Connecting the green and brown worlds . allometric and stoichiometric predictability of above- and below-ground networks
暂无分享,去创建一个
Jordi Sardans | Josep Peñuelas | Michael Bahn | Ian J. Wright | Jens Kattge | David A. Bohan | Paul Henning Krogh | Sandra Lavorel | Graciela M. Rusch | Peter B. Reich | Shahid Naeem | Bryan S. Griffiths | Giorgio Mancinelli | Farshid S. Ahrestani | Hendrik Poorter | Owen T. Lewis | P. Reich | J. Peñuelas | B. Griffiths | P. Krogh | S. Naeem | J. Kattge | M. Bahn | S. Lavorel | D. Bohan | I. Wright | H. Poorter | M. Bonkowski | C. Mulder | J. Sardans | L. Rossi | F. Ahrestani | O. Lewis | G. Rusch | R. Guicharnaud | Christian Mulder | Michael Bonkowski | G. Mancinelli | Loreto Rossi | R. Guicharnaud | F. S. Ahrestani
[1] C. Mulder,et al. Soil invertebrates, chemistry, weather, human management, and edaphic food webs at 135 sites in The Netherlands: SIZEWEB , 2014 .
[2] W. K. Hicks,et al. Nitrogen Deposition, Critical Loads and Biodiversity , 2014 .
[3] G. Reinds,et al. Quantification of Impacts of Nitrogen Deposition on Forest Ecosystem Services in Europe , 2014 .
[4] N. Loeuille,et al. Chapter Six – Eco-Evolutionary Dynamics of Agricultural Networks: Implications for Sustainable Management , 2013 .
[5] M. Struebig,et al. Quantifying the Biodiversity Value of Repeatedly Logged Rainforests: Gradient and Comparative Approaches from Borneo , 2013 .
[6] Liliane Ruess,et al. Empirically Characterising Trophic Networks: What Emerging DNA-Based Methods, Stable Isotope and Fatty Acid Analyses Can Offer , 2013 .
[7] S. Maci,et al. Cross-validation of δ15N and FishBase estimates of fish trophic position in a Mediterranean lagoon: The importance of the isotopic baseline , 2013 .
[8] Nicola Zaccarelli,et al. RInSp: an r package for the analysis of individual specialization in resource use , 2013 .
[9] W. Ulrich,et al. The Shape of the Intraspecific Metabolic-Rate—Body-Size Relationship Affects Interspecific Biomass and Abundance Distributions of Soil Animals within a Forest Ecosystem , 2013 .
[10] Sandra Lavorel,et al. A novel framework for linking functional diversity of plants with other trophic levels for the quantification of ecosystem services , 2013 .
[11] N. Anten,et al. Physiological mechanisms in plant growth models: do we need a supra-cellular systems biology approach? , 2013, Plant, cell & environment.
[12] J. Klironomos,et al. A trait-based framework to understand life history of mycorrhizal fungi. , 2013, Trends in plant science.
[13] Jean-Paul Hettelingh,et al. Assessing interim objectives for acidification, eutrophication and ground-level ozone of the EU National Emission Ceilings Directive with 2001 and 2012 knowledge , 2013 .
[14] P. Reich,et al. Mechanisms underlying global temperature-related patterns in leaf longevity , 2013 .
[15] Nicholas K Dulvy,et al. Ecosystem ecology: size-based constraints on the pyramids of life. , 2013, Trends in ecology & evolution.
[16] G. Farquhar,et al. Photosynthetically relevant foliar traits correlating better on a mass vs an area basis: of ecophysiological relevance or just a case of mathematical imperatives and statistical quicksand? , 2013, The New phytologist.
[17] Peter E. Thornton,et al. A global analysis of soil microbial biomass carbon, nitrogen and phosphorus in terrestrial ecosystems , 2013 .
[18] P. Reich,et al. New handbook for standardised measurement of plant functional traits worldwide , 2013 .
[19] C. Mulder,et al. Contrasting influence of soil nutrients and microbial community on differently sized basal consumers , 2013, Naturwissenschaften.
[20] S. Pacala,et al. Global Leaf Trait Relationships: Mass, Area, and the Leaf Economics Spectrum , 2013, Science.
[21] Hettelingh Jp,et al. Modelling and mapping of atmospherically-induced ecosystem impacts in Europe : CCE status report 2012 , 2013 .
[22] Stefano Allesina,et al. The dimensionality of ecological networks. , 2013, Ecology letters.
[23] J. Peñuelas,et al. Tree growth changes with climate and forest type are associated with relative allocation of nutrients, especially phosphorus, to leaves and wood , 2013 .
[24] Andreas Richter,et al. Microbial N immobilization is of great importance in acidified mountain spruce forest soils , 2013 .
[25] Gareth B. Jenkins,et al. Long‐term amelioration of acidity accelerates decomposition in headwater streams , 2013, Global change biology.
[26] K. Denef,et al. The Microbial Efficiency‐Matrix Stabilization (MEMS) framework integrates plant litter decomposition with soil organic matter stabilization: do labile plant inputs form stable soil organic matter? , 2013, Global change biology.
[27] Michiel Rutgers,et al. The practicalities and pitfalls of establishing a policy‐relevant and cost‐effective soil biological monitoring scheme , 2013, Integrated environmental assessment and management.
[28] J. Aherne,et al. Impacts of nitrogen and sulphur deposition on forest ecosystem services in Canada , 2013 .
[29] Guy Woodward,et al. Drought alters the structure and functioning of complex food webs , 2013 .
[30] J. Six,et al. Greenhouse-gas emissions from soils increased by earthworms , 2013 .
[31] Andreas Richter,et al. Responses of belowground carbon allocation dynamics to extended shading in mountain grassland , 2013, The New phytologist.
[32] B. Klarner,et al. Trophic diversity and niche partitioning in a species rich predator guild – Natural variations in stable isotope ratios (13C/12C, 15N/14N) of mesostigmatid mites (Acari, Mesostigmata) from Central European beech forests , 2013 .
[33] Jingyun Fang,et al. Leaf nitrogen and phosphorus concentrations of woody plants differ in responses to climate, soil and plant growth form , 2013 .
[34] Stefano Allesina,et al. The ghost of nestedness in ecological networks , 2013, Nature Communications.
[35] Stephen Emmott,et al. Ecosystems: Time to model all life on Earth , 2013, Nature.
[36] Lawrence N. Hudson,et al. Cheddar: analysis and visualisation of ecological communities in R , 2013 .
[37] Michael Bahn,et al. Relative contributions of plant traits and soil microbial properties to mountain grassland ecosystem services , 2013 .
[38] David A. Bohan,et al. Mesocosm Experiments as a Tool for Ecological Climate-Change Research , 2013 .
[39] Piran C. L. White,et al. Chapter One – Ecosystems and Their Services in a Changing World: An Ecological Perspective , 2013 .
[40] Stephen Muggleton,et al. Chapter Four – Construction and Validation of Food Webs Using Logic-Based Machine Learning and Text Mining , 2013 .
[41] B. Griffiths,et al. Long-term phosphorus fertilisation increased the diversity of the total bacterial community and the phoD phosphorus mineraliser group in pasture soils , 2012, Biology and Fertility of Soils.
[42] Community-aggregated plant traits interact with soil nutrient heterogeneity to determine ecosystem functioning , 2013, Plant and Soil.
[43] C. Stevens,et al. Impact of nitrogen deposition at the species level , 2012, Proceedings of the National Academy of Sciences.
[44] Ian J. Wright,et al. Impacts of trait variation through observed trait–climate relationships on performance of an Earth system model: a conceptual analysis , 2012 .
[45] G. Mancinelli. On the trophic ecology of Gammaridea (Crustacea: Amphipoda) in coastal waters: A European-scale analysis of stable isotopes data , 2012 .
[46] Bill Shipley,et al. Predicting invertebrate herbivory from plant traits: evidence from 51 grassland species in experimental monocultures. , 2012, Ecology.
[47] P Grennfelt,et al. From Acid Rain to Climate Change , 2012, Science.
