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Registros recuperados : 7 | |
1. | | XU, W.; GUO, W.; SERRA-DIAZ, J. M.; SCHRODT, F.; EISERHARDT, W. L.; ENQUIST, B. J.; MAITNER, B. S.; MEROW, C.; VIOLLE, C.; ANAND, M.; BELLUAU, M.; BRUUN, H. H.; BYUN, C.; CATFORD, J. A.; CERABOLINI, B. E.; CHACÓN-MADRIGAL, E.; CICCARELLI, D.; CORNELISSEN, J. H. C.; DANG-LE, A. T.; FRUTOS, A. de; DIAS, A. S.; GIROLDO, A. B.; GUTIÉRREZ, A. G.; HATTINGH, W.; HE, T.; HIETZ, P.; HOUGH-SNEE, N.; JANSEN, S.; KATTGE, J.; KOMAC, B.; KRAFT, N. J.; KRAMER, K.; LAVOREL, S.; LUSK, C. H.; MARTIN, A. R.; MA, K.; MENCUCCINI, M.; MICHALETZ, S. T.; MINDEN, V.; MORI, A. S.; NIINEMETS, Ü.; ONODA, Y.; ONSTEIN, R. E.; PEÑUELAS, J.; PILLAR, V. D.; PISEK, J.; POUND, M. J.; ROBROEK, B. J.; SCHAMP, B.; SLOT, M.; SUN, M.; SOSINSKI, Ê. E.; SOUDZILOVSKAIA, N. A.; THIFFAULT, N.; BODEGOM, P. M. V.; PLAS, F. V. D.; ZHENG, J.; SVENNING, J.; ORDONEZ, A. Global beta-diversity of angiosperm trees is shaped by Quaternary climate change. Science Advances v. 9, n. 14, eadd8553, 2375-2548, 2023. Biblioteca(s): Embrapa Clima Temperado. |
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2. | | JOSWIG, J. S.; WIRTH, C.; SCHUMAN, M. C.; KATTGE, J.; REU, B.; WRIGHT, I. J.; SIPPEL, S. D.; RÜGER, N.; RICHTER, R.; SCHAEPMAN, M. E.; VAN BODEGOM, P. M.; CORNELISSEN, J. H. C.; DÍAZ, S.; HATTINGH, W. N.; KRAMER, K.; LENS, F.; NIINEMETS, U.; REICH, P. B.; REICHSTEIN, M.; RÖMERMANN, C.; SCHRODT, F.; ANAND, M.; BAHN , M.; BYUN, C.; CAMPETELLA, G.; CERABOLINI, B. E. L.; CRAINE, J. M.; GONZALEZ-MELO, A.; GUTIÉRREZ, A. G.; HE, T.; HIGUCHI, P.; JACTEL, H.; KRAFT, N. J. B.; MINDEN, V.; ONIPCHENKO, V.; PEÑUELAS, J.; PILLAR , V. D.; SOSINSKI JUNIOR, E. E.; SOUDZILOVSKAIA, N. A.; WEIHER, E.; MAHECHA, M. D. Climatic and soil factors explain the two-dimensional spectrum of global plant trait variation. Nature Ecology & Evolution, v. 6, p. 36-50, Jan. 2022. Published online 23 December 2021. Biblioteca(s): Embrapa Clima Temperado. |
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3. | | DÍAZ, S.; KATTGE, J.; CORNELISSEN, J. H. C.; WRIGHT, I. J.; LAVOREL, S.; DRAY, S.; REU, B.; KLEYER, M.; WIRTH, C.; PRENTICE, I. C.; GARNIER, E.; BÖNISCH, G.; WESTOBY, M.; POORTER, H.; REICH, P. B.; MOLES, A. T.; DICKIE, J.; ZANNE, A. E.; CHAVE, J.; WRIGHT, S. J.; SHEREMETIEV, S. N.; JACTEL, H.; BARALOTO, C.; CERABOLINI, B. E. L.; PIERCE, S.; SHIPLEY, B.; CASANOVES, F.; JOSWIG, J. S.; GÜNTHER, A.; FALCZUK, V.; RÜGER, N.; MAHECHA, M. D.; GORNÉ, L. D.; AMIAUD, B.; ATKIN, O. K.; BAHN, M.; BALDOCCHI, D.; BECKMANN, M.; BLONDER, B.; BOND, W.; BOND-LAMBERTY, B.; BROWN, K.; BURRASCANO, S.; BYUN, C.; CAMPETELLA, G.; CAVENDER-BARES, J.; CHAPIN, F. S.; CHOAT, B.; COOMES, D. A.; CORNWELL, W. K.; CRAINE, J.; CRAVEN, D.; DAINESE, M.; ARAUJO, A. C. de; VRIES, F. T. de; DOMINGUES, T. F.; ENQUIST, B. J.; FAGÚNDEZ, J.; FANG, J.; FERNÁNDEZ-MÉNDEZ, F.; FERNANDEZ-PIEDADE, M. T.; FORD, H.; FOREY, E.; FRESCHET, G. T.; GACHET, S.; GALLAGHER, R.; GREEN, W.; GUERIN, G. R.; GUTIÉRREZ, A. G.; HARRISON, S. P.; HATTINGH, W. N.; HE, T.; HICKLER, T.; HIGGINS, S. I.; HIGUCHI, P.; ILIC, J.; JACKSON, R. B.; JALILI, A.; JANSEN, S.; KOIKE, F.; KÖNIG, C.; KRAFT, N.; KRAMER, K.; KREFT, H.; KÜHN, I.; KUROKAWA, H.; LAMB, E. G.; LAUGHLIN, D. C.; LEISHMAN, M.; LEWIS, S.; LOUAULT, F.; MALHADO, A. C. M.; MANNING, P.; MEIR, P.; MENCUCCINI, M.; MESSIER, J.; MILLER, R.; MINDEN, V.; MOLOFSKY, J.; MONTGOMERY, R.; MONTSERRAT-MARTÍ, G.; MORETTI, M.; MÜLLER, S.; NIINEMETS, Ü.; OGAYA, R.; ÖLLERER, K.; ONIPCHENKO, V.; ONODA, Y.; OZINGA, W. A.; PAUSAS, J. G.; PECO, B.; PENUELAS, J.; PILLAR, V. D.; PLADEVALL, C.; RÖMERMANN, C.; SACK, L.; SALINAS, N.; SANDEL, B.; SARDANS, J.; SCHAMP, B.; SCHERER-LORENZEN, M.; SCHULZE, E.; SCHWEINGRUBER, F.; SHIODERA, S.; SOSINSKI JUNIOR, E. E.; SOUDZILOVSKAIA, N.; SPASOJEVIC, M. J.; SWAINE, E.; SWENSON, N.; TAUTENHAHN, S.; THOMPSON, K.; TOTTE, A.; URRUTIA-JALABERT, R.; VALLADARES, F.; BODEGOM, P. V.; VASSEUR, F.; VERHEYEN, K.; VILE, D.; VIOLLE, C.; HOLLE, B. V.; WEIGELT, P.; WEIHER, E.; WIEMANN, M. C.; WILLIAMS, M.; WRIGHT, J.; ZOTZ, G. The global spectrum of plant form and function: enhanced species-level trait dataset. Scientific Data, v. 9, n. 1, 755, 2022. 18 p. Biblioteca(s): Embrapa Clima Temperado. |
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4. | | GUO, W.-Y.; SERRA-DIAZE, J. M.; SCHRODTF, F.; EISERHARDT, W. L.; MAITNER, B. S.; MEROW, C.; VIOLLEJ, C.; ANAND, M.; BELLUAU, M.; BRUUN, H. H.; BYUN, C.; CATFORD, J. A.; CERABOLINI, B. E. L.; CHACÓN-MADRIGAL, E.; CICCARELLI, D.; CORNELISSEN, J. H. C.; DANG-LE, A. T.; FRUTOS, A. de; DIAS, A. S.; GIROLDO, A. B.; GUO, K.; GUTIÉRREZ, A. G.; HATTINGH, W.; HE, T.; HIETZ, P.; HOUGH-SNEE, N.; JANSEN, S.; KATTGE, J.; KLEIN, T.; KOMAC, B.; KRAFT, N. J. B.; KRAMER, K.; LAVOREL, S.; LUSK, C. H.; MARTIN, A. R.; MENCUCCINI, M.; MICHALETZ, S. T.; MINDENT, V.; MORI, A. S.; NIINEMETS, Ü.; ONODA, Y.; PEÑUELAS, J.; PILLAR, V. D.; PISEK, J.; ROBROEK, B. J. M.; SCHAMP, B.; SLOT, M.; SOSINSKI JUNIOR, E. E.; SOUDZILOVSKAIA, N. A.; THIFFAULT, N.; VAN BODEGOM, P.; VAN DER PLAS, F.; WRIGHT, I. J.; XU, W.-B.; ZHENG, J.; ENQUIST, B. J.; SVENNING, J.-C. High exposure of global tree diversity to human pressure. PNAS, v. 119, n. 25, e2026733119, 2022. 11 p. Proceedings of the National Academy of Sciences of the United States of America. Biblioteca(s): Embrapa Clima Temperado. |
