All Stories

  1. Arbuscular mycorrhizae are important for phosphorus uptake and root biomass, and exudation for nitrogen uptake in tomato plants grown under variable water conditions
  2. Seasonal Biotic Processes Vary the Carbon Turnover by Up To One Order of Magnitude in Wetlands
  3. Priming effect on soil carbon decomposition by root exudate surrogates: A meta-analysis
  4. The influence of plant residues on soil aggregation and carbon content: A meta‐analysis
  5. Microbial carbon use efficiency of glucose varies with soil clay content: A meta-analysis
  6. Nitrogen addition and defoliation alter belowground carbon allocation with consequences for plant nitrogen uptake and soil organic carbon decomposition
  7. Global meta-analysis of nitrogen fertilizer use efficiency in rice, wheat and maize
  8. Ecotoxicological effects of plastics on plants, soil fauna and microorganisms: A meta-analysis
  9. Crop residue decomposition and nutrient release are independently affected by nitrogen fertilization, plastic film mulching, and residue type
  10. Stabilisation of soil organic matter: interactions between clay and microbes
  11. Belowground Carbon Efficiency for Nitrogen and Phosphorus Acquisition Varies Between Lolium perenne and Trifolium repens and Depends on Phosphorus Fertilization
  12. Carbon efficiency for nutrient acquisition (CENA) by plants: role of nutrient availability and microbial symbionts
  13. Drought Impacts on Tree Root Traits Are Linked to Their Decomposability and Net Carbon Release
  14. Increased soil organic matter after 28 years of nitrogen fertilization only with plastic film mulching is controlled by maize root biomass
  15. Phosphorus Supply Increases Nitrogen Transformation Rates and Retention in Soil: A Global Meta‐Analysis
  16. Potential gross nitrogen mineralization and its linkage with microbial respiration along a forest transect in eastern China
  17. Nitrogen enrichment buffers phosphorus limitation by mobilizing mineral‐bound soil phosphorus in grasslands
  18. Nitrogen addition increases microbial necromass in croplands and bacterial necromass in forests: A global meta-analysis
  19. Ensuring planetary survival: the centrality of organic carbon in balancing the multifunctional nature of soils
  20. Nitrogen and phosphorus availability have stronger effects on gross and net nitrogen mineralisation than wheat rhizodeposition
  21. Plastics in soil environments: All things considered
  22. Reallocation of nitrogen and phosphorus from roots drives regrowth of grasses and sedges after defoliation under deficit irrigation and nitrogen enrichment
  23. Priming effect varies with root order: A case of Cunninghamia lanceolata
  24. Nitrogen Fertilisation Increases Specific Root Respiration in Ectomycorrhizal but Not in Arbuscular Mycorrhizal Plants: A Meta-Analysis
  25. Carbon allocation to the rhizosphere is affected by drought and nitrogen addition
  26. Stability of elemental content correlates with plant resistance to soil impoverishment
  27. Biochar application rate does not improve plant water availability in soybean under drought stress
  28. Arbuscular mycorrhizal trees cause a higher carbon to nitrogen ratio of soil organic matter decomposition via rhizosphere priming than ectomycorrhizal trees
  29. Global analysis of phosphorus fertilizer use efficiency in cereal crops
  30. Drought-induced and seasonal variation in carbon use efficiency is associated with fungi:bacteria ratio and enzyme production in a grassland ecosystem
  31. Biocides provide a source of carbon and nitrogen directly to surviving microbes and indirectly through a pulse in microbial necromass
  32. Microbial carbon use efficiency, biomass residence time and temperature sensitivity across ecosystems and soil depths
  33. Biochar aging increased microbial carbon use efficiency but decreased biomass turnover time
  34. A novel 13 C pulse‐labelling method to quantify the contribution of rhizodeposits to soil respiration in a grassland exposed to drought and nitrogen addition
  35. Root effects on soil organic carbon: a double‐edged sword
  36. Linking absorptive roots and their functional traits with rhizosphere priming of tree species
  37. Rhizosphere priming effects of Lolium perenne and Trifolium repens depend on phosphorus fertilization and biological nitrogen fixation
  38. Carbon storage and plant-soil linkages among soil aggregates as affected by nitrogen enrichment and mowing management in a meadow grassland