[48] M. Gessner,et al. Consumer trophic diversity as a fundamental mechanism linking predation and ecosystem functioning. , 2012, The Journal of animal ecology.
[49] J. Peñuelas,et al. The Role of Plants in the Effects of Global Change on Nutrient Availability and Stoichiometry in the Plant-Soil System1[W] , 2012, Plant Physiology.
[50] L. Sack,et al. Pitfalls and Possibilities in the Analysis of Biomass Allocation Patterns in Plants , 2012, Front. Plant Sci..
[51] S. Sistla,et al. Stoichiometric flexibility as a regulator of carbon and nutrient cycling in terrestrial ecosystems under change. , 2012, The New phytologist.
[52] B. Enquist,et al. A common genetic basis to the origin of the leaf economics spectrum and metabolic scaling allometry. , 2012, Ecology letters.
[53] S. Lehman,et al. Edge Effects on Foliar Stable Isotope Values in a Madagascan Tropical Dry Forest , 2012, PloS one.
[54] R. Aerts,et al. Highly consistent effects of plant litter identity and functional traits on decomposition across a latitudinal gradient. , 2012, Ecology letters.
[55] T. Kuyper. Ectomycorrhiza and the open nitrogen cycle in an afrotropical rainforest. , 2012, The New phytologist.
[56] S. Scheu,et al. Carbon flux through fungi and bacteria into the forest soil animal food web as indicated by compound-specific 13C fatty acid analysis , 2012 .
[57] B. Dilkes,et al. Elemental Profiles Reflect Plant Adaptations to the Environment , 2012, Science.
[58] Samraat Pawar,et al. Dimensionality of consumer search space drives trophic interaction strengths , 2012, Nature.
[59] Markus Reichstein,et al. Gap Filling in the Plant Kingdom - Trait Prediction Using Hierarchical Probabilistic Matrix Factorization , 2012, ICML.
[60] B. Griffiths,et al. C:N:P stoichiometry and nutrient limitation of the soil microbial biomass in a grazed grassland site under experimental P limitation or excess , 2012, Ecological Processes.
[61] N. Buchmann,et al. Pulse-labelling trees to study carbon allocation dynamics: a review of methods, current knowledge and future prospects. , 2012, Tree physiology.
[62] P. D. Ruiter,et al. Energetic Food Webs: An analysis of real and model ecosystems , 2012 .
[63] P. Reich,et al. Impacts of Biodiversity Loss Escalate Through Time as Redundancy Fades , 2012, Science.
[64] Erle C. Ellis,et al. Mapping where ecologists work: biases in the global distribution of terrestrial ecological observations , 2012, Frontiers in Ecology and the Environment.
[65] Qiang Yu,et al. Testing the Growth Rate Hypothesis in Vascular Plants with Above- and Below-Ground Biomass , 2012, PloS one.
[66] Andreas Richter,et al. Who is who in litter decomposition? Metaproteomics reveals major microbial players and their biogeochemical functions , 2012, The ISME Journal.
[67] Jordi Sardans,et al. The C:N:P stoichiometry of organisms and ecosystems in a changing world: A review and perspectives , 2012 .
[68] M. Ceccherini,et al. Are humus forms, mesofauna and microflora in subalpine forest soils sensitive to thermal conditions? , 2012, Biology and Fertility of Soils.
[69] Robert P Freckleton,et al. Making predictive ecology more relevant to policy makers and practitioners , 2012, Philosophical Transactions of the Royal Society B: Biological Sciences.
[70] Xuewen Huang,et al. Plant Species Richness and Ecosystem Multifunctionality in Global Drylands , 2012, Science.
[71] Sandra Lavorel,et al. How fundamental plant functional trait relationships scale‐up to trade‐offs and synergies in ecosystem services , 2012 .
[72] Josep Peñuelas,et al. The human‐induced imbalance between C, N and P in Earth's life system , 2012 .
[73] W. Wanek,et al. Effects of stoichiometry and temperature perturbations on beech leaf litter decomposition, enzyme activities and protein expression , 2011, Biogeosciences.
[74] C. Mulder,et al. Delayed logistic and rosenzweig-macarthur models with allometric parameter setting estimate population cycles at lower trophic levels well , 2009, 0910.5057.
[75] Diana H. Wall,et al. Distributional (In)Congruence of Biodiversity-Ecosystem Functioning , 2012 .
[76] Rebecca M. B. Harris,et al. Climate Change Impacts on Community Resilience. Evidence from a Drought Disturbance Experiment , 2012 .
[77] Etienne Yergeau,et al. Soil characteristics more strongly influence soil bacterial communities than land-use type. , 2012, FEMS microbiology ecology.
[78] Owen L. Petchey,et al. Impacts of Warming on the Structure and Functioning of Aquatic Communities: Individual- to Ecosystem-Level Responses , 2012 .
[79] Guy Woodward,et al. Biodiversity, species interactions and ecological networks in a fragmented world , 2012 .
[80] Stephen Muggleton,et al. Automated Discovery of Food Webs from Ecological Data Using Logic-Based Machine Learning , 2011, PloS one.
[81] J. Elser. A World Awash with Nitrogen , 2011, Science.
[82] N. Buchmann,et al. Carbon allocation and carbon isotope fluxes in the plant-soil-atmosphere continuum: a review , 2011 .
[83] D. Manning,et al. Persistence of soil organic matter as an ecosystem property , 2011, Nature.
[84] C. Mulder,et al. Nematode traits and environmental constraints in 200 soil systems: scaling within the 60–6000 μm body size range , 2011 .
[85] Elena M. Bennett,et al. Phosphorus cycle: A broken biogeochemical cycle , 2011, Nature.
[86] S. Higgins,et al. TRY – a global database of plant traits , 2011, Global Change Biology.
[87] Stephen Muggleton,et al. Machine Learning a Probabilistic Network of Ecological Interactions , 2011, ILP.
[88] James H. Brown,et al. A Common Scaling Rule for Abundance, Energetics, and Production of Parasitic and Free-Living Species , 2011, Science.
[89] R. Bobbink,et al. Review and revision of empirical critical loads and dose-response relationships : Proceedings of an expert workshop, Noordwijkerhout, 23-25 June 2010 , 2011 .
[90] Joshua S Madin,et al. A generic structure for plant trait databases , 2011 .
[91] G. Reinds,et al. Geographical variation in terrestrial nitrogen budgets across Europe , 2011 .
[92] Owen L. Petchey,et al. Across ecosystem comparisons of size structure: methods, approaches and prospects , 2011 .
[93] William J. Foley,et al. Assessing the evidence for latitudinal gradients in plant defence and herbivory , 2011 .
[94] A. Don,et al. Impact of tropical land‐use change on soil organic carbon stocks – a meta‐analysis , 2011 .
[95] John A. Hall,et al. Top 40 Priorities for Science to Inform US Conservation and Management Policy , 2011 .
[96] L. Harder,et al. Global growth and stability of agricultural yield decrease with pollinator dependence , 2011, Proceedings of the National Academy of Sciences.
[97] S. Hättenschwiler,et al. Leaf traits and decomposition in tropical rainforests: revisiting some commonly held views and towards a new hypothesis. , 2011, The New phytologist.
[98] S. Dekker,et al. Modelling C and N mineralisation in soil food webs during secondary succession on ex-arable land , 2011 .
[99] L. Poorter,et al. Linking functional diversity and social actor strategies in a framework for interdisciplinary analysis of nature's benefits to society , 2011, Proceedings of the National Academy of Sciences.
[100] P. D. de Ruiter,et al. A Belowground Perspective on Dutch Agroecosystems: How Soil Organisms Interact to Support Ecosystem Services , 2011 .
[101] J. Peñuelas,et al. The elemental stoichiometry of aquatic and terrestrial ecosystems and its relationships with organismic lifestyle and ecosystem structure and function: a review and perspectives , 2011, Biogeochemistry.
[102] Owen L. Petchey,et al. Seeing Double:: Size-Based and Taxonomic Views of Food Web Structure , 2011 .
[103] Masayuki Ushio,et al. Scale Dependence of Predator–Prey Mass Ratio: Determinants and Applications , 2011 .