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5. | | 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. E.; ORDONEZ, J. C.; OSADA, N.; OSTONEN, I.; OTTAVIANI, G.; OTTO, S.; OVERBECK, G. E.; OZINGA, W. A.; PAHL, A. T.; PAINE, C. E. T.; PAKEMAN, R. J.; PAPAGEORGIOU, A. C.; PARFIONOVA, E.; PÄRTEL, M.; PATACCA, M.; PAULA, S.; PAULE, J.; PAULI, H.; PAUSAS, J. G.; PECO, B.; PENUELAS, J.; PEREA, A.; PERI, P. L.; APETISCO-SOUZA, A. C.; PETRAGLIA, A.; PETRITAN, A. M.; PHILLIPS, O. L.; PIERCE, S.; PILLAR, V. D.; PISEK, J.; POMOGAYBIN, A.; POORTER, H.; PORTSMUTH, A.; POSCHLOD, P.; POTVIN, C.; POUNDS, D.; POWELL, S.; POWER, S. A.; PRINZING, A; PUGLIELLI, G.; PY-EK, P.; RAEVEL, V.; RAMMIG, A.; RANSIJN, J.; RAY, C. A.; REICH, P. B.; REICHSTEIN, M.; REID, D. E. B; RÉJOU-MÉCHAIN, M.; DIOS, V. R. de; RIBEIRO, S.; RICHARDSON, S.; RIIBAK, K.; RILLIG, M. C.; RIVIERA, F; ROBERT, E. M. R.; ROBERTS, S.; ROBROEK, B.; RODDY, A.; RODRIGUES, A. V.; ROGERS, A.; ROLLINSON, E.; ROLO, V.; RÖMERMANN, C.; RONZHINA, D.; ROSCHER, C.; ROSELL, J. A.; ROSENFIELD, M. F.; ROSSI, C.; ROY, D. B.; ROYER-TARDIF, S.; RÜGER, N.; RUIZ-PEINADO, R.; RUMPF, S. B.; RUSCH, G. M; RYO, M.; SACK, L.; SALDAÑA, A.; SALGADO-NEGRET, B.; SALGUERO-GOMEZ, R.; SANTA-REGINA, I.; SANTACRUZ-GARCÍA, A. C.; SANTOS, J.; SARDANS, J.; SCHAMP, B.; SCHERER-LORENZEN, M.; SCHLEUNING, M.; SCHMID, B.; SCHMIDT, M.; SCHMITT, S.; SCHNEIDER, J. V.; SCHOWANEK, S. D.; SCHRADER, J.; SCHRODT, F.; SCHULDT, B.; SCHURR, F.; GARVIZU, G. S.; SEMCHENKO, M.; SEYMOUR, C.; SFAIR, J. C.; SHARPE, J. M.; SHEPPARD, C. S.; SHEREMETIEV, S.; SHIODERA, S.; SHIPLEY, B.; SHOVON, T. A.; SIEBENKÄS, A.; SIERRA, C.; SILVA, V.; SILVA, M.; SITZIA, T.; SJÖMAN, H.; SLOT, M.; SMITH, N. G.; SODHI, D.; SOLTIS, P.; SOLTIS, D.; SOMERS, B.; SONNIER, G.; SØRENSEN, M. V.; SOSINSKI JUNIOR, E. E.; SOUDZILOVSKAIA, N. A.; SOUZA, A. F.; SPASOJEVIC, M.; SPERANDII, M. G.; STAN, A. B.; STEGEN, J.; STEINBAUER, K.; STEPHAN, J. G.; STERCK, F.; STOJANOVIC, D. B.; STRYDOM, T.; SUAREZ, M. L.; SVENNING, J. C.; SVITKOVÁ, I.; SVITOK, M.; SVOBODA, M.; SWAINE, E.; SWENSON, N.; TABARELLI, M.; TAKAGI, K.; TAPPEINER, U.; TARIFA, R.; TAUUGOURDEAU, S.; TAVSANOGLU, C.; BEEST, M. te.; TEDERSOO, L.; THIFFAULT, N.; THOM, D.; THOMAS, E.; THOMPSON, K.; THORNTON, P. E.; THUILLER, W.; TICHÝ, L.; TISSUE, D.; TJOELKER, M. G.; TNG, D. Y. P.; TOBIAS, J.; TÖRÖK, P.; TARIN, T.; TORRES-RUIZ, J. M.; TÓTHMÉRÉSZ, B.; TREURNICHT, M.; TRIVELLONE, V.; TROLLIET, F.; TROTSIUK, V.; TSAKALOS, J. L.; TSIRIPIDIS, I.; TYSKLIND, N.; TORU UMEHARA, T.; USOLTSEV, V.; VADEBONCOEUR, M.; VAEZI, J.; VALLADARES, F.; VAMOSI, J.; BODEGOM, P. M. V.; BREUGEL, M. V.; CLEEMPUT, E. V.; WEG, M. V. de; MERWE, S. van der.; PLAS, F. van der.; SANDE, M. T. van der.; KLEUNEN, M. V.; MEERBEEK, K. V.; VANDERWEL, M.; VANSELOW, K. A.; VÅRHAMMAR, A.; VARONE, L.; VALDERRAMA, M. Y. V.; VASSILEV, K.; VELLEND, M.; VENEKLAAS, E. 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. Biblioteca(s): Embrapa Amazônia Oriental; Embrapa Clima Temperado; Embrapa Recursos Genéticos e Biotecnologia. |
