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Registro Completo |
Biblioteca(s): |
Embrapa Florestas. |
Data corrente: |
22/09/2008 |
Data da última atualização: |
22/09/2008 |
Autoria: |
LUIZÃO, F. J.; TAPIA-CORAL, S.; LUIZÃO, R. C. C.; BRAGA, R. |
Título: |
Actual and potential effects of climate change on soil biodiversity and ecology in Amazonia. |
Ano de publicação: |
2008 |
Fonte/Imprenta: |
In: INTERNATIONAL COLLOQUIUM ON SOIL ZOOLOGY, 15; INTERNATIONAL COLLOQUIUM ON APTERYGOTA, 12., 2008, Curitiba. Biodiversity, conservation and sustainabele management of soil animal: abstracts. Colombo: Embrapa Florestas. Editors: George Gardner Brown; Klaus Dieter Sautter; Renato Marques; Amarildo Pasini. 1 CD-ROM. |
Idioma: |
Inglês |
Conteúdo: |
Soil fauna diversity and density are recognized as essential parameters for the functioning of
the soil system, and are in a large extent related to soil moisture and to the amount and quality of
litter covering soil surface. In turn, litterfall and litter layer are influenced by vegetation structure
and floristic, as well as by climatic characteristics of a given region. Thus, climate changes
which affect forest productivity and/or structure will also cause changes in litter dynamics, with
corresponding changes in the decomposer?s community, in decomposition processes, and in
soil engineering activities of soil biota. In Amazonia, recent evidences suggest that increased
atmospheric CO2 concentration is causing: (i) increases in trunk growth (and in the biomass) of
emergent trees, without a correspondent increase in the smaller trees; (ii) increases in the biomass
of lianas; (iii) increases in fine litter production. The quality of the litter deposited on soil surface
is likely changing correspondingly, inducing changes in soil carbon and soil biota. Direct effects
of such changes on soil fauna are still scarce but indications from recent studies are indicating
that: (i) drier environments, as illustrated by border effect within a fragmented forest, cause
higher litter production, accumulation, quality change, and related changes in the decomposer
community; (ii) drier litter layers, as found during the dry season in Amazonia, induce strong
changes in soil and litter fungi and fauna densities and activities, illustrating what may be expected
in case of prolonged droughts as those caused by the ENSO phenomenon; (iii) drier soils, as
induced by rainfall interception, support a reduced or modified activity of soil biota. Current and
planned experiments in several regions of Amazonia shall improve considerably our
understanding of the actual effect of climate change in soil biodiversity and processes mediated
by soil biota within the next few years. MenosSoil fauna diversity and density are recognized as essential parameters for the functioning of
the soil system, and are in a large extent related to soil moisture and to the amount and quality of
litter covering soil surface. In turn, litterfall and litter layer are influenced by vegetation structure
and floristic, as well as by climatic characteristics of a given region. Thus, climate changes
which affect forest productivity and/or structure will also cause changes in litter dynamics, with
corresponding changes in the decomposer?s community, in decomposition processes, and in
soil engineering activities of soil biota. In Amazonia, recent evidences suggest that increased
atmospheric CO2 concentration is causing: (i) increases in trunk growth (and in the biomass) of
emergent trees, without a correspondent increase in the smaller trees; (ii) increases in the biomass