[104] Nicolas Loeuille,et al. Emergence and maintenance of biodiversity in an evolutionary food-web model , 2011, Theoretical Ecology.
[105] Nathan J B Kraft,et al. Functional traits and the growth-mortality trade-off in tropical trees. , 2010, Ecology.
[106] N. H. Ravindranath,et al. The top 100 questions of importance to the future of global agriculture , 2010 .
[107] Erle C. Ellis,et al. Anthropogenic transformation of the biomes, 1700 to 2000 , 2010 .
[108] Y. Kuzyakov. Priming effects : interactions between living and dead organic matter , 2010 .
[109] C. Mulder,et al. How allometric scaling relates to soil abiotics , 2010 .
[110] Angela Hodge,et al. Substantial nitrogen acquisition by arbuscular mycorrhizal fungi from organic material has implications for N cycling , 2010, Proceedings of the National Academy of Sciences.
[111] J. Elser,et al. The evolution of biological stoichiometry under global change , 2010 .
[112] P. Fink,et al. To be or not to be what you eat: regulation of stoichiometric homeostasis among autotrophs and heterotrophs , 2010 .
[113] J. Kominoski,et al. Can ecological stoichiometry help explain patterns of biological invasions , 2010 .
[114] J. Stegen,et al. Integrating elements and energy through the metabolic dependencies of gross growth efficiency and the threshold elemental ratio , 2010 .
[115] C. Mulder. Soil fertility controls the size‐specific distribution of eukaryotes , 2010, Annals of the New York Academy of Sciences.
[116] A. Kerkhoff,et al. Biological stoichiometry of plant production: metabolism, scaling and ecological response to global change. , 2010, The New phytologist.
[117] P. Reich,et al. Ectomycorrhizal identity determines respiration and concentrations of nitrogen and non-structural carbohydrates in root tips: a test using Pinus sylvestris and Quercus robur saplings. , 2010, Tree physiology.
[118] Pete Smith,et al. Soil respiration across scales: towards an integration of patterns and processes. , 2010, The New phytologist.
[119] A. Townsend,et al. Stoichiometric control of organic carbon–nitrate relationships from soils to the sea , 2010, Nature.
[120] Pete Smith,et al. Carbon cycle: A warm response by soils , 2010, Nature.
[121] Ben Bond-Lamberty,et al. Temperature-associated increases in the global soil respiration record , 2010, Nature.
[122] Christopher Baraloto,et al. Functional trait variation and sampling strategies in species-rich plant communities , 2010 .
[123] A. P. Abaimov,et al. Mixed-power scaling of whole-plant respiration from seedlings to giant trees , 2010, Proceedings of the National Academy of Sciences.
[124] O. Atkin. F1000Prime Recommendation of [Mori S et al , 2010 .
[125] M. F. Cotrufo,et al. Soil Carbon Dynamics: Litter decomposition: concepts, methods and future perspectives , 2010 .
[126] D. Baldocchi,et al. Ecosystem CO2 fluxes of arbuscular and ectomycorrhizal dominated vegetation types are differentially influenced by precipitation and temperature. , 2010, The New phytologist.
[127] Michael Bahn,et al. Soil Carbon Dynamics - an Integrated Methodology , 2010 .
[128] P. Reich,et al. Evidence of a general 2/3-power law of scaling leaf nitrogen to phosphorus among major plant groups and biomes , 2010, Proceedings of the Royal Society B: Biological Sciences.
[129] Daniel C Reuman,et al. Food webs are more than the sum of their tritrophic parts , 2009, Proceedings of the National Academy of Sciences.
[130] Marta Halina,et al. Phylogenetic community structure in Minnesota oak savanna is influenced by spatial extent and environmental variation , 2009 .
[131] S. Hall,et al. Stoichiometrically Explicit Food Webs: Feedbacks between Resource Supply, Elemental Constraints, and Species Diversity , 2009 .
[132] J. Elser,et al. Soil acidity, ecological stoichiometry and allometric scaling in grassland food webs , 2009, Global Change Biology.
[133] L. Brussaard,et al. Biological measurements in a nationwide soil monitoring network , 2009 .
[134] Josep Peñuelas,et al. Global patterns of foliar nitrogen isotopes and their relationships with climate, mycorrhizal fungi, foliar nutrient concentrations, and nitrogen availability. , 2009, The New phytologist.
[135] Han Y. H. Chen,et al. Global trends in senesced-leaf nitrogen and phosphorus , 2009 .
[136] D. Wall,et al. Soil biota accelerate decomposition in high‐elevation forests by specializing in the breakdown of litter produced by the plant species above them , 2009 .
[137] Jordi Sardans,et al. Faster returns on ‘leaf economics’ and different biogeochemical niche in invasive compared with native plant species , 2009 .
[138] Jordi Sardans,et al. Ecology: Elementary factors , 2009, Nature.
[139] M. Moroni,et al. Characterisation of spatial variability and patterns in tree and soil δ13C at forested sites in eastern Canada , 2009, Isotopes in environmental and health studies.
[140] G. Rusch,et al. Plant traits link hypothesis about resource-use and response to herbivory , 2009 .
[141] P. Vitousek,et al. N:P stoichiometry and protein:RNA ratios in vascular plants: an evaluation of the growth-rate hypothesis. , 2009, Ecology letters.
[142] Michel Loreau,et al. Biodiversity, Ecosystem Functioning, and Human Wellbeing: An Ecological and Economic Perspective , 2009 .
[143] A. Rossberg,et al. Soil resource supply influences faunal size–specific distributions in natural food webs , 2009, Naturwissenschaften.
[144] L. Poorter,et al. Causes and consequences of variation in leaf mass per area (LMA): a meta-analysis. , 2009, The New phytologist.
[145] Geoffrey B. West,et al. A general quantitative theory of forest structure and dynamics , 2009, Proceedings of the National Academy of Sciences.
[146] James H Brown,et al. Extensions and evaluations of a general quantitative theory of forest structure and dynamics , 2009, Proceedings of the National Academy of Sciences.
[147] A. Kerkhoff,et al. Multiplicative by nature : Why logarithmic transformation is necessary in allometry , 2009 .
[148] E. Angulo,et al. Variation in discrimination factors (Δ15N and Δ13C): the effect of diet isotopic values and applications for diet reconstruction , 2009 .
[149] G. J. O. Akkerhuis,et al. Dissimilar response of plant and soil biota communities to long-term nutrient addition in grasslands , 2009, Biology and Fertility of Soils.
[150] W. Parton,et al. Home-field advantage accelerates leaf litter decomposition in forests , 2009 .
[151] P. Reich,et al. A global study of relationships between leaf traits, climate and soil measures of nutrient fertility , 2009 .
[152] Davey L. Jones,et al. Carbon flow in the rhizosphere: carbon trading at the soil–root interface , 2009, Plant and Soil.
[153] W. de Vries,et al. Predicting dissolved inorganic nitrogen leaching in European forests using two independent databases. , 2009, The Science of the total environment.
[154] Ian J. Wright,et al. Leaf phosphorus influences the photosynthesis–nitrogen relation: a cross-biome analysis of 314 species , 2009, Oecologia.
[155] D. Wardle,et al. Indirect effects of invasive predators on litter decomposition and nutrient resorption on seabird-dominated islands. , 2009, Ecology.
[156] P. Lootens,et al. Microbial community composition and rhizodeposit-carbon assimilation in differently managed temperate grassland soils , 2009 .
[157] A. Hildrew. Chapter 4 Sustained Research on Stream Communities: A Model System and The Comparative Approach , 2009 .
[158] G. Woodward,et al. Chapter 1 Allometry of Body Size and Abundance in 166 Food Webs , 2009 .
[159] Werner Ulrich,et al. A consumer's guide to nestedness analysis , 2009 .
[160] J. Bascompte,et al. Ecological networks : beyond food webs Ecological networks – beyond food webs , 2008 .
[161] Daniel E. Bunker,et al. TraitNet: furthering biodiversity research through the curation, discovery, and sharing of species trait data , 2009 .