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6. | | MILLA, R.; BASTIDA, J. M.; TURCOTTE, M. M.; JONES, G.; VIOLLE, C.; OSBORNE, C. P.; CHACÓN-LABELLA, J.; SOSINSKI JUNIOR, E. E.; KATTGE, J.; LAUGHLIN, D. C.; FOREY, E.; MINDEN, V.; CORNELISSEN, J. H. C.; AMIAUD, B.; KRAMES, K.; BOENISCH, G.; HE, TIANHUA; PILLAR, V. D.; BYUN, C. Phylogenetic patterns and phenotypic profiles of the species of plants and mammals farmed for food. Nature Ecology & Evolution, v. 2, p. 1808-1817, 2018. Biblioteca(s): Embrapa Clima Temperado. |
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7. | | BUTLER, E. E.; DATTA, A.; FLORES-MORENO, H.; CHEN, M.; WYTHERS, K. R.; FAZAYELI, F.; BANERJEE, A.; ATKIN, O. K.; KATTGE, J.; AMIAUD, B.; BLONDER, B.; BOENISCH, G.; BOND-LAMBERTY, B.; BROWN, K. A.; BYUN, C.; CAMPETELLA, G.; CERABOLINI, B. E. L.; CORNELISSEN, J. H. C.; CRAINE, J. M.; CRAVEN, D.; DE VRIES, F. T.; DIAZ, S.; DOMINGUES, T. F.; FOREY, E.; GONZALEZ-MELO, A.; GROSS, N.; HAN, W.; HATTINGH, W. N.; HICKLER, T.; JANSEN, S.; SOSINSKI JUNIOR, E. E.; KRAMER, K. Mapping local and global variability in plant trait distributions. PNAS, v. 114, n. 51, Dec. 2017. Biblioteca(s): Embrapa Clima Temperado. |
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Registros recuperados : 7 | |
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Registro Completo
Biblioteca(s): |
Embrapa Pecuária Sudeste. |
Data corrente: |
03/05/2000 |
Data da última atualização: |
04/10/2021 |
Tipo da produção científica: |
Resumo em Anais de Congresso |
Autoria: |
LOMBARDI, M. C.; COSTA, L.; NOBREGA, J.; NOGUEIRA, A. R. de A. |
Afiliação: |
MARIA CRISTINA LOMBARDI, UFSCAR; LETICIA COSTA, UFSCAR; JOAQUIM NOBREGA, UFSCAR; ANA RITA DE ARAUJO NOGUEIRA, CPPSE. |
Título: |
Open vessel microwave extraction of metals in biological and botanical materials. |
Ano de publicação: |
1999 |
Fonte/Imprenta: |
In: ANNUAL CONFERENCE OF THE FEDERATION OF ANALYTICAL CHEMISTRY AND SPECTROSCOPY SOCIETIES - FACSS, 26.; INTERNATIONAL CONFERENCE ON ANALYTICAL SCIENCES AND SPECTROSCOPY - ICASS, 1999, Vancouver. Proceedings... Vancouver: FACSS, 1999. p.223. |
Idioma: |
Inglês |
Conteúdo: |
The complete sample decomposition is not always necessary when measurements are carried out using optical techniques. Depending on both technique employed and sample matrix characteristics, an extraction procedure can be completely suitable for quantitative determinations. To implement this approach is essential to perform a critical evaluation of the behavior of each element, of the extractor solution, and of the temperature and time of extraction. The temperature can be controlled adopting microwave-assisted procedures that guarantee fast heating and repeatability. In this work an open-vessel microwave system (Star 6, CEM) was employed to investigate the efficiency of the extraction procedures. The extraction of Al, Ca, Cu, Fe, Mg, Mn,:and Zn was evaluated in biological (bovine liver, SRM 1577b, NIST) and botanical (apple leaves, SRM 1515, NIST; trace elements in spinach leaves, SR!vf 1570a, NIST; and