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Registro Completo |
Biblioteca(s): |
Embrapa Amazônia Ocidental. |
Data corrente: |
21/06/2022 |
Data da última atualização: |
21/06/2022 |
Tipo da produção científica: |
Artigo em Periódico Indexado |
Autoria: |
SILVA, L. C. R.; CORRÊA, R. S.; WRIGHT, J. L.; BOMFIM, B.; HENDRICKS, L. B.; GAVIN, D. G.; MUNIZ, A. W.; MARTINS, G. C.; MOTTA, A. C. V.; BARBOSA, J. Z.; MELO, V. de F.; YOUNG, S. D.; BROADLEY, M. R.; SANTOS, R. V. |
Afiliação: |
LUCAS C. R. SILVA, Environmental Studies Program, University of Oregon; RODRIGO STUDART CORRÊA, UnB; JAMIE L. WRIGHT, Environmental Studies Program, University of Oregon; BARBARA BOMFIM, Environmental Studies Program, University of Oregon; LAUREN B. HENDRICKS, Department of Geography, University of Oregon; DANIEL G. GAVIN; ALEKSANDER WESTPHAL MUNIZ, CPAA; GILVAN COIMBRA MARTINS, CPAA; ANTÔNIO CARLOS VARGAS MOTTA, UFPR; JULIERME ZIMMER BARBOSA, Federal Institute of Southeast Minas Gerais; VANDER DE FREITAS MELO, UFPR; SCOTT D. YOUNG, University of Nottingham; MARTIN R. BROADLEY, University of Nottingham; ROBERTO VENTURA SANTOS, UnB. |
Título: |
Reply to: Evidence confirms an anthropic origin of Amazonian Dark Earths. |
Ano de publicação: |
2022 |
Fonte/Imprenta: |
Nature Communications, v. 13, n. 3446, 2022. |
DOI: |
https://doi.org/10.1038/s41467-022-31065-1 |
Idioma: |
Inglês |
Conteúdo: |
REPLYING to Lombardo et al. Nature Communications https://doi.org/10.1038/s41467-022-31064-2 (2022). Amazonian Dark Earths (ADEs) are widely regarded as a model for sustainable agriculture. Their unusual fertility and elevated concentration of charcoal, combined with the frequent occurrence of pre-Columbian artifacts at ADE sites, has prompted widespread biomass burning for soil amendment in tropical regions. However, it remains unclear how these persistent patches of high fertility could have been created in nutrient-impoverished tropical landscapes. In a recent study 1 , we report new data from one of the best-studied ADE sites in Brazil which warrant a revision of its origin story. We found large amounts of phosphorus (P) and calcium (Ca) correlated with 16 trace elements that indicate exogenous sources rather than in situ deposition, an inference that is supported by neodymium (Ne), strontium (Sr) and carbon (C) isotope signatures. Moreover, radiocarbon ( 14 C) activity of charcoal in ADEs suggested inputs beginning thousands of years before the earliest evidence of forest clearing for agriculture in the region. Our results imply that indigenous populations either managed soils at the site thousands of years earlier than previously reported or, alternatively, that human-derived inputs represent a small fraction of ADE’s chemical makeup, a fraction that, we hypothesise based on the size and timing of deposition (Fig. 1), was introduced in the relatively recent past. Lombardo et al.2 disagree and dispute our interpretation. They raise important questions which were addressed in our original paper albeit not in detail. Here, we expand on our previous analysis to estimate the land area and time needed to explain ADE formation through human inputs. This new analysis offers further support to our conclusion that indigenous peoples harnessed natural processes of elemental deposition, which led to the unique properties of ADEs, underscoring the need for a broader view of landscape evolution to redirect sustainable land use in the region. As explained in our study1, evidence from a single (albeit iconic) ADE site should not be extrapolated across the entire basin. However, our findings do raise general questions about previously proposed timing and mechanisms of ADE formation. We argue that our hypothesis should be tested in other sites through interdisciplinary research that combines indigenous knowledge, neotectonics, fluvial geomorphology, and a modern understanding of elemental cycling. Such an approach could uncover the mystery of ADE formation and guide the sustainable use of tropical landscapes going forward, hopefully leading to new discoveries of regional and global significance. MenosREPLYING to Lombardo et al. Nature Communications https://doi.org/10.1038/s41467-022-31064-2 (2022). Amazonian Dark Earths (ADEs) are widely regarded as a model for sustainable agriculture. Their unusual fertility and elevated concentration of charcoal, combined with the frequent occurrence of pre-Columbian artifacts at ADE sites, has prompted widespread biomass burning for soil amendment in tropical regions. However, it remains unclear how these persistent patches of high fertility could have