[162] M. Loreau,et al. When microbes and consumers determine the limiting nutrient of autotrophs: a theoretical analysis , 2009, Proceedings of the Royal Society B: Biological Sciences.
[163] Steven L. Chown,et al. Mean mass-specific metabolic rates are strikingly similar across life's major domains: Evidence for life's metabolic optimum , 2008, Proceedings of the National Academy of Sciences.
[164] W. Parton,et al. Global decomposition experiment shows soil animal impacts on decomposition are climate-dependent , 2008, Global Change Biology.
[165] D. Raffaelli,et al. Three allometric relations of population density to body mass: theoretical integration and empirical tests in 149 food webs. , 2008, Ecology letters.
[166] C. Mulder,et al. Aboveground Herbivory Shapes the Biomass Distribution and Flux of Soil Invertebrates , 2008, PloS one.
[167] G. Ågren. Stoichiometry and Nutrition of Plant Growth in Natural Communities , 2008 .
[168] Y. Kuzyakov,et al. Mechanisms of real and apparent priming effects and their dependence on soil microbial biomass and community structure: critical review , 2008, Biology and Fertility of Soils.
[169] Erle C. Ellis,et al. Putting people in the map: anthropogenic biomes of the world , 2008 .
[170] M. Estiarte,et al. Warming and drought alter C and N concentration, allocation and accumulation in a Mediterranean shrubland , 2008 .
[171] E. Berlow,et al. Foraging theory predicts predator-prey energy fluxes. , 2008, The Journal of animal ecology.
[172] Peter B Reich,et al. Scaling of respiration to nitrogen in leaves, stems and roots of higher land plants. , 2008, Ecology letters.
[173] A. Austin,et al. Tree species identity alters forest litter decomposition through long‐term plant and soil interactions in Patagonia, Argentina , 2008 .
[174] U. Uehlinger,et al. Leaf decomposition and invertebrate colonization responses to manipulated litter quantity in streams , 2008, Journal of the North American Benthological Society.
[175] Ivan Baxter,et al. Ionomics and the study of the plant ionome. , 2008, Annual review of plant biology.
[176] K. Willis,et al. Species persistence in northerly glacial refugia of Europe: a matter of chance or biogeographical traits? , 2008 .
[177] William F. Fagan,et al. Detritivory: stoichiometry of a neglected trophic level , 2008, Ecological Research.
[178] David Tilman,et al. Loss of plant species after chronic low-level nitrogen deposition to prairie grasslands , 2008, Nature.
[179] H. Lambers,et al. Plant nutrient-acquisition strategies change with soil age. , 2008, Trends in ecology & evolution.
[180] Juan M Morales,et al. Invasive Mutualists Erode Native Pollination Webs , 2008, PLoS biology.
[181] J. Vandermeer,et al. Clusters of ant colonies and robust criticality in a tropical agroecosystem , 2008, Nature.
[182] C. Mulder,et al. Scaling of offspring number and mass to plant and animal size: model and meta-analysis , 2008, Oecologia.
[183] Jordi Bascompte,et al. Plant-Animal Mutualistic Networks: The Architecture of Biodiversity , 2007 .
[184] Helmut Hillebrand,et al. Global analysis of nitrogen and phosphorus limitation of primary producers in freshwater, marine and terrestrial ecosystems. , 2007, Ecology letters.
[185] Sébastien Barot,et al. Stability of organic carbon in deep soil layers controlled by fresh carbon supply , 2007, Nature.
[186] C. Körner,et al. The underestimated importance of belowground carbon input for forest soil animal food webs. , 2007, Ecology letters.
[187] C. Cleveland,et al. C:N:P stoichiometry in soil: is there a “Redfield ratio” for the microbial biomass? , 2007 .
[188] A. Agnelli,et al. Purification and isotopic signatures (δ13C, δ15N, Δ14C) of soil extracellular DNA , 2007, Biology and Fertility of Soils.
[189] J. Moya‐Laraño,et al. Direct and indirect effects of ants on a forest-floor food web. , 2007, Ecology.
[190] S. Ernest,et al. Relationships between body size and abundance in ecology. , 2007, Trends in ecology & evolution.
[191] S. Levin,et al. A model of flexible uptake of two essential resources. , 2007, Journal of theoretical biology.
[192] T. Hance,et al. Apparent competition or apparent mutualism? An analysis of the influence of rose bush strip management on aphid population in wheat field , 2007 .
[193] J. Peñuelas,et al. Drought changes phosphorus and potassium accumulation patterns in an evergreen Mediterranean forest , 2007 .
[194] M. Aizen,et al. Pollination and other ecosystem services produced by mobile organisms: a conceptual framework for the effects of land-use change. , 2007, Ecology letters.
[195] A. Ekblad,et al. Isotope fractionation and 13C enrichment in soil profiles during the decomposition of soil organic matter , 2007, Oecologia.
[196] N. Ostle,et al. Isotopic detection of recent photosynthate carbon flow into grassland rhizosphere fauna , 2007 .
[197] Evan P. Economo,et al. Adaptive differences in plant physiology and ecosystem paradoxes: insights from metabolic scaling theory , 2007 .
[198] S. Trumbore,et al. Spatial separation of litter decomposition and mycorrhizal nitrogen uptake in a boreal forest. , 2007, The New phytologist.
[199] D. Raffaelli,et al. Food Webs, Body Size and the Curse of the Latin Binomial , 2007 .
[200] James Elser,et al. Biological Stoichiometry: A Chemical Bridge between Ecosystem Ecology and Evolutionary Biology , 2006, The American Naturalist.
[201] Bradley J. Cardinale,et al. Effects of biodiversity on the functioning of trophic groups and ecosystems , 2006, Nature.
[202] D. Wise,et al. Predicted climate change alters the indirect effect of predators on an ecosystem process , 2006, Proceedings of the National Academy of Sciences.
[203] S. Lavorel,et al. Vulnerability of land systems to fire: Interactions among humans, climate, the atmosphere, and ecosystems , 2006 .
[204] Werner Ulrich,et al. Consumer-resource body-size relationships in natural food webs. , 2006, Ecology.
[205] William F. Fagan,et al. Phylogenetic and Growth Form Variation in the Scaling of Nitrogen and Phosphorus in the Seed Plants , 2006, The American Naturalist.
[206] Paul Kardol,et al. Temporal variation in plant-soil feedback controls succession. , 2006, Ecology letters.
[207] T. Meehan. Mass and Temperature Dependence of Metabolic Rate in Litter and Soil Invertebrates , 2006, Physiological and Biochemical Zoology.
[208] S. Díaz,et al. Biodiversity Loss Threatens Human Well-Being , 2006, PLoS biology.
[209] C. Mulder. Driving forces from soil invertebrates to ecosystem functioning: the allometric perspective , 2006, Naturwissenschaften.
[210] G. J. Monteny,et al. Gaseous emissions from a deep litter farming system for dairy cattle , 2006 .
[211] T. Meehan. Energy use and animal abundance in litter and soil communities. , 2006, Ecology.
[212] David W. Macdonald,et al. The identification of 100 ecological questions of high policy relevance in the UK , 2006 .
[213] Miguel A. Rodríguez-Gironés,et al. A new algorithm to calculate the nestedness temperature of presence–absence matrices , 2006 .
[214] H. Rennenberg,et al. The effect of drought on C and N stable isotopes in different fractions of leaves, stems and roots of sensitive and tolerant beech ecotypes. , 2006, Plant, cell & environment.
[215] M. Westoby,et al. Bivariate line‐fitting methods for allometry , 2006, Biological reviews of the Cambridge Philosophical Society.
[216] Stuart A. Campbell,et al. Invasive Plant Suppresses the Growth of Native Tree Seedlings by Disrupting Belowground Mutualisms , 2006, PLoS biology.
[217] J. Losey,et al. The Economic Value of Ecological Services Provided by Insects , 2006 .
[218] B. Enquist,et al. Rebuilding community ecology from functional traits. , 2006, Trends in ecology & evolution.
[219] S. Allison. Brown Ground: A Soil Carbon Analogue for the Green World Hypothesis? , 2006, The American Naturalist.
