Impacts of Fine Root Turnover on Forest NPP and Soil C Sequestration Potential
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'One physical system': Tansley's ecosystem as Earth's critical zoneFactors affecting spatial variation of annual apparent Q₁₀ of soil respiration in two warm temperate forestsDifferential Effects of Conservational Management on SOC Accumulation in the Grasslands of ChinaWarming accelerates decomposition of decades-old carbon in forest soilsProjecting climate change effects on forest net primary productivity in subtropical Louisiana, USAModeling Soil Carbon Dynamics in Northern Forests: Effects of Spatial and Temporal Aggregation of Climatic Input DataRate my data: quantifying the value of ecological data for the development of models of the terrestrial carbon cycle.Understanding deep roots and their functions in ecosystems: an advocacy for more unconventional research.Determinate root growth and meristem maintenance in angiosperms.Common bacterial responses in six ecosystems exposed to 10 years of elevated atmospheric carbon dioxide.Elevated carbon dioxide and ozone alter productivity and ecosystem carbon content in northern temperate forests.Plant respiration and elevated atmospheric CO2 concentration: cellular responses and global significance.An invasive wetland grass primes deep soil carbon pools.Fine-root production dominates response of a deciduous forest to atmospheric CO2 enrichment.Fast-cycling unit of root turnover in perennial herbaceous plants in a cold temperate ecosystemPlant functional traits and soil carbon sequestration in contrasting biomes.Synthesis and modeling perspectives of rhizosphere priming.Quantification of ecosystem C dynamics in a long-term FACE study on permanent grassland.Acclimation of fine root respiration to soil warming involves starch deposition in very fine and fine roots: a case study in Fagus sylvatica saplings.Variability in root production, phenology, and turnover rate among 12 temperate tree species.Effects of water and nutrient availability on fine root growth in eastern Amazonian forest regrowth, Brazil.Life span and structure of ephemeral root modules of different functional groups from a desert system.Interactions between CO2 enhancement and N addition on net primary productivity and water-use efficiency in a mesocosm with multiple subtropical tree species.Sampling volume in root studies: the pitfalls of under-sampling exposed using accumulation curves.Increases in the flux of carbon belowground stimulate nitrogen uptake and sustain the long-term enhancement of forest productivity under elevated CO₂.Fine root heterogeneity by branch order: exploring the discrepancy in root turnover estimates between minirhizotron and carbon isotopic methods.Acquisition of ephemeral module in roots: a new view and testPhenolic profile within the fine-root branching orders of an evergreen species highlights a disconnect in root tissue quality predicted by elemental- and molecular-level carbon composition.The hidden season: growing season is 50% longer below than above ground along an arctic elevation gradient.Elevated CO2 Increases Nitrogen Fixation at the Reproductive Phase Contributing to Various Yield Responses of Soybean Cultivars.Is the simple auger coring method reliable for below-ground standing biomass estimation in Eucalyptus forest plantations?Impact of tapping and soil water status on fine root dynamics in a rubber tree plantation in Thailand.Reconcilable differences: a joint calibration of fine-root turnover times with radiocarbon and minirhizotrons.Patterns in soil fertility and root herbivory interact to influence fine-root dynamics.Specific rhizosphere bacterial and fungal groups respond differently to elevated atmospheric CO(2).Allometric growth and allocation in forests: a perspective from FLUXNET.Relationship between fine-root exudation and respiration of two Quercus species in a Japanese temperate forest.Atmospheric science. The secret lives of roots.Mycorrhizal fungi and roots are complementary in foraging within nutrient patches.Whole-tree dynamics of non-structural carbohydrate and nitrogen pools across different seasons and in response to girdling in two temperate trees.
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Impacts of Fine Root Turnover on Forest NPP and Soil C Sequestration Potential
description
article publié dans la revue scientifique Science
@fr
im November 2003 veröffentlichter wissenschaftlicher Artikel
@de
scientific article published in Science
@en
wetenschappelijk artikel
@nl
наукова стаття, опублікована в листопаді 2003
@uk
name
Impacts of Fine Root Turnover on Forest NPP and Soil C Sequestration Potential
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Impacts of Fine Root Turnover on Forest NPP and Soil C Sequestration Potential
@nl
type
label
Impacts of Fine Root Turnover on Forest NPP and Soil C Sequestration Potential
@en
Impacts of Fine Root Turnover on Forest NPP and Soil C Sequestration Potential
@nl
prefLabel
Impacts of Fine Root Turnover on Forest NPP and Soil C Sequestration Potential
@en
Impacts of Fine Root Turnover on Forest NPP and Soil C Sequestration Potential
@nl
P2093
P2860
P356
P1433
P1476
Impacts of fine root turnover on forest NPP and soil C sequestration potential
@en
P2093
Julie D Jastrow
Roser Matamala
William H Schlesinger
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P304
P356
10.1126/SCIENCE.1089543
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P577
2003-11-01T00:00:00Z