Author: Jürgen Homeier

0000000000505392

AUTHOR

Jürgen Homeier

showing 7 related works from this author

Plant Growth Along the Altitudinal Gradient — Role of Plant Nutritional Status, Fine Root Activity, and Soil Properties

2008

In tropical montane forests, aboveground net primary productivity (ANPP ) usually decreases with increasing altitude. Besides low photosynthesis (Kitayama and Aiba 2002) and direct impact of low temperatures on plant growth (Hoch and Korner 2003), low ANPP at high altitudes has often been attributed to nutrient limitation (Bruijnzeel et al. 1993; Bruijnzeel and Veneklaas 1998; Tanner et al. 1998). Plant growth is often correlated with nutrient availability in tropical montane forests. For example, the exceptionally high tree stature in a montane forest stand in Papua New Guinea was attributed to its nutrient rich soil parent material (Edwards and Grubb 1977). In montane forests of Jamaica (…

0106 biological sciences2. Zero hunger010504 meteorology & atmospheric sciencesParent materialPrimary production15. Life on landBiology010603 evolutionary biology01 natural sciencesNutrient densityNutrientAltitudeAgronomySoil waterBotanyCation-exchange capacitySoil horizon0105 earth and related environmental sciences

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Short-term response of the Ca cycle of a montane forest in Ecuador to low experimental CaCl2 additions

2013

The tropical montane forests of the E Andean cordillera in Ecuador receive episodic Sahara-dust inputs particularly increasing Ca deposition. We added CaCl2 to isolate the effect of Ca deposition by Sahara dust to tropical montane forest from the simultaneously occurring pH effect. We examined components of the Ca cycle at four control plots and four plots with added Ca (2 x 5kg ha(-1) Ca annually as CaCl2) in a random arrangement. Between August 2007 and December 2009 (four applications of Ca), we determined Ca concentrations and fluxes in litter leachate, mineral soil solution (0.15 and 0.30 m depths), throughfall, and fine litterfall and Al concentrations and speciation in soil solutions…

Canopy010504 meteorology & atmospheric sciencesSoil SciencePlant ScienceCalcium cycleAl ratio [Molar Ca]01 natural sciencesDissolved organic carbonBotanyGraffenrieda emarginata TrianaOrganic matter0105 earth and related environmental scienceschemistry.chemical_classificationAl speciationBiomass (ecology)Stem diameter growthTropical montane forest04 agricultural and veterinary sciences15. Life on landPlant litterThroughfallchemistryEnvironmental chemistry040103 agronomy & agricultureLitter0401 agriculture forestry and fisheriesDeposition (chemistry)

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Tropical Andean forests are highly susceptible to nutrient inputs--rapid effects of experimental N and P addition to an Ecuadorian montane forest.

2012

Tropical regions are facing increasing atmospheric inputs of nutrients, which will have unknown consequences for the structure and functioning of these systems. Here, we show that Neotropical montane rainforests respond rapidly to moderate additions of N (50 kg ha -1 yr -1) and P (10 kg ha -1 yr -1). Monitoring of nutrient fluxes demonstrated that the majority of added nutrients remained in the system, in either soil or vegetation. N and P additions led to not only an increase in foliar N and P concentrations, but also altered soil microbial biomass, standing fine root biomass, stem growth, and litterfall. The different effects suggest that trees are primarily limited by P, whereas some pro…

0106 biological sciences010504 meteorology & atmospheric scienceslcsh:MedicinePlant Science01 natural sciencesPlant RootsTreesSoilNutrientGlobal Change EcologyBiomasslcsh:ScienceConservation ScienceBiomass (ecology)MultidisciplinaryEcologyEcologyPhosphorusVegetationBiodiversityPlant litterBiogeochemistrySoil EcologyPlantsTropical; Andean; Forests; Nutrient Input; N; P; Ecuadorian Montane ForestTerrestrial EnvironmentsEcuadorResearch ArticleNitrogenRainforestBiology010603 evolutionary biologyEcosystemsSystems EcologynutrientsPlant-Environment InteractionsForest ecologyEcosystemmontaneforestTerrestrial EcologyFertilizersBiologyEcosystem0105 earth and related environmental sciencesTropical ClimateChemical EcologyPlant Ecologylcsh:RTropics15. Life on landPlant Leaveslcsh:QEcological EnvironmentsPloS one

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sPlotOpen – An environmentally balanced, open‐access, global dataset of vegetation plots

2021

Datos disponibles en https://github.com/fmsabatini/sPlotOpen_Code

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Plot - A new tool for global vegetation analyses