[220] Phil J. Hobbs,et al. Parasitic plants indirectly regulate below-ground properties in grassland ecosystems , 2006, Nature.
[221] K. Niklas. Plant allometry, leaf nitrogen and phosphorus stoichiometry, and interspecific trends in annual growth rates. , 2006, Annals of botany.
[222] Mark G. Tjoelker,et al. Universal scaling of respiratory metabolism, size and nitrogen in plants , 2006, Nature.
[223] Neil Rooney,et al. From energetics to ecosystems : the dynamics and structure of ecological systems , 2006 .
[224] S. Scheu,et al. Incorporation of plant carbon into the soil animal food web of an arable system. , 2006, Ecology.
[225] P. Reich,et al. Irradiance, temperature and rainfall influence leaf dark respiration in woody plants: evidence from comparisons across 20 sites. , 2006, The New phytologist.
[226] U. Mueller,et al. The Evolution of Agriculture in Insects , 2005 .
[227] Dali Guo,et al. Leaf nitrogen and phosphorus stoichiometry across 753 terrestrial plant species in China. , 2005, The New phytologist.
[228] T. White. Why Does the World Stay Green?: Nutrition and Survival of Plant-eaters , 2005 .
[229] C. Mulder,et al. Numerical abundance and biodiversity of below‐ground taxocenes along a pH gradient across the Netherlands , 2005 .
[230] M. Crawley,et al. Are grazing increaser species better tolerators than decreasers? An experimental assessment of defoliation tolerance in eight British grassland species , 2005 .
[231] A. Kerkhoff,et al. Plant allometry, stoichiometry and the temperature-dependence of primary productivity , 2005 .
[232] K. Winemiller,et al. BODY SIZE AND TROPHIC POSITION IN A DIVERSE TROPICAL FOOD WEB , 2005 .
[233] P. Reich,et al. Linking litter calcium, earthworms and soil properties: a common garden test with 14 tree species , 2005 .
[234] M. Begon,et al. Ecology: From Individuals to Ecosystems , 2005 .
[235] Guy Woodward,et al. Body size in ecological networks. , 2005, Trends in ecology & evolution.
[236] Peter J. Lammers,et al. Nitrogen transfer in the arbuscular mycorrhizal symbiosis , 2005, Nature.
[237] T. Aldenberg,et al. Evaluating the impact of pollution on plant–Lepidoptera relationships , 2005 .
[238] Karl J. Niklas,et al. Nitrogen/phosphorus leaf stoichiometry and the scaling of plant growth , 2005 .
[239] R. B. Jackson,et al. Mapping the global distribution of deep roots in relation to climate and soil characteristics , 2005 .
[240] P. Reich,et al. Assessing the generality of global leaf trait relationships. , 2005, The New phytologist.
[241] Nicolas Loeuille,et al. Evolutionary emergence of size-structured food webs. , 2005, Proceedings of the National Academy of Sciences of the United States of America.
[242] A. Fitter. Darkness visible: reflections on underground ecology , 2005 .
[243] J. Schade,et al. A conceptual framework for ecosystem stoichiometry: balancing resource supply and demand , 2005 .
[244] Cathy Hawes,et al. Effects on weed and invertebrate abundance and diversity of herbicide management in genetically modified herbicide-tolerant winter-sown oilseed rape , 2005, Proceedings of the Royal Society B: Biological Sciences.
[245] G. Posse,et al. Plant functional traits, herbivore selectivity and response to sheep grazing in Patagonian steppe grasslands , 2005 .
[246] S. Hättenschwiler,et al. Soil animals alter plant litter diversity effects on decomposition. , 2005, Proceedings of the National Academy of Sciences of the United States of America.
[247] F. Chapin,et al. EFFECTS OF BIODIVERSITY ON ECOSYSTEM FUNCTIONING: A CONSENSUS OF CURRENT KNOWLEDGE , 2005 .
[248] H. Godfray,et al. Body sizes of hosts and parasitoids in individual feeding relationships. , 2005, Proceedings of the National Academy of Sciences of the United States of America.
[249] D. Read,et al. Mycorrhizas in ecosystems , 1991, Experientia.
[250] Y. Tezuka. Bacterial regeneration of ammonium and phosphate as affected by the carbon:nitrogen:phosphorus ratio of organic substrates , 1990, Microbial Ecology.
[251] Peter C de Ruiter and Volkmar Wolters. DYNAMIC FOOD WEBS: MULTISPECIES ASSEMBLAGES, ECOSYSTEM DEVELOPMENT, AND ENVIRONMENTAL CHANGE , 2005 .
[252] Joel E. Cohen,et al. SPECIES' AVERAGE BODY MASS AND NUMERICAL ABUNDANCE IN A COMMUNITY FOOD WEB: STATISTICAL QUESTIONS IN ESTIMATING THE RELATIONSHIP , 2005 .
[253] Joseph M. Craine,et al. ENVIRONMENTAL CONSTRAINTS ON A GLOBAL RELATIONSHIP AMONG LEAF AND ROOT TRAITS OF GRASSES , 2005 .
[254] S. Carpenter,et al. Food Webs, Body Size, and Species Abundance in Ecological Community Description , 2005 .
[255] G. Certini. Effects of fire on properties of forest soils: a review , 2005, Oecologia.
[256] Joel E. Cohen,et al. Bacterial traits, organism mass, and numerical abundance in the detrital soil food web of Dutch agricultural grasslands , 2004 .
[257] T. Ricketts,et al. Confronting a biome crisis: global disparities of habitat loss and protection , 2004 .
[258] Terry V. Callaghan,et al. Leaf digestibility and litter decomposability are related in a wide range of subarctic plant species and types , 2004 .
[259] N. Kaneko,et al. Analysis of the feeding ecology of earthworms (Megascolecidae) in Japanese forests using gut content fractionation and δ15N and δ13C stable isotope natural abundances , 2004 .
[260] T. Daufresne,et al. SCALING OF C:N:P STOICHIOMETRY IN FORESTS WORLDWIDE: IMPLICATIONS OF TERRESTRIAL REDFIELD‐TYPE RATIOS , 2004 .
[261] C. Gratton,et al. DOES INTRAGUILD PREDATION ENHANCE PREDATOR PERFORMANCE? A STOICHIOMETRIC PERSPECTIVE , 2004 .
[262] D. Reuman,et al. Trophic links’ length and slope in the Tuesday Lake food web with species’ body mass and numerical abundance , 2004 .
[263] R. Denno,et al. Stoichiometry of actual vs. potential predator–prey interactions: insights into nitrogen limitation for arthropod predators , 2004 .
[264] Geoffrey B. West,et al. Life's Universal Scaling Laws , 2004 .
[265] Ramiro Aguilar,et al. Why do pollination generalist and specialist plant species show similar reproductive susceptibility to habitat fragmentation? , 2004 .
[266] L. Hedin. Global organization of terrestrial plant-nutrient interactions. , 2004, Proceedings of the National Academy of Sciences of the United States of America.
[267] P. Reich,et al. Global patterns of plant leaf N and P in relation to temperature and latitude. , 2004, Proceedings of the National Academy of Sciences of the United States of America.
[268] James H. Brown,et al. Toward a metabolic theory of ecology , 2004 .
[269] D. Wardle,et al. Ecological Linkages Between Aboveground and Belowground Biota , 2004, Science.
[270] R. Boyd. Ecology of metal hyperaccumulation. , 2004, The New phytologist.
[271] M. Bonkowski. Protozoa and plant growth: the microbial loop in soil revisited. , 2004, The New phytologist.
[272] S. D. Lindblom,et al. Selenium protects plants from phloem-feeding aphids due to both deterrence and toxicity. , 2004, The New phytologist.
[273] J. P. Grime,et al. The plant traits that drive ecosystems: Evidence from three continents , 2004 .
[274] S. Levin,et al. Optimal nitrogen-to-phosphorus stoichiometry of phytoplankton , 2004, Nature.
[275] Sean C. Thomas,et al. The worldwide leaf economics spectrum , 2004, Nature.
[276] Luc Abbadie,et al. Carbon input to soil may decrease soil carbon content , 2004 .