  39. Rhizosphere priming is tightly associated with root-driven aggregate turnover
  40. Carbon and nitrogen dynamics affected by litter and nitrogen addition in a grassland soil: Role of fungi
  41. New soil carbon sequestration with nitrogen enrichment: a meta-analysis
  42. Root effects on the temperature sensitivity of soil respiration depend on climatic condition and ecosystem type
  43. Biochar-induced reductions in the rhizosphere priming effect are weaker under elevated CO2
  44. Rhizodeposition mediates the effect of nitrogen and phosphorous availability on microbial carbon use efficiency and turnover rate
  45. Changes in soil C:N:P stoichiometry along an aridity gradient in drylands of northern China
  46. Rhizosphere priming effects in soil aggregates with different size classes
  47. Plant uptake of nitrogen and phosphorus among grassland species affected by drought along a soil available phosphorus gradient
  48. Nitrogen and phosphorus availability affect wheat carbon allocation pathways: rhizodeposition and mycorrhizal symbiosis
  49. Plant roots are more important than temperature in modulating carbon release in a limed acidic soil
  50. Inter-seasonal Nitrogen Loss with Drought Depends on Fertilizer Management in a Seminatural Australian Grassland
  51. Exogenous P compounds differentially interacted with N availability to regulate enzymatic activities in a meadow steppe
  52. Exogenous phosphorus compounds interact with nitrogen availability to regulate dynamics of soil inorganic phosphorus fractions in a meadow steppe
  53. Decoupling of plant and soil metal nutrients as affected by nitrogen addition in a meadow steppe
  54. Changes of plant N:P stoichiometry across a 3000-km aridity transect in grasslands of northern China
  55. Carbon and phosphorus addition effects on microbial carbon use efficiency, soil organic matter priming, gross nitrogen mineralization and nitrous oxide emission from soil
  56. Roots of non-woody perennials accelerated long-term soil organic matter decomposition through biological and physical mechanisms
  57. Variation in rhizosphere priming and microbial growth and carbon use efficiency caused by wheat genotypes and temperatures
  58. Chemically oxidized biochar increases ammonium-15N recovery and phosphorus uptake in a grassland
  59. Phosphorus availability and plants alter soil nitrogen retention and loss
  60. Aridity thresholds of soil microbial metabolic indices along a 3,200 km transect across arid and semi-arid regions in Northern China
  61. Fungicide and Bactericide Effects on Carbon and Nitrogen Cycling in Soils: A Meta-Analysis
  62. Litter carbon and nutrient chemistry control the magnitude of soil priming effect
  63. Opposite effects of nitrogen fertilization and plastic film mulching on crop N and P stoichiometry in a temperate agroecosystem
  64. Effects of amendments on phosphorous status in soils with different phosphorous levels
  65. Response of soil carbon to nitrogen and water addition differs between labile and recalcitrant fractions: Evidence from multi–year data and different soil depths in a semi-arid steppe
  66. Drought and heat stress reduce yield and alter carbon rhizodeposition of different wheat genotypes
  67. Intensity and frequency of nitrogen addition alter soil chemical properties depending on mowing management in a temperate steppe
  68. Studying root water uptake of wheat genotypes in different soils using water δ18O stable isotopes
  69. Differential responses of canopy nutrients to experimental drought along a natural aridity gradient
  70. Elevated CO2 and warming cause interactive effects on soil carbon and shifts in carbon use by bacteria
  71. Effects of extreme drought on plant nutrient uptake and resorption in rhizomatous vs bunchgrass-dominated grasslands
  72. Author Correction: Crowther et al. reply
  73. Rhizosphere priming of grassland species under different water and nitrogen conditions: a mechanistic hypothesis of C-N interactions
  74. Higher capability of C3 than C4 plants to use nitrogen inferred from nitrogen stable isotopes along an aridity gradient
  75. Soil properties determine the elevational patterns of base cations and micronutrients in the plant–soil system up to the upper limits of trees and shrubs
  76. Warming and Elevated CO2 Interact to Alter Seasonality and Reduce Variability of Soil Water in a Semiarid Grassland
  77. Crowther et al. reply
  78. Enhanced biological nitrogen fixation and competitive advantage of legumes in mixed pastures diminish with biochar aging
