中文版 | English

在结果中检索

CCPortal

浏览/检索结果: 共15条,第1-10条 帮助

已选(0)清除 条数/页:   排序方式:
Increasing the number of stressors reduces soil ecosystem services worldwide 期刊论文
Nature Climate Change, 2023, 卷号: 13, 期号: 5
作者:  Rillig, Matthias C.;  van der Heijden, Marcel G. A.;  Berdugo, Miguel;  Liu, Yu-Rong;  Riedo, Judith;  Sanz-Lazaro, Carlos;  Moreno-Jimenez, Eduardo;  Romero, Ferran;  Tedersoo, Leho;  Delgado-Baquerizo, Manuel
收藏  |  浏览/下载:1/0  |  提交时间:2024/03/01
Increasing the number of stressors reduces soil ecosystem services worldwide 期刊论文
NATURE CLIMATE CHANGE, 2022, 页码: 12
作者:  Rillig, Matthias C.;  van der Heijden, Marcel G. A.;  Berdugo, Miguel;  Liu, Yu-Rong;  Riedo, Judith;  Sanz-Lazaro, Carlos;  Moreno-Jimenez, Eduardo;  Romero, Ferran;  Tedersoo, Leho;  Delgado-Baquerizo, Manuel
收藏  |  浏览/下载:12/0  |  提交时间:2023/04/13
Mg isotope composition in beech forest ecosystems and variations induced by liming: insights from four experimental sites in Northern France 期刊论文
Biogeochemistry, 2021, 卷号: 153, 期号: 2
作者:  Court M.;  van der Heijden G.;  Louvat P.;  Bolou-Bi E.;  Caro G.;  Bouchez J.;  Pollier B.;  Didier S.;  Nys C.;  Saint-André L.;  Legout A.
收藏  |  浏览/下载:25/0  |  提交时间:2021/07/19
Active restoration accelerates the carbon recovery of human-modified tropical forests 期刊论文
Science, 2020, 卷号: 369, 期号: 6505
作者:  Philipson C.D.;  Cutler M.E.J.;  Brodrick P.G.;  Asner G.P.;  Boyd D.S.;  Costa P.M.;  Fiddes J.;  Foody G.M.;  Van Der Heijden G.M.F.;  Ledo A.;  Lincoln P.R.;  Margrove J.A.;  Martin R.E.;  Milne S.;  Pinard M.A.;  Reynolds G.;  Snoep M.;  Tangki H.;  Wai Y.S.;  Wheeler C.E.;  Burslem D.F.R.P.
收藏  |  浏览/下载:32/0  |  提交时间:2022/01/14
Long-term thermal sensitivity of earth's tropical forests 期刊论文
Science, 2020, 卷号: 368, 期号: 6493
作者:  Sullivan M.J.P.;  Lewis S.L.;  Affum-Baffoe K.;  Castilho C.;  Costa F.;  Sanchez A.C.;  Ewango C.E.N.;  Hubau W.;  Marimon B.;  Monteagudo-Mendoza A.;  Qie L.;  Sonké B.;  Martinez R.V.;  Baker T.R.;  Brienen R.J.W.;  Feldpausch T.R.;  Galbraith D.;  Gloor M.;  Malhi Y.;  Aiba S.-I.;  Alexiades M.N.;  Almeida E.C.;  De Oliveira E.A.;  Dávila E.Á.;  Loayza P.A.;  Andrade A.;  Vieira S.A.;  Aragão L.E.O.C.;  Araujo-Murakami A.;  Arets E.J.J.M.;  Arroyo L.;  Ashton P.;  Gerardo Aymard C.;  Baccaro F.B.;  Banin L.F.;  Baraloto C.;  Camargo P.B.;  Barlow J.;  Barroso J.;  Bastin J.-F.;  Batterman S.A.;  Beeckman H.;  Begne S.K.;  Bennett A.C.;  Berenguer E.;  Berry N.;  Blanc L.;  Boeckx P.;  Bogaert J.;  Bonal D.;  Bongers F.;  Bradford M.;  Brearley F.Q.;  Brncic T.;  Brown F.;  Burban B.;  Camargo J.L.;  Castro W.;  Céron C.;  Ribeiro S.C.;  Moscoso V.C.;  Chave J.;  Chezeaux E.;  Clark C.J.;  De Souza F.C.;  Collins M.;  Comiskey J.A.;  Valverde F.C.;  Medina M.C.;  Da Costa L.;  Dančsák M.;  Dargie G.C.;  Davies S.;  Cardozo N.D.;  De Haulleville T.;  De Medeiros M.B.;  Del Aguila Pasquel J.;  Derroire G.;  Di Fiore A.;  Doucet J.