[277] D. Robinson. Scaling the depths: below‐ground allocation in plants, forests and biomes , 2004 .
[278] G. Ågren. The C:N:P stoichiometry of autotrophs: Theory and observations , 2004 .
[279] J. Elser,et al. Allometric and phylogenetic variation in insect phosphorus content , 2004 .
[280] J. Cotner,et al. Elemental stoichiometry of a heterotrophic bacterial community in a freshwater lake: implications for growth- and resource-dependent variations , 2004 .
[281] J. Peñuelas,et al. Nitrogen and Carbon Concentrations, and Stable Isotope Ratios in Mediterranean Shrubs Growing in the Proximity of a CO2 spring , 2003, Biologia Plantarum.
[282] R. Dahlgren,et al. Tannins in nutrient dynamics of forest ecosystems - a review , 2003, Plant and Soil.
[283] M. Allen,et al. Patterns and regulation of mycorrhizal plant and fungal diversity , 1995, Plant and Soil.
[284] H. W. Hunt,et al. Calculation of nitrogen mineralization in soil food webs , 1993, Plant and Soil.
[285] Wirt Atmar,et al. The measure of order and disorder in the distribution of species in fragmented habitat , 1993, Oecologia.
[286] J. C. Moore,et al. The detrital food web in a shortgrass prairie , 1987, Biology and Fertility of Soils.
[287] Sandra Díaz,et al. Chemistry and toughness predict leaf litter decomposition rates over a wide spectrum of functional types and taxa in central Argentina , 2004, Plant and Soil.
[288] P. Brookes,et al. Measuring soil microbial biomass , 2004 .
[289] H. Genderen,et al. Chemisch-ecologische Flora van Nederland en België , 2004 .
[290] J. Weiner. Allocation, plasticity and allometry in plants , 2004 .
[291] A. Meskauskas,et al. Branching in Fungal Hyphae and Fungal Tissues: Growing Mycelia in a Desktop Computer , 2004 .
[292] A. Michelsen,et al. Leaf 15N abundance of subarctic plants provides field evidence that ericoid, ectomycorrhizal and non-and arbuscular mycorrhizal species access different sources of soil nitrogen , 2004, Oecologia.
[293] Terry V. Callaghan,et al. DECOMPOSITION OF SUB‐ARCTIC PLANTS WITH DIFFERING NITROGEN ECONOMIES: A FUNCTIONAL ROLE FOR HEMIPARASITES , 2003 .
[294] F. Chapin,et al. 8.06 – Biogeochemistry of Terrestrial Net Primary Production , 2003 .
[295] S. Jennings,et al. Abundance-body mass relationships in size-structured food webs , 2003 .
[296] R. Denno,et al. MIGHT NITROGEN LIMITATION PROMOTE OMNIVORY AMONG CARNIVOROUS ARTHROPODS , 2003 .
[297] J. Elser,et al. Growth rate–stoichiometry couplings in diverse biota , 2003 .
[298] Sander,et al. TROPHIC LEVELS ARE DIFFERENTIALLY SENSITIVE TO CLIMATE , 2003 .
[299] A. Norton,et al. Selenium accumulation protects Brassica juncea from invertebrate herbivory and fungal infection. , 2003, The New phytologist.
[300] A. Rosemond,et al. Consumer‐resource stoichiometry in detritus‐based streams , 2003 .
[301] C. Kendall,et al. Variation in trophic shift for stable isotope ratios of carbon, nitrogen, and sulfur , 2003 .
[302] S. Jennings,et al. Smaller predator-prey body size ratios in longer food chains , 2003, Proceedings of the Royal Society of London. Series B: Biological Sciences.
[303] M. Vanderklift,et al. Sources of variation in consumer-diet δ15N enrichment: a meta-analysis , 2003, Oecologia.
[304] A. Mariotti,et al. The priming effect of organic matter: a question of microbial competition? , 2003 .
[305] S. Naeem,et al. Disentangling biodiversity effects on ecosystem functioning: deriving solutions to a seemingly insurmountable problem , 2003 .
[306] James H. Brown,et al. Ecological food webs: High-quality data facilitate theoretical unification , 2003, Proceedings of the National Academy of Sciences of the United States of America.
[307] Robert W. Sterner,et al. Are bacteria more like plants or animals? Growth rate and resource dependence of bacterial C : N : P stoichiometry , 2003 .
[308] J. Elser,et al. Stoichiometric tracking of soil nutrients by a desert insect herbivore , 2003 .
[309] M. Westoby,et al. Nutrient concentration, resorption and lifespan: leaf traits of Australian sclerophyll species , 2003 .
[310] Stephen R. Carpenter,et al. Ecological community description using the food web, species abundance, and body size , 2003, Proceedings of the National Academy of Sciences of the United States of America.
[311] R. Bol,et al. Natural abundance of 13C and 15N in earthworms from different cropping treatments , 2003 .
[312] W. Vries,et al. Critical levels and critical loads as a tool for air quality management , 2003 .
[313] C. N. Hewitt,et al. Handbook of atmospheric science: principles and applications. , 2003 .
[314] R. Bol,et al. Natural abundance of 13C and 15N in earthworms from different cropping treatmentsThe 7th international symposium on earthworm ecology · Cardiff · Wales · 2002 , 2003 .
[315] Marcel Dicke,et al. Inducible indirect defence of plants: from mechanisms to ecological functions , 2003 .
[316] S. Güsewell,et al. Composition of plant species mixtures grown at various N:P ratios and levels of nutrient supply , 2003 .
[317] S. Scheu,et al. Carbon availability controls the growth of detritivores (Lumbricidae) and their effect on nitrogen mineralization , 2003, Oecologia.
[318] Andrea F. Huberty,et al. Nitrogen in Insects: Implications for Trophic Complexity and Species Diversification , 2002, The American Naturalist.
[319] J. Elser,et al. Ecological Stoichiometry: The Biology of Elements from Molecules to the Biosphere , 2002 .
[320] B. Enquist. Universal scaling in tree and vascular plant allometry: toward a general quantitative theory linking plant form and function from cells to ecosystems. , 2002, Tree physiology.
[321] S. Lavorel,et al. Predicting changes in community composition and ecosystem functioning from plant traits: revisiting the Holy Grail , 2002 .
[322] Simon Jennings,et al. Use of size-based production and stable isotope analyses to predict trophic transfer efficiencies and predator-prey body mass ratios in food webs , 2002 .
[323] N. Grimm,et al. Towards an ecological understanding of biological nitrogen fixation , 2002 .
[324] P. Högberg,et al. Extramatrical ectomycorrhizal mycelium contributes one-third of microbial biomass and produces, together with associated roots, half the dissolved organic carbon in a forest soil. , 2002, The New phytologist.
[325] David A. Wardle,et al. Communities and Ecosystems: Linking the Aboveground and Belowground Components , 2002 .
[326] R. Gifford,et al. Soil carbon stocks and land use change: a meta analysis , 2002 .
[327] H. W. Hunt,et al. Modelling the effects of loss of soil biodiversity on ecosystem function , 2002 .
[328] S. Scheu,et al. Multitrophic interactions in decomposer food-webs , 2002 .
[329] B. A. Hawkins,et al. Multitrophic Level Interactions: Multitrophic level interactions: an introduction , 2002 .
[330] G. J. Doornewaard,et al. Agricultural practice and water quality on farms registered for derogation : Results for 2008 in the derogation monitoring network , 2009 .
[331] K. Sahu,et al. A Re-examination of the , 2001 .
[332] M. Loreau,et al. ECOLOGICAL STOICHIOMETRY, PRIMARY PRODUCER-DECOMPOSER INTERACTIONS, AND ECOSYSTEM PERSISTENCE , 2001 .
[333] S. R. Kerr,et al. The Biomass Spectrum: A Predator-Prey Theory of Aquatic Production , 2001 .
[334] P. Reich,et al. Strategy shifts in leaf physiology, structure and nutrient content between species of high‐ and low‐rainfall and high‐ and low‐nutrient habitats , 2001 .