been created in nutrient-impoverished tropical landscapes. In a recent study 1 , we report new data from one of the best-studied ADE sites in Brazil which warrant a revision of its origin story. We found large amounts of phosphorus (P) and calcium (Ca) correlated with 16 trace elements that indicate exogenous sources rather than in situ deposition, an inference that is supported by neodymium (Ne), strontium (Sr) and carbon (C) isotope signatures. Moreover, radiocarbon ( 14 C) activity of charcoal in ADEs suggested inputs beginning thousands of years before the earliest evidence of forest clearing for agriculture in the region. Our results imply that indigenous populations either managed soils at the site thousands of years earlier than previously reported or, alternatively, that human-derived inputs represent a small fraction of ADE’s chemical makeup, a fraction that, we hypothesise based on the size and timing of deposition (Fig. 1), was introduced in the relatively recent past. Lomba... Mostrar Tudo |
Palavras-Chave: |
Terra Preta de Índio. |
Categoria do assunto: |
-- |
URL: |
https://ainfo.cnptia.embrapa.br/digital/bitstream/doc/1144209/1/s41467-022-31065-1.pdf
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Marc: |
LEADER 03597naa a2200301 a 4500 001 2144209 005 2022-06-21 008 2022 bl uuuu u00u1 u #d 024 7 $ahttps://doi.org/10.1038/s41467-022-31065-1$2DOI 100 1 $aSILVA, L. C. R. 245 $aReply to$bEvidence confirms an anthropic origin of Amazonian Dark Earths.$h[electronic resource] 260 $c2022 520 $aREPLYING to Lombardo et al. Nature Communications https://doi.org/10.1038/s41467-022-31064-2 (2022). Amazonian Dark Earths (ADEs) are widely regarded as a model for sustainable agriculture. Their unusual fertility and elevated concentration of charcoal, combined with the frequent occurrence of pre-Columbian artifacts at ADE sites, has prompted widespread biomass burning for soil amendment in tropical regions. However, it remains unclear how these persistent patches of high fertility could have been created in nutrient-impoverished tropical landscapes. In a recent study 1 , we report new data from one of the best-studied ADE sites in Brazil which warrant a revision of its origin story. We found large amounts of phosphorus (P) and calcium (Ca) correlated with 16 trace elements that indicate exogenous sources rather than in situ deposition, an inference that is supported by neodymium (Ne), strontium (Sr) and carbon (C) isotope signatures. Moreover, radiocarbon ( 14 C) activity of charcoal in ADEs suggested inputs beginning thousands of years before the earliest evidence of forest clearing for agriculture in the region. Our results imply that indigenous populations either managed soils at the site thousands of years earlier than previously reported or, alternatively, that human-derived inputs represent a small fraction of ADE’s chemical makeup, a fraction that, we hypothesise based on the size and timing of deposition (Fig. 1), was introduced in the relatively recent past. Lombardo et al.2 disagree and dispute our interpretation. They raise important questions which were addressed in our original paper albeit not in detail. Here, we expand on our previous analysis to estimate the land area and time needed to explain ADE formation through human inputs. This new analysis offers further support to our conclusion that indigenous peoples harnessed natural processes of elemental deposition, which led to the unique properties of ADEs, underscoring the need for a broader view of landscape evolution to redirect sustainable land use in the region. As explained in our study1, evidence from a single (albeit iconic) ADE site should not be extrapolated across the entire basin. However, our findings do raise general questions about previously proposed timing and mechanisms of ADE formation. We argue that our hypothesis should be tested in other sites through interdisciplinary research that combines indigenous knowledge, neotectonics, fluvial geomorphology, and a modern understanding of elemental cycling. Such an approach could uncover the mystery of ADE formation and guide the sustainable use of tropical landscapes going forward, hopefully leading to new discoveries of regional and global significance. 653 $aTerra Preta de Índio 700 1 $aCORRÊA, R. S. 700 1 $aWRIGHT, J. L. 700 1 $aBOMFIM, B. 700 1 $aHENDRICKS, L. B. 700 1 $aGAVIN, D. G. 700 1 $aMUNIZ, A. W. 700 1 $aMARTINS, G. C. 700 1 $aMOTTA, A. C. V. 700 1 $aBARBOSA, J. Z. 700 1 $aMELO, V. de F. 700 1 $aYOUNG, S. D. 700 1 $aBROADLEY, M. R. 700 1 $aSANTOS, R. V. 773 $tNature Communications$gv. 13, n. 3446, 2022.