-L.;  Dourdain A.;  Droissart V.;  Duque L.F.;  Ekoungoulou R.;  Elias F.;  Erwin T.;  Esquivel-Muelbert A.;  Fauset S.;  Ferreira J.;  Llampazo G.F.;  Foli E.;  Ford A.;  Gilpin M.;  Hall J.S.;  Hamer K.C.;  Hamilton A.C.;  Harris D.J.;  Hart T.B.;  Hédl R.;  Herault B.;  Herrera R.;  Higuchi N.;  Hladik A.;  Coronado E.H.;  Huamantupa-Chuquimaco I.;  Huasco W.H.;  Jeffery K.J.;  Jimenez-Rojas E.;  Kalamandeen M.;  Djuikouo M.N.K.;  Kearsley E.;  Umetsu R.K.;  Kho L.K.;  Killeen T.;  Kitayama K.;  Klitgaard B.;  Koch A.;  Labrière N.;  Laurance W.;  Laurance S.;  Leal M.E.;  Levesley A.;  Lima A.J.N.;  Lisingo J.;  Lopes A.P.;  Lopez-Gonzalez G.;  Lovejoy T.;  Lovett J.C.;  Lowe R.;  Magnusson W.E.;  Malumbres-Olarte J.;  Manzatto Â.G.;  Marimon B.H.;  Jr.;  Marshall A.R.;  Marthews T.;  De Almeida Reis S.M.;  Maycock C.;  Melgaço K.;  Mendoza C.;  Metali F.;  Mihindou V.;  Milliken W.;  Mitchard E.T.A.;  Morandi P.S.;  Mossman H.L.;  Nagy L.;  Nascimento H.;  Neill D.;  Nilus R.;  Vargas P.N.;  Palacios W.;  Camacho N.P.;  Peacock J.;  Pendry C.;  Mora M.C.P.;  Pickavance G.C.;  Pipoly J.;  Pitman N.;  Playfair M.;  Poorter L.;  Poulsen J.R.;  Poulsen A.D.;  Preziosi R.;  Prieto A.;  Primack R.B.;  Ramírez-Angulo H.;  Reitsma J.;  Réjou-Méchain M.;  Correa Z.R.;  De Sousa T.R.;  Bayona L.R.;  Roopsind A.;  Rudas A.;  Rutishauser E.;  Salim K.A.;  Salomão R.P.;  Schietti J.;  Sheil D.;  Silva R.C.;  Espejo J.S.;  Valeria C.S.;  Silveira M.;  Simo-Droissart M.;  Simon M.F.;  Singh J.;  Shareva Y.C.S.;  Stahl C.;  Stropp J.;  Sukri R.;  Sunderland T.;  Svátek M.;  Swaine M.D.;  Swamy V.;  Taedoumg H.;  Talbot J.;  Taplin J.;  Taylor D.;  Ter Steege H.;  Terborgh J.;  Thomas R.;  Thomas S.C.;  Torres-Lezama A.;  Umunay P.;  Gamarra L.V.;  Van Der Heijden G.;  Van Der Hout P.;  Van Der Meer P.;  Van Nieuwstadt M.;  Verbeeck H.;  Vernimmen R.;  Vicentini A.;  Vieira I.C.G.;  Torre E.V.;  Vleminckx J.;  Vos V.;  Wang O.;  White L.J.T.;  Willcock S.;  Woods J.T.;  Wortel V.;  Young K.;  Zagt R.;  Zemagho L.;  Zuidema P.A.;  Zwerts J.A.;  Phillips O.L.
收藏  |  浏览/下载:33/0  |  提交时间:2022/01/14
Chemical fertility of forest ecosystems. Part 1: Common soil chemical analyses were poor predictors of stand productivity across a wide range of acidic forest soils 期刊论文
, 2020, 卷号: 461
作者:  Hansson K.;  Laclau J.-P.;  Saint-André L.;  Mareschal L.;  van der Heijden G.;  Nys C.;  Nicolas M.;  Ranger J.;  Legout A.