[335] D. Roy,et al. Butterfly numbers and weather: predicting historical trends in abundance and the future effects of climate change , 2001 .
[336] J. Damuth,et al. Scaling of growth: Plants and animals are not so different , 2001, Proceedings of the National Academy of Sciences of the United States of America.
[337] Jason G. Hamilton,et al. The carbon–nutrient balance hypothesis: its rise and fall , 2001 .
[338] J. Weitz,et al. Re-examination of the "3/4-law" of metabolism. , 2000, Journal of theoretical biology.
[339] William F. Fagan,et al. Nutritional constraints in terrestrial and freshwater food webs , 2000, Nature.
[340] William F. Fagan,et al. Biological stoichiometry from genes to ecosystems. , 2000 .
[341] M. V. D. van der Heijden,et al. Arbuscular mycorrhizal fungi influence life history traits of a lepidopteran herbivore , 2000, Oecologia.
[342] C. Mulder,et al. Ecohydrological perspective of phytogenic organic and inorganic components in Greek lignites: a quantitative reinterpretation , 2000 .
[343] P. Vitousek,et al. The role of polyphenols in terrestrial ecosystem nutrient cycling. , 2000, Trends in ecology & evolution.
[344] F. Chapin,et al. Consequences of changing biodiversity , 2000, Nature.
[345] S. Jacobs,et al. Grasses: Systematics and Evolution , 2000 .
[346] R. B. Jackson,et al. THE VERTICAL DISTRIBUTION OF SOIL ORGANIC CARBON AND ITS RELATION TO CLIMATE AND VEGETATION , 2000 .
[347] R. Arditi,et al. What can stable isotopes (δ15N and δ13C) tell about the food web of soil macro-invertebrates? , 2000 .
[348] Shahid Naeem,et al. Producer–decomposer co-dependency influences biodiversity effects , 2000, Nature.
[349] Peter E. Thornton,et al. Parameterization and Sensitivity Analysis of the BIOME–BGC Terrestrial Ecosystem Model: Net Primary Production Controls , 2000 .
[350] C. Mulder,et al. Ecological significance of South-West African grass leaf phytoliths: a climatic response of vegetation biomes to modern aridification trends. , 2000 .
[351] S. Scheu,et al. The soil food web of two beech forests (Fagus sylvatica) of contrasting humus type: stable isotope analysis of a macro- and a mesofauna-dominated community , 2000, Oecologia.
[352] J. Meyer,et al. EFFECTS OF RESOURCE LIMITATION ON A DETRITAL‐BASED ECOSYSTEM , 1999 .
[353] J. Cebrian. Patterns in the Fate of Production in Plant Communities , 1999, The American Naturalist.
[354] C. Labandeira,et al. Response of plant-insect associations to paleocene-eocene warming , 1999, Science.
[355] C. Parmesan,et al. Poleward shifts in geographical ranges of butterfly species associated with regional warming , 1999, Nature.
[356] James H. Brown,et al. The fourth dimension of life: fractal geometry and allometric scaling of organisms. , 1999, Science.
[357] A. J. Pollard,et al. Selective herbivory on low-zinc phenotypes of the hyperaccumulator Thlaspi caerulescens (Brassicaceae) , 1999, CHEMOECOLOGY.
[358] Roderick Hunt,et al. Allocating C-S-R plant functional types : a soft approach to a hard problem , 1999 .
[359] James H. Brown,et al. Plant energetics and population density , 1999, Nature.
[360] J. Klironomos,et al. Colonization of nonmycorrhizal plants by mycorrhizal neighbours as influenced by the collembolan, Folsomia candida , 1999, Biology and Fertility of Soils.
[361] F. S. Chapin,et al. The Mineral Nutrition of Wild Plants Revisited: A Re-evaluation of Processes and Patterns , 1999 .
[362] J. P. Grime,et al. Benefits of plant diversity to ecosystems: immediate, filter and founder effects , 1998 .
[363] David W. Inouye,et al. ENDANGERED MUTUALISMS: The Conservation of Plant-Pollinator Interactions , 1998 .
[364] D. Wardle,et al. Trophic relationships in the soil microfood-web: predicting the responses to a changing global environment , 1998 .
[365] R. Cannon. The implications of predicted climate change for insect pests in the UK, with emphasis on non‐indigenous species , 1998 .
[366] James H. Brown,et al. Allometric scaling of plant energetics and population density , 1998, Nature.
[367] A. Fitter,et al. Ploughing up the wood-wide web? , 1998, Nature.
[368] P. Reich,et al. Photosynthesis and respiration rates depend on leaf and root morphology and nitrogen concentration in nine boreal tree species differing in relative growth rate , 1998 .
[369] Mark G. Tjoelker,et al. Close association of RGR, leaf and root morphology, seed mass and shade tolerance in seedlings of nine boreal tree species grown in high and low light , 1998 .
[370] J. Grace,et al. Plant resource allocation , 1998 .
[371] Hendrik Poorter,et al. Inherent variation in plant growth : physiological mechanisms and ecological consequences , 1998 .
[372] H. Setälä,et al. NO EVIDENCE OF TROPHIC CASCADES IN AN EXPERIMENTAL MICROBIAL‐BASED SOIL FOOD WEB , 1998 .
[373] M. Estiarte,et al. Can elevated CO(2) affect secondary metabolism and ecosystem function? , 1998, Trends in ecology & evolution.
[374] P. Reich,et al. From tropics to tundra: global convergence in plant functioning. , 1997, Proceedings of the National Academy of Sciences of the United States of America.
[375] Robert W. Sterner,et al. Modelling interactions of food quality and quantity in homeostatic consumers , 1997 .
[376] V. Brown,et al. Multitrophic Interactions in Terrestrial Systems , 1997 .
[377] J. Ehleringer,et al. C4 photosynthesis, atmospheric CO2, and climate , 1997, Oecologia.
[378] R. Aerts. Climate, leaf litter chemistry and leaf litter decomposition in terrestrial ecosystems : a triangular relationship , 1997 .
[379] R. Venette,et al. Population energetics of bacterial-feeding nematodes: Carbon and nitrogen budgets , 1997 .
[380] S. Díaz,et al. Plant functional types and ecosystem function in relation to global change , 1997 .
[381] G. Likens,et al. Technical Report: Human Alteration of the Global Nitrogen Cycle: Sources and Consequences , 1997 .
[382] R. O'Neill,et al. The value of the world's ecosystem services and natural capital , 1997, Nature.
[383] James H. Brown,et al. A General Model for the Origin of Allometric Scaling Laws in Biology , 1997, Science.
[384] K. Gaston,et al. A critical assessment of the form of the interspecific relationship between abundance and body size in animals , 1997 .
[385] Ken Thompson,et al. Evidence of a causal connection between anti-herbivore defence and the decomposition rate of leaves , 1996 .
[386] David S. Schimel,et al. Climate and nitrogen controls on the geography and timescales of terrestrial biogeochemical cycling , 1996 .
[387] James J. Elser,et al. Organism size, life history, and N:P stoichiometry , 1996 .
[388] K. Killingbeck. Nutrients in Senesced Leaves: Keys to the Search for Potential Resorption and Resorption Proficiency , 1996 .
[389] Mark V. Lomolino,et al. Investigating causality of nestedness of insular communities: selective immigrations or extinctions? , 1996 .
[390] M. Taper,et al. How do Species Really Divide Resources? , 1996, The American Naturalist.
[391] David Tilman,et al. Insect species diversity, abundance and body size relationships , 1996, Nature.
[392] K. Gaston,et al. Abundance-body size relationships: The area you census tells you more , 1996 .
[393] R. Aerts. Nutrient resorption from senescing leaves of perennials: are there general patterns? , 1996 .
[394] J. Lawton,et al. Empirical Evidence that Declining Species Diversity May Alter the Performance of Terrestrial Ecosystems , 1995 .
[395] W. McDowell,et al. The importance of nutrient pulses in tropical forests. , 1994, Trends in ecology & evolution.
[396] O. T. Solbrig. Plant Traits and Adaptive Strategies: Their Role in Ecosystem Function , 1994 .