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Registro original: |
Embrapa Amazônia Ocidental (CPAA) |
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Registros recuperados : 9 | |
1. | | SILVA, V. M.; NARDELI, A. J.; MENDES, N. A. C.; ALCOCK, T. D.; ROCHA, M. de M.; PUTTI, F. F.; WILSON, L.; YOUNG, S. D.; BROADLEY, M. R.; WHITE, P. J.; REIS, A. R. dos. Application of sodium selenate to cowpea (Vigna unguiculata L.) increases shoot and grain Se partitioning with strong genotypic interactions. Journal of Trace Elements in Medicine and Biology, v. 67, 12678, 2021.Tipo: Artigo em Periódico Indexado | Circulação/Nível: A - 2 |
Biblioteca(s): Embrapa Meio-Norte. |
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2. | | SILVA, V. M.; NARDELI, A. J.; MENDES, N. A. de C.; ROCHA, M. de M.; WILSON, L.; YOUNG, S. D.; BROADLEY, M. R.; WHITE, P. J.; REIS, A. R. dos. Agronomic biofortification of cowpea with zinc: variation in primary metabolism responses and grain nutritional quality among 29 diverse genotypes. Plant Physiology and Biochemistry, v. 162, p. 378-387, 2021.Tipo: Artigo em Periódico Indexado | Circulação/Nível: A - 1 |
Biblioteca(s): Embrapa Meio-Norte. |
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3. | | BARBOSA, J. Z.; MOTTA, A. C. V.; CORRÊA, R. S.; MELO, V. de F.; MUNIZ, A. W.; MARTINS, G. C.; SILVA, L. de C. R.; TEIXEIRA, W. G.; YOUNG, S. D.; BROADLEY, M. R. Elemental signatures of an Amazonian Dark Earth as result of its formation process. Geoderma, v. 361, art. 114085, Mar. 2020.Tipo: Artigo em Periódico Indexado | Circulação/Nível: A - 1 |
Biblioteca(s): Embrapa Amazônia Ocidental; Embrapa Solos. |
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4. | | SILVA JÚNIOR, E. C. da; WADT, L. H. de O.; SILVA, K. E. da; LIMA, R. M. B. de; BATISTA, K. D.; GUEDES, M. C.; OLIVEIRA JUNIOR, R. C. de; REIS, A. R. dos; LOPES, G.; BROADLEY, M. R.; YOUNG, S. D.; GUILHERME, L. R. G. Geochemistry of selenium, barium, and iodine in representative soils of the Brazilian Amazon rainforest. Science of The Total Environment, v. 828, 154426, July 2022.Tipo: Artigo em Periódico Indexado | Circulação/Nível: A - 1 |
Biblioteca(s): Embrapa Amazônia Ocidental; Embrapa Amazônia Oriental; Embrapa Rondônia; Embrapa Roraima. |