commercial teas) materials. The extraction procedures were investigated using 1 or 10% v/v hydrochloric or nitric acid solutions. An alkaline solution containing a mixture of water- soluble tertiary amines (CFA-C, Spectrasol) was also tested. All procedures were carried out at temperatures in the range 80-105 oC during time intervals shorter than 10 min. The analytes were determined by flame and graphite furnace atomic absorption spectrophotometry (Intralab, model Gemini AA12/1475 and Varian model 800, respectively), and by inductively coupled plasma atomic emission spectrometry (AtomScan 25, TJA). Copper, Mn, and Zn were quantitatively extracted from biological and botanical materials with all solutions employed. The complete extraction of these elements from biological materials was easier than from botanical materials and it was also observed that acid solutions were more efficient than the CFA-C mixture for botanical samples. Calcium and Mg were quantitatively extracted in some tea samples and it was found that Mg is weaker bound to the matrix than Ca. Aluminum and Fe were poorly extracted in all samples. MenosThe complete sample decomposition is not always necessary when measurements are carried out using optical techniques. Depending on both technique employed and sample matrix characteristics, an extraction procedure can be completely suitable for quantitative determinations. To implement this approach is essential to perform a critical evaluation of the behavior of each element, of the extractor solution, and of the temperature and time of extraction. The temperature can be controlled adopting microwave-assisted procedures that guarantee fast heating and repeatability. In this work an open-vessel microwave system (Star 6, CEM) was employed to investigate the efficiency of the extraction procedures. The extraction of Al, Ca, Cu, Fe, Mg, Mn,:and Zn was evaluated in biological (bovine liver, SRM 1577b, NIST) and botanical (apple leaves, SRM 1515, NIST; trace elements in spinach leaves, SR!vf 1570a, NIST; and commercial teas) materials. The extraction procedures were investigated using 1 or 10% v/v hydrochloric or nitric acid solutions. An alkaline solution containing a mixture of water- soluble tertiary amines (CFA-C, Spectrasol) was also tested. All procedures were carried out at temperatures in the range 80-105 oC during time intervals shorter than 10 min. The analytes were determined by flame and graphite furnace atomic absorption spectrophotometry (Intralab, model Gemini AA12/1475 and Varian model 800, respectively), and by inductively coupled plasma atomic emission spectrome... Mostrar Tudo |
Palavras-Chave: |
Biological; Biologico material; Botanical; Botanico material; Material; Microondas extracao; Microwave extractions. |
Thesagro: |
Metal. |
Categoria do assunto: |
W Química e Física |
URL: |