  79. Rhizosphere priming effects of soybean and cottonwood: do they vary with latitude?
  80. Soil carbon loss regulated by drought intensity and available substrate: A meta-analysis
  81. Effect of crop rotation on mycorrhizal colonization and wheat yield under different fertilizer treatments
  82. Variation in specific root length among 23 wheat genotypes affects leaf δ 13 C and yield
  83. Aging Induced Changes in Biochar’s Functionality and Adsorption Behavior for Phosphate and Ammonium
  84. Faster turnover of new soil carbon inputs under increased atmospheric CO2
  85. Variations of N2O fluxes in response to warming and cooling in an alpine meadow on the Tibetan Plateau
  86. Alteration of soil carbon and nitrogen pools and enzyme activities as affected by increased soil coarseness
  87. Mineral-Associated Soil Carbon is Resistant to Drought but Sensitive to Legumes and Microbial Biomass in an Australian Grassland
  88. Aged biochar affects gross nitrogen mineralization and recovery: a15N study in two contrasting soils
  89. Challenging terrestrial biosphere models with data from the long‐term multifactor Prairie Heating and CO 2 Enrichment experiment
  90. Stoichiometric N:P flexibility and mycorrhizal symbiosis favour plant resistance against drought
  91. Long-Term Aging of Biochar
  92. Sensitivities to nitrogen and water addition vary among microbial groups within soil aggregates in a semiarid grassland
  93. Denitrification and associated N 2 O emissions are limited by phosphorus availability in a grassland soil
  94. Drought effects on Helianthus annuus and Glycine max metabolites: from phloem to root exudates
  95. Elevated ozone effects on soil nitrogen cycling differ among wheat cultivars
  96. Quantifying and reducing uncertainties in estimated soil CO2 fluxes with hierarchical data-model integration
  97. Soil microbial community resistance to drought and links to C stabilization in an Australian grassland
  98. Quantifying global soil carbon losses in response to warming
  99. Enhanced decomposition and nitrogen mineralization sustain rapid growth of Eucalyptus regnans after wildfire
  100. Impacts of warming and elevated CO 2 on a semi‐arid grassland are non‐additive, shift with precipitation, and reverse over time
  101. Thresholds in decoupled soil-plant elements under changing climatic conditions
  102. Dual-labeling with 15N and H2 18O to investigate water and N uptake of wheat under different water regimes
  103. Water, nitrogen and phosphorus use efficiencies of four tree species in response to variable water and nutrient supply
  104. Soil warming and liming impacts on the recovery of15N in an acidic soil under soybean cropping
  105. Effect of twenty four wheat genotypes on soil biochemical and microbial properties
  106. Asymmetric responses of methane uptake to climate warming and cooling of a Tibetan alpine meadow assessed through a reciprocal translocation along an elevation gradient
  107. Biochar Field Study: Greenhouse Gas Emissions, Productivity, and Nutrients in Two Soils
  108. A threshold reveals decoupled relationship of sulfur with carbon and nitrogen in soils across arid and semi-arid grasslands in northern China
  109. Mediation of soil C decomposition by arbuscular mycorrizhal fungi in grass rhizospheres under elevated CO2
  110. Synergistic Effects of Biochar and NPK Fertilizer on Soybean Yield in an Alkaline Soil
  111. Influence of life form, taxonomy, climate, and soil properties on shoot and root concentrations of 11 elements in herbaceous plants in a temperate desert
  112. Biochar reduces the rhizosphere priming effect on soil organic carbon
  113. Soil Microbes Compete Strongly with Plants for Soil Inorganic and Amino Acid Nitrogen in a Semiarid Grassland Exposed to Elevated CO2 and Warming
  114. Fire Eases Imbalances of Nitrogen and Phosphorus in Woody Plants
  115. Phosphorus addition enhances loss of nitrogen in a phosphorus-poor soil
  116. Plant and microbial uptake of nitrogen and phosphorus affected by drought using 15N and 32P tracers
  117. Dry-rewetting cycles regulate wheat carbon rhizodeposition, stabilization and nitrogen cycling
  118. Carbon dynamics from carbonate dissolution in Australian agricultural soils
  119. Leaf nitrogen and phosphorus of temperate desert plants in response to climate and soil nutrient availability
  120. Drought effect on plant nitrogen and phosphorus: a meta-analysis
  121. Effects of Biochar on Soil Microbial Biomass after Four Years of Consecutive Application in the North China Plain
  122. Plant nitrogen uptake drives responses of productivity to nitrogen and water addition in a grassland
  123. Disentangling root responses to climate change in a semiarid grassland
  124. Plant rhizosphere influence on microbial C metabolism: the role of elevated CO2, N availability and root stoichiometry
  125. Temperature sensitivity and carbon release in an acidic soil amended with lime and mulch
  126. Opportunities and constraints for biochar technology in Australian agriculture: looking beyond carbon sequestration
  127. Warming Reduces Carbon Losses from Grassland Exposed to Elevated Atmospheric Carbon Dioxide
  128. Climate change reduces the net sink of CH4 and N2O in a semiarid grassland
  129. Inorganic and organic carbon dynamics in a limed acid soil are mediated by plants
  130. Rhizosphere priming: a nutrient perspective
  131. Tracking Short-Term Effects of Nitrogen-15 Addition on Nitrous Oxide Fluxes Using Fourier-Transform Infrared Spectroscopy
  132. Effects of elevated carbon dioxide and increased temperature on methane and nitrous oxide fluxes: evidence from field experiments
  133. Climate change alters stoichiometry of phosphorus and nitrogen in a semiarid grassland
  134. Simple additive effects are rare: a quantitative review of plant biomass and soil process responses to combined manipulations of CO2 and temperature
  135. Controls over Soil Nitrogen Pools in a Semiarid Grassland Under Elevated CO2 and Warming
  136. Nitrogen cycling and water pulses in semiarid grasslands: are microbial and plant processes temporally asynchronous?