收藏  |  浏览/下载:27/0  |  提交时间:2020/07/28
Biogeochemistry  Chemical analysis  Decision trees  Ecosystems  Forestry  Indicators (chemical)  Nutrients  Productivity  Forest ecosystem  Nutrient stocks  Soil fertility  Soil indicator  Stand productivities  Soils  acid soil  biomass  chemical analysis  dominance  forest ecosystem  nutrient dynamics  physicochemical property  principal component analysis  soil depth  soil fertility  soil nutrient  stand structure  Chemical Analysis  Data  Ecosystems  Forestry  Nutrients  Productivity  Soil  Tree Dimensions  Brazil  Congo  France  
Long-term thermal sensitivity of Earth's tropical forests 期刊论文
, 2020, 卷号: 368, 期号: 6493
作者:  Sullivan M.J.P.;  Lewis S.L.;  Affum-Baffoe K.;  Castilho C.;  Costa F.;  Sanchez A.C.;  Ewango C.E.N.;  Hubau W.;  Marimon B.;  Monteagudo-Mendoza A.;  Qie L.;  Sonké B.;  Martinez R.V.;  Baker T.R.;  Brienen R.J.W.;  Feldpausch T.R.;  Galbraith D.;  Gloor M.;  Malhi Y.;  Aiba S.-I.;  Alexiades M.N.;  Almeida E.C.;  de Oliveira E.A.;  Dávila E.Á.;  Loayza P.A.;  Andrade A.;  Vieira S.A.;  Aragão L.E.O.C.;  Araujo-Murakami A.;  Arets E.J.M.M.;  Arroyo L.;  Ashton P.;  Aymard C G.;  Baccaro F.B.;  Banin L.F.;  Baraloto C.;  Camargo P.B.;  Barlow J.;  Barroso J.;  Bastin J.-F.;  Batterman S.A.;  Beeckman H.;  Begne S.K.;  Bennett A.C.;  Berenguer E.;  Berry N.;  Blanc L.;  Boeckx P.;  Bogaert J.;  Bonal D.;  Bongers F.;  Bradford M.;  Brearley F.Q.;  Brncic T.;  Brown F.;  Burban B.;  Camargo J.L.;  Castro W.;  Céron C.;  Ribeiro S.C.;  Moscoso V.C.;  Chave J.;  Chezeaux E.;  Clark C.J.;  de Souza F.C.;  Collins M.;  Comiskey J.A.;  Valverde F.C.;  Medina M.C.;  da Costa L.;  Dančák M.;  Dargie G.C.;  Davies S.;  Cardozo N.D.;  de Haulleville T.;  de Medeiros M.B.;  Del Aguila Pasquel J.;  Derroire G.;  Di Fiore A.;  Doucet J.-L.;  Dourdain A.;  Droissart V.;  Duque L.F.;  Ekoungoulou R.;  Elias F.;  Erwin T.;  Esquivel-Muelbert A.;  Fauset S.;  Ferreira J.;  Llampazo G.F.;  Foli E.;  Ford A.;  Gilpin M.;  Hall J.S.;  Hamer K.C.;  Hamilton A.C.;  Harris D.J.;  Hart T.B.;  Hédl R.;  Herault B.;  Herrera R.;  Higuchi N.;  Hladik A.;  Coronado E.H.;  Huamantupa-Chuquimaco I.;  Huasco W.H.;  Jeffery K.J.;  Jimenez-Rojas E.;  Kalamandeen M.;  Djuikouo M.N.K.;  Kearsley E.;  Umetsu R.K.;  Kho L.K.;  Killeen T.;  Kitayama K.;  Klitgaard B.;  Koch A.;  Labrière N.;  Laurance W.;  Laurance S.;  Leal M.E.;  Levesley A.;  Lima A.J.N.;  Lisingo J.;  Lopes A.P.;  Lopez-Gonzalez G.;  Lovejoy T.;  Lovett J.C.;  Lowe R.;  Magnusson W.E.;  Malumbres-Olarte J.;  Manzatto ÂG.;  Marimon B.H.;  Jr;  Marshall A.R.;  Marthews T.;  de Almeida Reis S.M.;  Maycock C.;  Melgaço K.;  Mendoza C.;  Metali F.;  Mihindou V.;  Milliken W.;  Mitchard E.T.A.;  Morandi P.S.;  Mossman H.L.;  Nagy L.;  Nascimento H.;  Neill D.;  Nilus R.;  Vargas P.N.;  Palacios W.;  Camacho N.P.;  Peacock J.;  Pendry C.;  Peñuela Mora M.C.;  Pickavance G.C.;  Pipoly J.;  Pitman N.;  Playfair M.;  Poorter