https://ainfo.cnptia.embrapa.br/digital/bitstream/item/118416/1/PROCIARN1999.00022.pdf
|
Marc: |
LEADER 02934nam a2200241 a 4500 001 1044780 005 2021-10-04 008 1999 bl uuuu u00u1 u #d 100 1 $aLOMBARDI, M. C. 245 $aOpen vessel microwave extraction of metals in biological and botanical materials.$h[electronic resource] 260 $aIn: ANNUAL CONFERENCE OF THE FEDERATION OF ANALYTICAL CHEMISTRY AND SPECTROSCOPY SOCIETIES - FACSS, 26.; INTERNATIONAL CONFERENCE ON ANALYTICAL SCIENCES AND SPECTROSCOPY - ICASS, 1999, Vancouver. Proceedings... Vancouver: FACSS, 1999. p.223.$c1999 520 $aThe complete sample decomposition is not always necessary when measurements are carried out using optical techniques. Depending on both technique employed and sample matrix characteristics, an extraction procedure can be completely suitable for quantitative determinations. To implement this approach is essential to perform a critical evaluation of the behavior of each element, of the extractor solution, and of the temperature and time of extraction. The temperature can be controlled adopting microwave-assisted procedures that guarantee fast heating and repeatability. In this work an open-vessel microwave system (Star 6, CEM) was employed to investigate the efficiency of the extraction procedures. The extraction of Al, Ca, Cu, Fe, Mg, Mn,:and Zn was evaluated in biological (bovine liver, SRM 1577b, NIST) and botanical (apple leaves, SRM 1515, NIST; trace elements in spinach leaves, SR!vf 1570a, NIST; and commercial teas) materials. The extraction procedures were investigated using 1 or 10% v/v hydrochloric or nitric acid solutions. An alkaline solution containing a mixture of water- soluble tertiary amines (CFA-C, Spectrasol) was also tested. All procedures were carried out at temperatures in the range 80-105 oC during time intervals shorter than 10 min. The analytes were determined by flame and graphite furnace atomic absorption spectrophotometry (Intralab, model Gemini AA12/1475 and Varian model 800, respectively), and by inductively coupled plasma atomic emission spectrometry (AtomScan 25, TJA). Copper, Mn, and Zn were quantitatively extracted from biological and botanical materials with all solutions employed. The complete extraction of these elements from biological materials was easier than from botanical materials and it was also observed that acid solutions were more efficient than the CFA-C mixture for botanical samples. Calcium and Mg were quantitatively extracted in some tea samples and it was found that Mg is weaker bound to the matrix than Ca. Aluminum and Fe were poorly extracted in all samples. 650 $aMetal 653 $aBiological 653 $aBiologico material 653 $aBotanical 653 $aBotanico material 653 $aMaterial 653 $aMicroondas extracao 653 $aMicrowave extractions 700 1 $aCOSTA, L. 700 1 $aNOBREGA, J. 700 1 $aNOGUEIRA, A. R. de A.
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