of lianas; (iii) increases in fine litter production. The quality of the litter deposited on soil surface
is likely changing correspondingly, inducing changes in soil carbon and soil biota. Direct effects
of such changes on soil fauna are still scarce but indications from recent studies are indicating
that: (i) drier environments, as illustrated by border effect within a fragmented forest, cause
higher litter production, accumulation, quality change, and related changes in the decomposer
community; (ii) drier litter layers, as found during the dry season in Amazonia, induce strong
changes in soil and litter fungi a... Mostrar Tudo |
Categoria do assunto: |
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Marc: |
LEADER 02704naa a2200157 a 4500 001 1314901 005 2008-09-22 008 2008 bl uuuu u00u1 u #d 100 1 $aLUIZÃO, F. J. 245 $aActual and potential effects of climate change on soil biodiversity and ecology in Amazonia. 260 $c2008 520 $aSoil fauna diversity and density are recognized as essential parameters for the functioning of the soil system, and are in a large extent related to soil moisture and to the amount and quality of litter covering soil surface. In turn, litterfall and litter layer are influenced by vegetation structure and floristic, as well as by climatic characteristics of a given region. Thus, climate changes which affect forest productivity and/or structure will also cause changes in litter dynamics, with corresponding changes in the decomposer?s community, in decomposition processes, and in soil engineering activities of soil biota. In Amazonia, recent evidences suggest that increased atmospheric CO2 concentration is causing: (i) increases in trunk growth (and in the biomass) of emergent trees, without a correspondent increase in the smaller trees; (ii) increases in the biomass of lianas; (iii) increases in fine litter production. The quality of the litter deposited on soil surface is likely changing correspondingly, inducing changes in soil carbon and soil biota. Direct effects of such changes on soil fauna are still scarce but indications from recent studies are indicating that: (i) drier environments, as illustrated by border effect within a fragmented forest, cause higher litter production, accumulation, quality change, and related changes in the decomposer community; (ii) drier litter layers, as found during the dry season in Amazonia, induce strong changes in soil and litter fungi and fauna densities and activities, illustrating what may be expected in case of prolonged droughts as those caused by the ENSO phenomenon; (iii) drier soils, as induced by rainfall interception, support a reduced or modified activity of soil biota. Current and planned experiments in several regions of Amazonia shall improve considerably our understanding of the actual effect of climate change in soil biodiversity and processes mediated by soil biota within the next few years. 700 1 $aTAPIA-CORAL, S. 700 1 $aLUIZÃO, R. C. C. 700 1 $aBRAGA, R. 773 $tIn: INTERNATIONAL COLLOQUIUM ON SOIL ZOOLOGY, 15; INTERNATIONAL COLLOQUIUM ON APTERYGOTA, 12., 2008, Curitiba. Biodiversity, conservation and sustainabele management of soil animal: abstracts. Colombo: Embrapa Florestas. Editors: George Gardner Brown; Klaus Dieter Sautter; Renato Marques; Amarildo Pasini. 1 CD-ROM.
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Embrapa Florestas (CNPF) |
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Registro Completo
Biblioteca(s): |
Embrapa Recursos Genéticos e Biotecnologia. |
Data corrente: |
21/01/2015 |