  137. Interactions between elevated atmospheric CO2 and defoliation on North American rangeland plant species at low and high N availability
  138. Elevated CO2 and Warming Effects on Soil Carbon Sequestration and Greenhouse Gas Exchange in Agroecosystems
  139. Elevated CO2, but not defoliation, enhances N cycling and increases short-term soil N immobilization regardless of N addition in a semiarid grassland
  140. C4 grasses prosper as carbon dioxide eliminates desiccation in warmed semi-arid grassland
  141. Response of soil organic matter pools to elevated CO2 and warming in a semi-arid grassland
  142. Elevated CO2and warming effects on CH4uptake in a semiarid grassland below optimum soil moisture
  143. Rhizosphere interactions, carbon allocation, and nitrogen acquisition of two perennial North American grasses in response to defoliation and elevated atmospheric CO2
  144. Elevated CO2 effects on semi‐arid grassland plants in relation to water availability and competition
  145. Water limitation and plant inter-specific competition reduce rhizosphere-induced C decomposition and plant N uptake
  146. Contrasting effects of elevated CO2 and warming on nitrogen cycling in a semiarid grassland
  147. Carbon sequestration in agricultural lands of the United States
  148. Microbially mediated CH4 consumption and N2O emission is affected by elevated CO2, soil water content, and composition of semi-arid grassland species
  149. Modeling the flow of 15N after a 15N pulse to study long‐term N dynamics in a semiarid grassland
  150. Does accelerated soil organic matter decomposition in the presence of plants increase plant N availability?
  151. Antagonistic effects of species on C respiration and net N mineralization in soils from mixed coniferous plantations
  152. Long-term enhancement of N availability and plant growth under elevated CO2in a semi-arid grassland
  153. Increased soil moisture content increases plant N uptake and the abundance of 15N in plant biomass
  154. Moisture modulates rhizosphere effects on C decomposition in two different soil types
  155. Interactions between soil and tree roots accelerate long‐term soil carbon decomposition
  156. The effects of Glycine max and Helianthus annuus on nutrient availability in two soils
  157. Theoretical Proof and Empirical Confirmation of a Continuous Labeling Method Using Naturally 13C‐Depleted Carbon Dioxide
  158. PLANT DIVERSITY, CO2, AND N INFLUENCE INORGANIC AND ORGANIC N LEACHING IN GRASSLANDS
  159. Plant biomass influences rhizosphere priming effects on soil organic matter decomposition in two differently managed soils
  160. Tree Patches Show Greater N Losses but Maintain Higher Soil N Availability than Grassland Patches in a Frequently Burned Oak Savanna
  161. Soil Processes Affected by Sixteen Grassland Species Grown under Different Environmental Conditions
  162. Divergent effects of elevated CO2, N fertilization, and plant diversity on soil C and N dynamics in a grassland field experiment
  163. Nitrogen deposition and plant species interact to influence soil carbon stabilization
  164. Aluminum solubility and mobility in relation to organic carbon in surface soils affected by six tree species of the northeastern United States
  165. Calcium mineralization in the forest floor and surface soil beneath different tree species in the northeastern US
  166. Tree Species Effects on Calcium Cycling: The Role of Calcium Uptake in Deep Soils
  167. The effect of organic acids on base cation leaching from the forest floor under six North American tree species