the host or further reduce the fitness of the nutrient-limited host. So far, knowledge of how nutrient limitation affects parasite performance at the host population level and how this affects the host populations is limited. Results: We followed the po…

medicine and health carenutrient limitationDaphnia magnafungiGlugoides intestinalisMedicineHost-parasite interactionLife sciences
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Does differential iron supply to algae affect Daphnia life history? : An ionome-wide study

2019

The availability of iron (Fe) varies considerably among diet items, as well as ecosystems. Availability of Fe has also changed due to anthropogenic environmental changes in oceanic as well as inland ecosystems. We know little about its role in the nutrition of ecologically important consumers, particularly in inland ecosystems. Physiological studies in several taxa indicate marked effects of dietary Fe on oogenesis. We predicted that differential Fe supply to algae will impact algal Fe concentration with consequences on the life history of the freshwater grazer, Daphnia magna. We found that algal Fe concentration increased with Fe supply, but did not affect algal growth, indicating that the…

zooplanktonecological stoichiometrynutrient limitationfungiplanktontrace metalsrautalisääntyminenreproductionravintovesikirputionomicsnutrient balance conceptravintoaineet
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