2019

23Biodiversity Conservation Department, ISPRA – Italian National Institute for Environmental Protection and Research, Rome, Italy

0106 biological sciencesGender and DiversityBos- en LandschapsecologieBiomeэкология сообществPlant Scienceэкоинформатика[SDV.BID.SPT]Life Sciences [q-bio]/Biodiversity/Systematics Phylogenetics and taxonomy01 natural sciencesAbundance (ecology)EcoinformaticsForest and Landscape EcologyMacroecologyResearch methodology and philosophyрастительностьbiodiversityEcologyvascular plantPlot база данныхVegetation[SDV.BV.BOT]Life Sciences [q-bio]/Vegetal Biology/BotanicsPE&RCfunctional diversityGeography580: Pflanzen (Botanik)Ecosystems Researchvegetation relevémacroecologyPlantenecologie en Natuurbeheerphylogenetic diversityVegetatie Bos- en Landschapsecologievegetation relevebiodiversity ; community ecology ; ecoinformatics ; functional diversity ; global scale ; macroecology ; phylogenetic diversity ; plot database ; staxonomic ; diversity ; vascular plant ; vegetation relevé/dk/atira/pure/core/keywords/nachhaltigkeitswissenschaftContext (language use)Plant Ecology and Nature Conservationecoinformatic010603 evolutionary biologySustainability Scienceecoinformatics[SDV.EE.ECO]Life Sciences [q-bio]/Ecology environment/EcosystemsEcoinformaticsbiodiversity; community ecology; ecoinformatics; functional diversity; global scale; macroecology; phylogenetic diversity; plot database; sPlot; taxonomic diversity; vascular plant; vegetation relevé577: Ökologieplot database/dk/atira/pure/core/keywords/biologyVegetatieVegetationsPlotPlant communityMacroecology Phylogenetic diversitybiodiversity; community ecology; ecoinformatics; functional diversity; global scale; macroecology; phylogenetic diversity; plot database; sPlot; taxonomic diversity; vascular plant; vegetation releve15. Life on landтаксономическое разнообразиеtaxonomic diversityglobal scaleбиоразнообразиеCrop husbandrySpecies richnessPhysical geographyVegetation Forest and Landscape Ecology[SDE.BE]Environmental Sciences/Biodiversity and Ecology/dk/atira/pure/core/keywords/gender_and diversityфилогенетическое разнообразиемакроэкологияcommunity ecology010606 plant biology & botany

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Soil properties and tree growth along an altitudinal transect in Ecuadorian tropical montane forest

2008

In tropical montane forests, soil properties change with increasing altitude, and tree-growth decreases. In a tropical montane forest in Ecuador, we determined soil and tree properties along an altitudinal transect between 1960 and 2450 m asl. In different vegetation units, all horizons of three replicate profiles at each of eight sites were sampled and height, basal area, and diameter growth of trees were recorded. We determined pH and total concentrations of Al, C, Ca, K, Mg, Mn, N, Na, P, S, Zn, polyphenols, and lignin in all soil horizons and in the mineral soil additionally the effective cation-exchange capacity (CEC). The soils were Cambisols, Planosols, and Histosols. The concentrati…

0106 biological scienceschemistry.chemical_classificationChemistrySoil Science04 agricultural and veterinary sciencesPlant Science15. Life on landcomplex mixtures010603 evolutionary biology01 natural sciencesBasal areaAltitudeNutrientAgronomyBotanySoil water040103 agronomy & agricultureHistosol0401 agriculture forestry and fisheriesSoil horizonOrganic matterTransectJournal of Plant Nutrition and Soil Science

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Nutrient Additions Affecting Matter Turnover in Forest and Pasture Ecosystems

2013

Nutrient inputs into ecosystems of the tropical mountain rainforest region are projected to further increase in the next decades. To investigate whether important ecosystem services such as nutrient cycling and matter turnover in native forests and pasture ecosystems show different patterns of response, two nutrient addition experiments have been established: NUMEX in the forest and FERPAST at the pasture. Both ecosystems already responded 1.5 years after the start of nutrient application (N, P, NP, Ca). Interestingly, most nutrients remained in the respective systems. While the pasture grass was co-limited by N and P, most tree species responded to P addition. Soil microbial biomass in the…

2. Zero hungergeographyBiomass (ecology)Nutrient cyclegeography.geographical_feature_category010504 meteorology & atmospheric sciencesEcology04 agricultural and veterinary sciencesRainforest15. Life on land01 natural sciencesPastureEcosystem servicesNutrientAgronomy040103 agronomy & agricultureLitter0401 agriculture forestry and fisheriesEnvironmental scienceEcosystem0105 earth and related environmental sciences

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