Progressive N limitation of plant response to elevated CO2: a microbiological perspective

A major uncertainty in predicting long-term ecosystem C balance is whether stimulation of net primary production will be sustained in future atmospheric CO2 scenarios. Immobilization of nutrients (N in particular) in plant biomass and soil organic matter (SOM) provides negative feedbacks to plant growth and may lead to progressive N limitation (PNL) of plant response to CO2 enrichment. Soil microbes mediate N availability to plants by controlling litter decomposition and N transformations as well as dominating biological N fixation. CO2-induced changes in C inputs, plant nutrient demand and water use efficiency often have interactive and contrasting effects on microbes and microbially mediated N processes. One critical...

Categories: Publication; Types: Citation, Journal Citation; Tags: Biological N fixation, Ecosystem N retention, Elevated CO2, Mycorrhizae, N limitation for plants and microbes, All tags... N mineralization, Plant and Soil, Plant–microbial competition for N, Priming effect, Soil organic matter, Springer Netherlands, Fewer tags

Regulation of nitric oxide emissions from forest and rangeland soils of western North America

Nitric oxide (NO) is a relatively short-lived trace gas that reacts with oxygen in the troposphere to produce the air pollutant ozone. It also reacts with water vapor to form nitric and nitrous acids, which acidify precipitation and increase N deposition. Models currently used to predict soil NO fluxes are based on the assumption that NO flux is proportional to the gross rate of nitrification or N mineralization; however, this assumption has not been tested because of the difficulty in measuring gross N-cycling rates in situ. We measured soil NO fluxes, gross and net N-cycling rates, and a variety of other soil characteristics in the forest floor and intact soil cores at nine undisturbed forest and rangeland ecosystems...

Categories: Publication; Types: Citation, Journal Citation; Tags: 15N, Ecology, N mineralization, Oregon Transect Ecosystem Research (OTTER) transec, gross N-cycling rates, All tags... isotope dilution, modeling, nitrification, nitrogen, sagebrush, soil organic matter, temperate forests, trace N gas, Fewer tags

The Response of Soil Processes to Climate Change: Results from Manipulation Studies of Shrublands Across an Environmental Gradient

Predicted changes in climate may affect key soil processes such as respiration and net nitrogen (N) mineralization and thus key ecosystem functions such as carbon (C) storage and nutrient availability. To identify the sensitivity of shrubland soils to predicted climate changes, we have carried out experimental manipulations involving ecosystem warming and prolonged summer drought in ericaceous shrublands across a European climate gradient. We used retractable covers to create artificial nighttime warming and prolonged summer drought to 20-m 2 experimental plots. Combining the data from across the environmental gradient with the results from the manipulation experiments provides evidence for strong climate controls...

Categories: Publication; Types: Citation, Journal Citation; Tags: Ecosystems, N mineralization, Springer New York, climate change, decomposition, All tags... drought, heathland, respiration, shrubland, warming, Fewer tags

Soil-mixing effects on inorganic nitrogen production and consumption in forest and shrubland soils

Soils that are physically disturbed are often reported to show net nitrification and NO3? loss. To investigate the response of soil N cycling rates to soil mixing, we assayed gross rates of mineralization, nitrification, NH4+ consumption, and NO3? consumption in a suite of soils from eleven woody plant communities in Oregon, New Mexico, and Utah. Results suggest that the common response of net NO3? flux from disturbed soils is not a straightforward response of increased gross nitrification, but instead may be due to the balance of several factors. While mineralization and NH4+ assimilation were higher in mixed than intact cores, NO3? consumption declined. Mean net nitrification was 0.12 mg N kg?1 d?1 in disturbed...

Categories: Publication; Types: Citation, Journal Citation; Tags: N mineralization, N-15 isotope pool dilution, Plant and Soil, Springer Netherlands, disturbance, All tags... microbial respiration, nitrification, Fewer tags

15N enrichment as an integrator of the effects of C and N on microbial metabolism and ecosystem function.

Organic carbon (C) and nitrogen (N) are essential for heterotrophic soil microorganisms, and their bioavailability strongly influences ecosystem C and N cycling. We show here that the natural (15)N abundance of the soil microbial biomass is affected by both the availability of C and N and ecosystem N processing. Microbial (15)N enrichment correlated negatively with the C : N ratio of the soil soluble fraction and positively with net N mineralization for ecosystems spanning semiarid, temperate and tropical climates, grassland and forests, and over four million years of ecosystem development. In addition, during soil incubation, large increases in microbial (15)N enrichment corresponded to high net N mineralization...

Categories: Publication; Types: Citation, Journal Citation; Tags: ?15?, Ecology Letters, N cycling, N mineralization, carbon and nitrogen availability, All tags... ecosystem function, resource availability, soil microbial biomass, stable isotopes, Fewer tags

Exotic plant invasion alters nitrogen dynamics in an arid grassland

The introduction of nonnative plant species may decrease ecosystem stability by altering the availability of nitrogen (N) for plant growth. Invasive species can impact N availability by changing litter quantity and quality, rates of N2-fixation, or rates of N loss. We quantified the effects of invasion by the annual grass Bromus tectorum on N cycling in an arid grassland on the Colorado Plateau (USA). The invasion occurred in 1994 in two community types in an undisturbed grassland. This natural experiment allowed us to measure the immediate responses following invasion without the confounding effects of previous disturbance. Litter biomass and the C:N and lignin:N ratios were measured to determine the effects on...

Categories: Publication; Types: Citation, Journal Citation; Tags: Bromus tectorum, Canyonlands National Park, Ecological Applications, N mineralization, Utah, All tags... changes in biomass and chemistry, denitrification enzyme activity, desert vegetation, ecosystem carbon, ecosystem nitrogen, grasslands, invasive species, litter, litter quality, plant invasion, plant-available N following plant invasion, Fewer tags

Exotic plant invasion alters nitrogen dynamics in an arid grassland

The introduction of nonnative plant species may decrease ecosystem stability by altering the availability of nitrogen (N) for plant growth. Invasive species can impact N availability by changing litter quantity and quality, rates of N2-fixation, or rates of N loss. We quantified the effects of invasion by the annual grass Bromus tectorum on N cycling in an arid grassland on the Colorado Plateau (USA). The invasion occurred in 1994 in two community types in an undisturbed grassland. This natural experiment allowed us to measure the immediate responses following invasion without the confounding effects of previous disturbance. Litter biomass and the C:N and lignin:N ratios were measured to determine the effects on...

Categories: Publication; Types: Citation, Journal Citation; Tags: Bromus tectorum, Canyonlands National Park, Ecological Applications, N mineralization, Utah, All tags... changes in biomass and chemistry, denitrification enzyme activity, desert vegetation, ecosystem carbon, ecosystem nitrogen, grasslands, invasive species, litter, litter quality, plant invasion, plant-available N following plant invasion, Fewer tags