L.;  Poulsen J.R.;  Poulsen A.D.;  Preziosi R.;  Prieto A.;  Primack R.B.;  Ramírez-Angulo H.;  Reitsma J.;  Réjou-Méchain M.;  Correa Z.R.;  de Sousa T.R.;  Bayona L.R.;  Roopsind A.;  Rudas A.;  Rutishauser E.;  Abu Salim K.;  Salomão R.P.;  Schietti J.;  Sheil D.;  Silva R.C.;  Espejo J.S.;  Valeria C.S.;  Silveira M.;  Simo-Droissart M.;  Simon M.F.;  Singh J.;  Soto Shareva Y.C.;  Stahl C.;  Stropp J.;  Sukri R.;  Sunderland T.;  Svátek M.;  Swaine M.D.;  Swamy V.;  Taedoumg H.;  Talbot J.;  Taplin J.;  Taylor D.;  Ter Steege H.;  Terborgh J.;  Thomas R.;  Thomas S.C.;  Torres-Lezama A.;  Umunay P.;  Gamarra L.V.;  van der Heijden G.;  van der Hout P.;  van der Meer P.;  van Nieuwstadt M.;  Verbeeck H.;  Vernimmen R.;  Vicentini A.;  Vieira I.C.G.;  Torre E.V.;  Vleminckx J.;  Vos V.;  Wang O.;  White L.J.T.;  Willcock S.;  Woods J.T.;  Wortel V.;  Young K.;  Zagt R.;  Zemagho L.;  Zuidema P.A.;  Zwerts J.A.;  Phillips O.L.
收藏  |  浏览/下载:37/0  |  提交时间:2020/07/28
carbon  acclimatization  biomass  carbon cycle  climate change  forest  heat  metabolism  tree  tropic climate  wood  Acclimatization  Biomass  Carbon  Carbon Cycle  Climate Change  Earth, Planet  Forests  Hot Temperature  Trees  Tropical Climate  Wood  
Chemical fertility of forest ecosystems. Part 2: Towards redefining the concept by untangling the role of the different components of biogeochemical cycling 期刊论文
, 2020, 卷号: 461
作者:  Legout A.;  Hansson K.;  van der Heijden G.;  Laclau J.-P.;  Mareschal L.;  Nys C.;  Nicolas M.;  Saint-André L.;  Ranger J.
收藏  |  浏览/下载:24/0  |  提交时间:2020/07/28
Biogeochemistry  Forestry  Lakes  Nutrients  Nutrition  Plants (botany)  Soils  Biogeochemical cycling  Biogeochemical functioning  Biological components  Biological cycling  Geochemical components  Geochemical cycling  Nutritional functioning  Plant-available nutrients  Ecosystems  acid soil  biogeochemical cycle  biological analysis  chemical analysis  flux measurement  forest ecosystem  forest soil  nutrient availability  nutrient cycling  nutritional requirement  soil fertility  soil-vegetation interaction  Chemicals  Ecosystems  Fertility  Forestry  Lakes  Nutrients  Nutrition  Soil  Brazil  Congo  France  
Chemical fertility of forest ecosystems. Part 2: Towards redefining the concept by untangling the role of the different components of biogeochemical cycling 期刊论文
Forest Ecology and Management, 2020, 卷号: 461
作者:  Legout A.;  Hansson K.;  van der Heijden G.;  Laclau J.-P.;  Mareschal L.;  Nys C.;  Nicolas M.;  Saint-André L.;  Ranger J.
收藏  |  浏览/下载:19/0  |  提交时间:2020/12/08
Chemical fertility of forest ecosystems. Part 1: Common soil chemical analyses were poor predictors of stand productivity across a wide range of acidic forest soils 期刊论文
Forest Ecology and Management, 2020, 卷号: 461
作者:  Hansson K.;  Laclau J.-P.;  Saint-André L.;  Mareschal L.;  van der Heijden G.;  Nys C.;  Nicolas M.;  Ranger J.;  Legout A.
收藏  |  浏览/下载:39/0  |  提交时间:2020/12/08