Data da última atualização: |
29/04/2024 |
Tipo da produção científica: |
Artigo em Periódico Indexado |
Circulação/Nível: |
A - 1 |
Autoria: |
MYBURG, A. A.; GRATTAPAGLIA, D.; TUSKAN, G. A.; HELLSTEN, U.; HAYES, R. D.; GRIMWOOD, J.; JENKINS, J.; LINDQUIST, E.; BAUER, D.; GOODSTEIN, D. M.; DUBCHAK, I.; POLIAKOV, A.; MIZRACHI, E.; KULLAN, A. R. K.; HUSSEY, S. G.; PINARD, D.; MERWE, K. van der; SINGH, P.; JAARSVELD, I. van; SILVA JUNIOR, O. B.; TOGAWA, R. C.; PAPPAS, M. R.; FARIA, D. A.; SANSALONI, C. P.; PETROLI, C. D.; YANG, X.; RANJAN, P.; TSCHAPLINSKI, T. J.; YE, C.-Y.; LI, T.; STERCK, L.; VANNESTE, K.; MURAT, F.; SOLER, M.; SAN CLEMENTE, H.; SAIDI, N.; CASSAN-WANG, H.; DUNAND, C.; HEFER, C. A.; BORNBERG-BAUER, E.; KERSTING, A. R.; VINING, K.; AMARASINGHE, V.; RANIK, M.; NAITHANI, S.; ELSER, J.; BOYD, A. E.; LISTON, A.; SPATAFORA, J. W.; DHARMWARDHANA, P.; RAJA, R.; SULLIVAN, C.; ROMANEL, E.; ALVES-FERREIRA, M.; KULHEIM, C.; FOLEY, W.; CAROCHA, V.; PAIVA, J.; KUDRNA, D.; BROMMONSCHENKEL, S. H.; PASQUALI, G.; BYRNE, M.; RIGAULT, P.; SPOKEVICIUS, A.; JONES, R. C.; STEANE, D. A.; VAILLANCOURT, R. E.; POTTS, B. M.; JOUBERT, F.; BARRY, K.; PAPPAS JUNIOR, G. J.; STRAUSS, S. H.; JAISWAL, P.; GRIMA-PETTENATI, J.; SALSE, J.; PEER, Y. van de; ROKHSAR, D. S.; SCHMUTZ, J. |
Afiliação: |
ALEXANDER A. MYBURG, UNIVERSITY OF PRETORIA; DARIO GRATTAPAGLIA, CENARGEN; GERALD A. TUSKAN, DEPARTMENT OF ENERGY JOINT GENOME INSTITUTE; UFFE HELLSTEN, DEPARTMENT OF ENERGY JOINT GENOME INSTITUTE; RICHARD D. HAYES, DEPARTMENT OF ENERGY JOINT GENOME INSTITUTE; JANE GRIMWOOD, HUDSONALPHA INSTITUTE FOR BIOTECHNOLOGY; JERRY JENKINS, HUDSONALPHA INSTITUTE FOR BIOTECHNOLOGY; ERIKA LINDQUIST, US DEPARTMENT OF ENERGY JOINT GENOME INSTITUTE; DIANE BAUER, US DEPARTMENT OF ENERGY JOINT GENOME INSTITUTE; DAVID M. GOODSTEIN, US DEPARTMENT OF ENERGY JOINT GENOME INSTITUTE; INNA DUBCHAK, US DEPARTMENT OF ENERGY JOINT GENOME INSTITUTE; ALEXANDRE POLIAKOV, US DEPARTMENT OF ENERGY JOINT GENOME INSTITUTE; ESHCHAR MIZRACHI, UNIVERSITY OF PRETORIA; ANAND R. K. KULLAN, UNIVERSITY OF PRETORIA; STEVEN G. HUSSEY, UNIVERSITY OF PRETORIA; DESRE PINARD, UNIVERSITY OF PRETORIA; KAREN VAN DER MERWE, UNIVERSITY OF PRETORIA; POOJA SINGH, UNIVERSITY OF PRETORIA; IDA VAN JAARSVELD, UNIVERSITY OF PRETORIA; ORZENIL BONFIM DA SILVA JUNIOR, CENARGEN; ROBERTO COITI TOGAWA, CENARGEN; MARILIA DE CASTRO RODRIGUES PAPPAS, CENARGEN; DANIELLE A. FARIA; CAROLINA P. SANSALONI; CESAR D. PETROLI; XIAOHAN YANG, OAK RIDGE NATIONAL LABORATORY; PRIYA RANJAN, OAK RIDGE NATIONAL LABORATORY; TIMOTHY J. TSCHAPLINSKI, OAK RIDGE NATIONAL LABORATORY; CHU-YU YE, OAK RIDGE NATIONAL LABORATORY; TING LI, OAK RIDGE NATIONAL LABORATORY; LIEVEN STERCK, GHENT UNIVERSITY; KEVIN VANNESTE, GHENT UNIVERSITY; FLORENT MURAT, INRA/UBP UMR 1095; MARÇAL SOLER, UNIVERSITÉ TOULOUSE III; HELENE SAN CLEMENTE, UNIVERSITÉ TOULOUSE III; NAIJIB SAIDI, UNIVERSITÉ TOULOUSE III; HUA CASSAN-WANG, UNIVERSITÉ TOULOUSE III; CHRISTOPHE DUNAND, UNIVERSITÉ TOULOUSE III; CHARLES A. HEFER, UNIVERSITY OF PRETORIA; ERICH BORNBERG-BAUER, UNIVERSITY OF MUENSTER; ANNA R. KERSTING, UNIVERSITY OF MUENSTER; KELLY VINING, OREGON STATE UNIVERSITY; VINDHYA AMARASINGHE, OREGON STATE UNIVERSITY; MARTIN RANIK, OREGON STATE UNIVERSITY; SUSHMA NAITHANI, OREGON STATE UNIVERSITY; JUSTIN ELSER, OREGON STATE UNIVERSITY; ALEXANDER E. BOYD, OREGON STATE UNIVERSITY; AARON LISTON, OREGON STATE UNIVERSITY; JOSEPH W. SPATAFORA, OREGON STATE UNIVERSITY; PALITHA DHARMWARDHANA, OREGON STATE UNIVERSITY; RAJANI RAJA, OREGON STATE UNIVERSITY; CHRISTOPHER SULLIVAN, OREGON STATE UNIVERSITY; ELISSON