[397] A. Albrecht,et al. The importance and management of soil organic matter in the tropics , 1994 .
[398] P. Woomer,et al. The biological management of tropical soil fertility. , 1994 .
[399] N. Johnson. Can Fertilization of Soil Select Less Mutualistic Mycorrhizae? , 1993, Ecological applications : a publication of the Ecological Society of America.
[400] T. Bongers,et al. Feeding habits in soil nematode families and genera-an outline for soil ecologists. , 1993, Journal of nematology.
[401] P. Yodzis,et al. Body Size and Consumer-Resource Dynamics , 1992, The American Naturalist.
[402] Donald R. Strong,et al. ARE TROPHIC CASCADES ALL WET? DIFFERENTIATION AND DONOR-CONTROL IN SPECIOSE ECOSYSTEMS' , 1992 .
[403] Hendrik Poorter,et al. Inherent Variation in Growth Rate Between Higher Plants: A Search for Physiological Causes and Ecological Consequences , 1992 .
[404] P. Gundersen. Nitrogen deposition and the forest nitrogen cycle: role of denitrification , 1991 .
[405] R. Firn,et al. On the evolution of plant secondary chemical diversity , 1991 .
[406] W. Parton,et al. Terrestrial biogeochemical cycles: global interactions with the atmosphere and hydrology , 1991 .
[407] J. C. Dodd,et al. The use of mycorrhizal inoculants in forestry and agriculture , 1991 .
[408] H. Lambers,et al. Carbon and nitrogen economy of 24 wild species differing in relative growth rate. , 1990, Plant physiology.
[409] Gaëtan du Chatenet. Guide des coléoptères d'Europe , 1990 .
[410] R. Ellis. Tannin-like substances in grass leaves. , 1990 .
[411] M. Allen,et al. The mediation of competition by mycorrhizae in successional and patchy environments. , 1990 .
[412] D. L. Dindal. Soil biology guide , 1990 .
[413] S. McNaughton,et al. Ecosystem-level patterns of primary productivity and herbivory in terrestrial habitats , 1989, Nature.
[414] H. Margolis,et al. Ectomycorrhizal mediation of competition between coniferous tree species. , 1989, The New phytologist.
[415] E. Schulze,et al. Air Pollution and Forest Decline in a Spruce (Picea abies) Forest , 1989, Science.
[416] Alan J. M. Baker,et al. TERRESTRIAL HIGHER PLANTS WHICH HYPERACCUMULATE METALLIC ELEMENTS. A REVIEW OF THEIR DISTRIBUTION, ECOLOGY AND PHYTOCHEMISTRY , 1989 .
[417] R. Cox. The sensitivity of pollen from various coniferous and broad-leaved trees to combinations of acidity and trace metals , 1988 .
[418] W. Parton,et al. Dynamics of C, N, P and S in grassland soils: a model , 1988 .
[419] R. Harrington,et al. Nutritional ecology of insects, mites, spiders, and related invertebrates , 1988 .
[420] S. Carpenter,et al. Zooplankton‐mediated transitions between N‐ and P‐limited algal growth1 , 1988 .
[421] Jean-François Ponge,et al. Morphometric variability in Clarkus papillatus (Bastian, 1865) Jairajpuri, 1970 in relation to humus type and season , 1988 .
[422] A. Fitter,et al. Ecological Interactions in Soil. , 1986 .
[423] Christopher B. Field,et al. photosynthesis--nitrogen relationship in wild plants , 1986 .
[424] D. Read,et al. Mycorrhizal mycelia and nutrient cycling in plant communities , 1985 .
[425] D. Coleman. Through a ped darkly: an ecological assessment of root-soil-microbial-faunal interactions , 1985 .
[426] David Read,et al. Ecological interactions in soil : plants, microbes and animals , 1985 .
[427] P. Brookes,et al. Chloroform fumigation and the release of soil nitrogen: A rapid direct extraction method to measure microbial biomass nitrogen in soil , 1985 .
[428] P. Brookes,et al. Phosphorus in the soil microbial biomass , 1984 .
[429] Elgene O. Box,et al. Tasks for Vegetation Science I: Macroclimate and Plant Forms: An Introduction to Predictive Modeling in Phytogeography , 2011 .
[430] R. Peters. The Ecological Implications of Body Size , 1983 .
[431] G. Edwards,et al. C3, C4: Mechanisms and Cellular and Environmental Regulation of Photosynthesis , 1983 .
[432] P. J. Wood,et al. World Forest Biomass and Primary Production Data. , 1983 .
[433] H. Petersen,et al. A comparative analysis of soil fauna populations and their role in decomposition processes , 1982 .
[434] L. Butler. Relative degree of polymerization of sorghum tannin during seed development and maturation , 1982 .
[435] Peter M. Vitousek,et al. Nutrient Cycling and Nutrient Use Efficiency , 1982, The American Naturalist.
[436] A. Heusner. Energy metabolism and body size. I. Is the 0.75 mass exponent of Kleiber's equation a statistical artifact? , 1982, Respiration physiology.
[437] E. Schulze. Plant Life Forms and Their Carbon, Water and Nutrient Relations , 1982 .
[438] David S. Powlson,et al. Measurement of microbial biomass phosphorus in soil , 1982 .
[439] W. Whitford,et al. THE ROLE OF MITES AND NEMATODES IN EARLY STAGES OF BURIED LITTER DECOMPOSITION IN A DESERT , 1981 .
[440] F. S. Chapin,et al. The Mineral Nutrition of Wild Plants , 1980 .
[441] J. P. Grime,et al. Plant Strategies and Vegetation Processes. , 1980 .
[442] JOEL E. COHEN,et al. Ratio of prey to predators in community food webs , 1977, Nature.
[443] R. W. Sheldon,et al. Structure of Pelagic Food Chain and Relationship Between Plankton and Fish Production , 1977 .
[444] W. Schlesinger. Carbon Balance in Terrestrial Detritus , 1977 .
[445] Professor Dr. Hans-Ulrich Thiele. Carabid Beetles in Their Environments , 1977, Zoophysiology and Ecology.
[446] G. D. Amman,et al. The Role of Arthropods in Forest Ecosystems , 1977, Proceedings in Life Sciences.
[447] T. Jaffré,et al. Sebertia acuminata: A Hyperaccumulator of Nickel from New Caledonia , 1976, Science.
[448] J. Syers,et al. The fate of phosphorus during pedogenesis , 1976 .
[449] L. Saker,et al. Nutrient Supply and the Growth of the Seminal Root System in Barley II. LOCALIZED, COMPENSATORY INCREASES IN LATERAL ROOT GROWTH AND RATES OP NITRATE UPTAKE WHEN NITRATE SUPPLY IS RESTRICTED TO ONLY PART OF THE ROOT SYSTEM , 1975 .
[450] A. Quispel. The biology of nitrogen fixation , 1974 .
[451] P. J. Phipps,et al. Chapter III Chemical Analysis of Microbial Cells , 1971 .
[452] E. Cowling,et al. Role of nitrogen in wood deterioration. VII. Physiological adaptation of wood-destroying and other fungi to substrates deficient in nitrogen , 1969 .
[453] P. Raven,et al. BUTTERFLIES AND PLANTS: A STUDY IN COEVOLUTION , 1964 .
[454] A. C. Redfield. The biological control of chemical factors in the environment. , 1960, Science progress.
[455] J. Braun-Blanquet,et al. Pflanzensoziologie: Grundzuge der Vegetationskunde. , 1967 .
[456] C. O. Mohr,et al. Comparative Populations of Game, Fur and Other Mammals , 1940 .
[457] C. Raunkiær,et al. The life forms of plants and statistical plant geography , 1934 .
[458] H. C. Hanson. LEAF‐STRUCTURE AS RELATED TO ENVIRONMENT , 1917 .
[459] E. W. Sinnott,et al. THE CLIMATIC DISTRIBUTION OF CERTAIN TYPES OF ANGIOSPERM LEAVES , 1916 .
[460] E. Warming. Oecology of plants , 1909 .
[461] Frederic E. Clements. Pflanzengeographie auf Physiologischer Grundlage , 1899 .