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5. | | SILVA, L. C. R.; CORRÊA, R. S.; WRIGHT, J. L.; BOMFIM, B.; HENDRICKS, L. B.; GAVIN, D. G.; MUNIZ, A. W.; MARTINS, G. C.; MOTTA, A. C. V.; BARBOSA, J. Z.; MELO, V. de F.; YOUNG, S. D.; BROADLEY, M. R.; SANTOS, R. V. Reply to: Evidence confirms an anthropic origin of Amazonian Dark Earths. Nature Communications, v. 13, n. 3446, 2022.Tipo: Artigo em Periódico Indexado | Circulação/Nível: A - 1 |
Biblioteca(s): Embrapa Amazônia Ocidental. |
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6. | | SILVA JÚNIOR, E. C. da; MARTINS, G. C.; WADT, L. H. de O.; SILVA, K. E. da; LIMA, R. M. B. de; BATISTA, K. D.; GUEDES, M. C.; OLIVEIRA JUNIOR, R. C. de; REIS, A. R.; LOPES, G.; MENEZES, M. D. de; BROADLEY, M. R.; YOUNG, S. D.; GUILHERME, L. R. G. Natural variation of arsenic fractions in soils of the Brazilian Amazon. Science of the Total Environment,v. 687, p. 1219-1231, 2019.Tipo: Artigo em Periódico Indexado | Circulação/Nível: A - 1 |
Biblioteca(s): Embrapa Amapá; Embrapa Amazônia Ocidental; Embrapa Amazônia Oriental; Embrapa Rondônia; Embrapa Roraima. |
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7. | | SILVA, L. C. R.; CORRÊA, R. S.; WRIGHT, J. L.; BOMFIM, B.; HENDRICKS, L.; GAVIN, D. G.; MUNIZ, A. W.; MARTINS, G. C.; MOTTA, A. C. V.; BARBOSA, J. Z.; MELO, V. de F.; YOUNG, S. D.; BROADLEY, M. R.; SANTOS, R. V. A new hypothesis for the origin of Amazonian Dark Earths. Nature Communications, v. 12, Art. 127, 2021.Tipo: Artigo em Periódico Indexado | Circulação/Nível: A - 1 |
Biblioteca(s): Embrapa Amazônia Ocidental. |
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8. | | ECKARDT, N. A.; AINSWORTH, E. A.; BAHUGUNA, R. N.; BROADLEY, M. R.; BUSCH, W.; CARPITA, N. C.; CASTRILLO, G.; CHORY, J.; DEHAAN, L. R.; DUARTE, C. M.; HENRY, A.; JAGADISH, S. V. K.; LANGDALE, J. A.; LEAKEY, A. D. B.; LIAO, J. C.; LU, K.-J.; MCCANN, M. C.; MCKAY, J. K.; ODENY, D. A.; OLIVEIRA, E. J. de; PLATTEN, D.; RABBI, I.; RIM, E. Y.; RONALD, P. C.; SALT, D. E.; SHIGENAGA, A. M.; WANG, E.; WOLFE, M.; ZHANG, X. Climate change challenges, plant science solutions. The Plant Cell, p. 2-43, 2023.Tipo: Artigo em Periódico Indexado | Circulação/Nível: A - 1 |
Biblioteca(s): Embrapa Mandioca e Fruticultura. |
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9. | | KATTGE, J.; BÖNISCH, G.; DÍAZ, S.; LAVOREL, S.; PRENTICE, I. C.; LEADLEY, P.; TAUTENHAHN, S.; WERNER, G. D. A; AAKALA, T.; ABEDI, M; ACOSTA, A. T. R.; ADAMIDIS, G. C.; ADAMSON, K.; AIBA, M.; ALBERT, C. H; ALCÁNTARA, J. M.; ALCÁZAR, C.; ALEIXO, I.; ALI, H; AMIAUD, B.; AMMER, C.; AMOROSO, M. M.; ANAND, M; ANDERSON, C.; ANTEN, N.; ANTOS, J.; APGAUA, D. M. G.; ASHMAN, T. L.; ASMARA, D. H.; ASNER, G. P.; ASPINWALL, M.; ATKIN, O.; AUBIN, I.; BAASTRUP-SPOHR, L.; BAHALKEH, K.; BAHN, M; BAKER, T.; BAKER, W. J.; BAKKER, J. P.; BALDOCCHI, D.; BALTZER, J.; BANERJEE, A.; BARANGER, A.; BARLOW, J.; BARNECHE, D. R.; BARUCH, Z.; BASTIANELLI, D.; BATTLES, J.; BAUERLE, W.; BAUTERS, M.; BAZZATO, E.; BECKMANN, M.; BEECKMAN, H.; BEIERKUHNLEIN, C.; BEKKER, R; BELFRY, G.; BELLUAU, m.; BELOIU, M.; BENAVIDES, R.; BENOMAR, L.; BERDUGO-LATTKE, M. L.; BERENGUER, E.; BERGAMIN, R.; BERGMANN, J.; CARLUCCI, M. G.; BERNER, L.; BERNHARDT-RÖMERMANN, M.; BIGLER, C.; BJORKMAN, A. D.; BLACKMAN, C.; BLANCO, C.; BLONDER, B.; BLUMENTHAL, D.; BOCANEGRA-GONZÁLEZ, K. T.; BOECKX, P.; BOHLMAN, S.; BÖHNING-GAESE, K.; BOISVERT-MARSH, L.; BOND, W.; BOND-LAMBERTY, B.; BOOM, A.; BOONMAN, C. C. F.; KAUANE BORDIN; BOUGHTON, E. H.; BOUKILI, V.; BOWMAN, D. J. S.; BRAVO, S.; BRENDEL, M. R.; BROADLEY, M. R; BROWN, K. A.; BRUELHEIDE, H.; BRUMNICH, F.; BRUUN, H. H.; BRUY, D.; BUCHANAN, S. W.; BUCHER, S. F.; BUCHMANN, N.; BUITENWERF, R.; BUNKER, D. E.; BÜRGER, J.; BURRASCANO, S.; BURSLEM, D. F. R. P; BUTTERFIELD, B. J.; BYUN, C.; SCALON, M. C; CACCIANIGA, M.; CADOTTE, M.; CAILLERET, M.; CAMAC, J.; CAMARERO, J. J.; CAMPANY, C; CAMPETELLA, G.; CAMPOS, J. A.; CANO-ARBOLEDA, L.; CANULLO, R.; CARBOGNANI, M.; CARVALHO, F.; CASANOVES, F.; CASTAGNEYROL, B.; CATFORD, J. A.; CAVENDER-BARES, J.; CERABOLINI, B. E. L.; CERVELLINI, M; CHACÓN-MADRIGAL, E.; CHAPIN, K.; CHAPIN, F. S.; CHELLI, S; CHEN, S. C.; CHEN, A.; CHERUBINI, P.; CHIANUCCI, F.; CHOAT, B.; CHUNG, K. S.; CHYTRÝ, M.; CICCARELLI, D.; COLL, L.; COLLINS, C. G.; CONTI, L.; COOMES, D.; CORNELISSEN, J. H. C.; CORNWELL, W. K.; CORONA, P.; COYEA, M.; CRAINE, J.; CRAVEN, D.; CROMSIGT, J. P. G. M.; CSECSERITS, A; CUFAR, K.; CUNTZ, M.; SILVA, A. C. da; DAHLIN, K. M.; DAINESE, M.; DALKE, I.; FRATTE, M. D.; DANG-LE, A. T.; DANIHELKA, J.; DANNOURA, M.; DAWSON, S.; BEER, A. J. de; FRUTOS, A. de; LONG, J. R. de; DECHANT, B.; DELAGRANGE, S.; DELPIERRE, N.; DERROIRE, G.; DIAS, A. S.; DIAZ-TORIBIO, M. H.; DIMITRAKOPOULOS, P. G.; DOBROWOLSKI, M.; DOKTOR, D.; DREVOJAN, P.; DONG, N.; DRANSFIELD, J.; DRESSLER, S.; DUARTE, L.; DUCOURET, E.; DULLINGER, S.; DURKA, W.; DUURSMA, R.; DYMOVA, O.; E-VOJTKÓ, A.; ECKSTEIN, R. L.; EJTEHADI, H.; ELSER, J.; EMILIO, T.; ENGEMANN, K.; ERFANIAN, M. B.; ERFMEIER, A.; ESQUIVEL-MUELBERT, A.; ESSER, G.; ESTIARTE, M.; DOMINGUES, T. F.; FAGAN, W. F.; FAGÚNDEZ, J.; FALSTER, D. S.; FAN, Y.; FANG, J.; FARRIS, E.; FAZLIOGLU, F.; FENG, Y.; FEFERNANDEZ-MENDEZ, F.; FERRARA, C.; FERREIRA, J.; FIDELIS, A.; FINEGAN, B.; FIRN, J.; FLOWERS. T. J.; FLYNN, D. F. B.; FONTANA, V.; FOREY, E.; FORGIARINI, C.; FRANÇOIS, L.; FRANGIPANI, M.; FRANK, D.; FRENETTE-DUSSAULT, C.; FRESCHET, G. T.; FRY, E. L; FYLLAS, N. M.; MAZZOCHINI, G. G.; GACHET, S.; GALLAGHER, R.; GANADE, G.; GANGA, F.; GARCÍA-PALACIOS, P.; GARGAGLIONE, V.; GARNIER, E.; GARRIDO, J. L.; GASPER, A. L. de; GEA-IZQUIERDO, G.; GIBSON, D.; GILLISON, A. N.; GIROLDO, A.; GLASENHARDT, M. C.; GLEASON, S.; GLIESCH, M.; GOLDBERG, E.; GÖLDEL, B.; GONZALEZ-AKRE, E.; GONZALEZ-ANDUJAR, J. L.; GONZÁLEZ-MELO, A.; GONZÁLEZ-ROBLES, A.; GRAAE, B. J.; GRANDA, E.; GRAVES, S.; GREEN, W. A.; GREGOR, T.; GROSS, N.; GUERIN, G. R.; GÜNTHER, A.; GUTIÉRREZ, A. G.; HADDOCK, L.; HAINES, A.; HALL, J.; HAMBUCKERS, A.; HAN, W.; HARRISON, S. P.; HATTINGH, W.; HAWES, J. E.; HE, T.; HE, P.; HEBERLING, J. M.; HELM, A.; HEMPEL, S.; HENTSCHEL, J.; HÉRAULT, B.; HERE, A. M.; HERZ, K.; HEUERTZ, M.; HICKLER, T.; HIETZ, P.; HIGUCHI, P.; HIPP, A. L.; HIRONS, A.; HOCK, M.; HOGAN, J. A.; HOLL, K.; HONNAY, O.; HOVSTAD, K. A.; ICHIE, T.; IGIC, B.; ILLA, E.; ISAAC, M.; ISHIHARA, M.; IVANOV, L; IVANOVA, L.; IVERSEN, C. M.; IZQUIERDO, J.; JACKSON, R. B.; JACKSON, B.; JACTEL, H.; JAGODZINSKI, A. M.; JANDT, U.; JANSEN, S.; JENKINS, T.; JENTSCH, A.; JESPERSEN, J. R. P.; JIANG, G. F.; JOHANSEN, J. L.; JOHNSON, D.; JOKELA, E. J.; JOLY, C. A.; JORDAN, G. J.; JOSEPH, G. S.; JUNAEDI, D.; JUNKER, R. R.; JUSTES, E.; KABZEMS, R.; KANE, J.; KAPLAN, Z.; KATTENBORN, T.; KAVELENOVA, L.; KEARSLEY, E.; KEMPEL, A.; KENZO, T.; KERKHOFF, A.; KHALIL, M. I.; KINLOCK, N. L.; KISSLING, W. D.; KITAJIMA, K.; KITZBERGER, T.; KJØLLER, R.; KLEIN, T.; KLEYER, M.; KLIMESOVÁ, J.; KLIPEL, J.; KLOEPPEL, B.; KLOTZ, S.; KNOPS, J. M. H.; KOHYAMA, T.; KOIKE, F.; KOLLMANN, J.; KOMAC, B.; KOMATSU, K.; KÖNIG, C.; KRAFT, N. J. B; KRAMER, K.; KREFT, H.; KÜHN, I.; KUMARATHUNGE, D.; KUPPLER, J.; KUROKAWA, H.; KUROSAWA, Y.; KUYAH, S.; LACLAU, J. P.; LAFLEUR, B.; LALLAI, E.; LAMB, E.; LAMPRECHT, A.; LARKIN, D. J.; LAUGHLIN, D.; BAGOUSSE-PINGUET, Y. le; MAIRE, G. le; ROUX, P. C. le.; ROUX, E. le; LEE, T.; LENS, F.; LEWIS, S. L.; LHOTSKY, B; LI, Y.; LI, X.; LICHSTEIN, J. W.; LIEBERGESELL, M; LIM, J. Y.; LIN, Y. S.; LINARES, J. C.; LIU, C.; LIU, D.; LIU, U.; LIVINGSTONE, S.; LLUSIÀ, J.; LOHBECK, M.; LÓPEZ-GARCÍA, A.; LOPEZ-GONZALEZ, G.; LOSOSOVÁ, Z.; LOUAULT, F.; LUKÁCS, B. A.; LUKES, P.; LUO, Y.; LUSSU, M.; MA, S.; PEREIRA, A. M. R.; MACK, M.; MAIRE, V; MÄKELÄ, A.; MÄKINEN, H.; MALHADO, A. C. M.; MALLIK, A.; MANNING, P.; MANZONI, S.; MARCHETTI, Z.; MARCHINO, L.; MARCILIO-SILVA, V.; MARCON, E.; MARIGNANI, M.; MARKESTEIJN, L.; MARTIN, A.; MARTÍNEZ-GARZA, C.; MARTÍNEZ-VILALTA, J.; MASKOVÁ, T.; MASON, K.; MASON, N.; MASSAD, T. J; MASSE, J.; MAYROSE, I.; MCCARTHY, J.; MCCORMACK, M. L.; MCCULLOH, K.; MCFADDEN, I. R.; MCGILL, B. J; MCPARTLAND, M. Y.; MEDEIROS, J. S.; MEDLYN, B.; MEERTS, P.; MEHRABI, Z.; MEIR, P.; MELO, F. P. L.; MENCUCCINI, M.; MEREDIEU, C.; MESSIER, J.; MÉSZÁROS, I.; METSARANTA, J.; MICHALETZ, S. T.; MICHELAKI, C.; MIGALINA, S.; MILLA, R.; MILLER, J. E. D.; MINDEN, V.; MING, R.; MOKANY, K.; MOLES, A. T.; MOLNÁR V, A. M.; MOLOFSKY, J.; MOLZ, M.; MONTGOMERY, R. A.; MONTY, A.; MORAVCOVÁ, L.; MORENO-MARTÍNEZ, A.; MORETTI, M.; MORI, A. S.; MORI, S.; MORRIS, D.; MORRISON, J.; MUCINA, L.; MUELLER, S.; MUIR, C. D.; MÜLLER, S. C.; MUNOZ, F.; MYERS-SMITH, I. H.; MYSTER, R. W.; NAGANO, M.; NAIDU, S.; NARAYANAN, A.; NATESAN, B.; NEGOITA, L.; NELSON, A. S.; NEUSCHULZ, E. L.; NI, J.; NIEDRIST, G.; NIETO, J.; NIINEMETS, U.; NOLAN, R.; NOTTEBROCK, H.; NOUVELLON, Y.; NOVAKOVSKIY, A.; THE NUTRIENT NETWORK; NYSTUEN, K. O.; O'GRADY, A.; O'HARA, K.; O'REILLY-NUGENT, A.; OAKLEY, S.; OBERHUBER, W.; OHTSUKA, T.; OLIVEIRA, R.; ÖLLERER, K.; OLSON, M. E.; ONIPCHENKO, V.; ONODA, Y.; ONSTEIN, R. 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J.; VERBEECK, H.; VERHEYEN, K.; VIBRANS, A.; VIEIRA, I.; VILLACÍS, J.; VIOLLE, C.; VIVEK, P.; WAGNER, K.; WALDRAM, M.; WALDRON, A.; WALKER, A. P.; WALLER, M.; WALTHER, G.; WANG, H.; WANG, F.; WANG, W.; WATKINS, H.; WATKINS, J.; WEBER, U.; WEEDON, J. T.; WEI, L.; WEIGELT, P.; WEIHER, E.; WELLS, A. W.; WELLSTEIN, C.; ELIZABETH WENK, E.; WESTOBY, M.; WESTWOOD, A.; WHITE, P. J.; WHITTEN, M.; WILLIAMS, M.; WINKLER, D. E.; WINTER, K.; WOMACK, C.; WRIGHT, I. J.; WRIGHT, S. J.; WRIGHT, J.; PINHO, B. X.; XIMENES, F.; YAMADA, T.; YAMAJI, K.; YANAI, R.; YANKOV, N.; YGUEL, B.; ZANINI, K. J.; ZANNE, A. E.; ZELENÝ, D.; ZHAO, Y. P.; ZHENG, J.; ZHENG, J.; ZIEMINSKA, K.; ZIRBEL, C. R.; ZIZKA, G.; ZO-BI, I. C.; ZOTZ, G.; WIRTH, C. TRY plant trait database - enhanced coverage and open access. Global Change Biology, v. 26, n. 1, p. 119-188, Jan. 2020.Tipo: Artigo em Periódico Indexado | Circulação/Nível: A - 1 |
Biblioteca(s): Embrapa Amazônia Oriental; Embrapa Clima Temperado; Embrapa Recursos Genéticos e Biotecnologia. |
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