ROMANEL, UFRJ; MARCIO ALVES-FERREIRA, UFRJ; CARSTEN KULHEIM, AUSTRALIAN NATIONAL UNIVERSITY; WILLIAM FOLEY, AUSTRALIAN NATIONAL UNIVERSITY; VICTOR CAROCHA, UNIVERSITÉ TOULOUSE III; JORGE PAIVA, IICT/MNE; DAVID KUDRNA, UNIVERSITY OF ARIZONA; SERGIO H. BROMMONSCHENKEL, UFV; GIANCARLO PASQUALI, UFRGS; MARGARET BYRNE, WESTERN AUSTRALIA 6983; PHILIPPE RIGAULT, GYDLE, CANADA; ANTANAS SPOKEVICIUS, UNIVERSITY OF MELBOURNE; REBECCA C. JONES, UNIVERSITY OF TASMANIA; DOROTHY A. STEANE, UNIVERSITY OF TASMANIA; RENE E. VAILLANCOURT, UNIVERSITY OF TASMANIA; BRAD M. POTTS, UNIVERSITY OF TASMANIA; FOURIE JOUBERT, UNIVERSITY OF PRETORIA; KERRIE BARRY, US DEPARTMENT OF ENERGY JOINT GENOME INSTITUTE; GEORGIOS JOANNIS PAPPAS JUNIOR, CENARGEN; STEVEN H. STRAUSS, OREGON STATE UNIVERSITY; PANKAJ JAISWAL, OREGON STATE UNIVERSITY; JACQUELINE GRIMA-PETTENATI, UNIVERSITÉ TOULOUSE III; JEROME SALSE, INRA/UBP UMR 1095; YVES VAN DE PEER, GHENT UNIVERSITY; DANIEL S. ROKHSAR, US DEPARTMENT OF ENERGY JOINT GENOME INSTITUTE; JEREMY SCHMUTZ, US DEPARTMENT OF ENERGY JOINT GENOME INSTITUTE. |
Título: |
The genome of Eucalyptus grandis. |
Ano de publicação: |
2014 |
Fonte/Imprenta: |
Nature (London), v. 510, p. 356-362, 2014. |
Idioma: |
Inglês |
Palavras-Chave: |
Genome evolution; Phylogenomics; Secondary metabolism. |
Thesagro: |
Eucalyptus Grandis. |
Thesaurus NAL: |
biofuels. |
Categoria do assunto: |
-- |
URL: |
https://ainfo.cnptia.embrapa.br/digital/bitstream/item/116064/1/nature13308.pdf
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Marc: |
LEADER 02745naa a2201093 a 4500 001 2006198 005 2024-04-29 008 2014 bl uuuu u00u1 u #d 100 1 $aMYBURG, A. A. 245 $aThe genome of Eucalyptus grandis.$h[electronic resource] 260 $c2014 650 $abiofuels 650 $aEucalyptus Grandis 653 $aGenome evolution 653 $aPhylogenomics 653 $aSecondary metabolism 700 1 $aGRATTAPAGLIA, D. 700 1 $aTUSKAN, G. A. 700 1 $aHELLSTEN, U. 700 1 $aHAYES, R. D. 700 1 $aGRIMWOOD, J. 700 1 $aJENKINS, J. 700 1 $aLINDQUIST, E. 700 1 $aBAUER, D. 700 1 $aGOODSTEIN, D. M. 700 1 $aDUBCHAK, I. 700 1 $aPOLIAKOV, A. 700 1 $aMIZRACHI, E. 700 1 $aKULLAN, A. R. K. 700 1 $aHUSSEY, S. G. 700 1 $aPINARD, D. 700 1 $aMERWE, K. van der 700 1 $aSINGH, P. 700 1 $aJAARSVELD, I. van 700 1 $aSILVA JUNIOR, O. B. 700 1 $aTOGAWA, R. C. 700 1 $aPAPPAS, M. R. 700 1 $aFARIA, D. A. 700 1 $aSANSALONI, C. P. 700 1 $aPETROLI, C. D. 700 1 $aYANG, X. 700 1 $aRANJAN, P. 700 1 $aTSCHAPLINSKI, T. J. 700 1 $aYE, C.-Y. 700 1 $aLI, T. 700 1 $aSTERCK, L. 700 1 $aVANNESTE, K. 700 1 $aMURAT, F. 700 1 $aSOLER, M. 700 1 $aSAN CLEMENTE, H. 700 1 $aSAIDI, N. 700 1 $aCASSAN-WANG, H. 700 1 $aDUNAND, C. 700 1 $aHEFER, C. A. 700 1 $aBORNBERG-BAUER, E. 700 1 $aKERSTING, A. R. 700 1 $aVINING, K. 700 1 $aAMARASINGHE, V. 700 1 $aRANIK, M. 700 1 $aNAITHANI, S. 700 1 $aELSER, J. 700 1 $aBOYD, A. E. 700 1 $aLISTON, A. 700 1 $aSPATAFORA, J. W. 700 1 $aDHARMWARDHANA, P. 700 1 $aRAJA, R. 700 1 $aSULLIVAN, C. 700 1 $aROMANEL, E. 700 1 $aALVES-FERREIRA, M. 700 1 $aKULHEIM, C. 700 1 $aFOLEY, W. 700 1 $aCAROCHA, V. 700 1 $aPAIVA, J. 700 1 $aKUDRNA, D. 700 1 $aBROMMONSCHENKEL, S. H. 700 1 $aPASQUALI, G. 700 1 $aBYRNE, M. 700 1 $aRIGAULT, P. 700 1 $aSPOKEVICIUS, A. 700 1 $aJONES, R. C. 700 1 $aSTEANE, D. A. 700 1 $aVAILLANCOURT, R. E. 700 1 $aPOTTS, B. M. 700 1 $aJOUBERT, F. 700 1 $aBARRY, K. 700 1 $aPAPPAS JUNIOR, G. J. 700 1 $aSTRAUSS, S. H. 700 1 $aJAISWAL, P. 700 1 $aGRIMA-PETTENATI, J. 700 1 $aSALSE, J. 700 1 $aPEER, Y. van de 700 1 $aROKHSAR, D. S. 700 1 $aSCHMUTZ, J. 773 $tNature (London)$gv. 510, p. 356-362, 2014.
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