04107nab a2200325 i 4500003000900000005001700009008004100026040001800067072000800085100004100093100003000134100004100164100002400205100003000229100003400259100003700293245009900330500006700429520135800496520152301854650002103377650001203398650001903410650002703429650002903456773019003485856007903675942000803754999001903762BR-BrBNA20260416142901.0260416b2019    bl.qr|pooa||| 00| 0 eng |  aBR-BrBNAbeng  aK10  aRodrigues, Guilherme Almeida Garcia   aRibeiro, Maiara Iadwizak   aLuz, Ezequiel Marçal Zanchetti da   aPorto, Erly Carlos   aMatias, Gabriele Larissa   aCorsato, Jaqueline Malagutti   aFortes, Andréa Maria Teixeira   aDrought stress effects on germination and reserve degradation of Aspidosperma polyneuron seeds  a

Publicação online; 46 ref.; 5 illus.; Summaries (En, Pt)  a


ABSTRACT:      Seeds  are  exposed  to  diverse  environmental  factors  when  dispersed,  including  abiotic  stresses,  which  will  affect  germination.  Drought  is  the  most  important  factor  affecting  germination,  since  water  is  essential  for  seed  development.  Aspidosperma  polyneuron  is  a  native  endangered  species  which  has  been  extensively  exploited,  mainly  for  timber  extraction  purposes.  This  study  analyzed  germination  and  degradation  of  soluble  sugars  and  proteins  of  A.  polyneuron  seeds  during  germination  under  water  stress.  Seeds  were  placed  on  Germitest  papers  moistened  with  different  water  potential  solutions,  varying from 0.0 to -1.4 MPa. Degradation of soluble sugars and soluble proteins was assessed in five stages of germination at the different water potentials. A. polyneuron seeds lost germination capacity as the water potential decreased, being unable to germinate below -0.6 MPa. Glutelin was the most abundant storage protein in the seed, while prolamin was the least. Reserve degradation  was  altered  in  negative  water  potentials.  Soluble  proteins  are  degraded  faster  and  soluble  sugars  are  degraded  slower as the water potential drops.  


Key words:      native species; seed imbibition; soluble proteins; soluble sugars; water potential  a


RESUMO:         Quando  dispersas,  as  sementes  são  expostas  à  diversos  fatores  ambientais,  incluindo  estresses  abióticos,  os  quais irão afetar sua germinação. A seca é o fator mais limitante que afeta a germinação, já que a água é essencial para o desenvolvimento da semente. Aspidosperma polyneuron é uma espécie nativa em perigo de extinção, extensamente explorada para extração madeireira. Este estudo analisou a germinação e degradação de açúcares e proteínas solúveis de A. polyneurondurante  a  germinação  sob  estresse  hídrico.  Sementes  foram  dispostas  em  papéis  Germitest  umedecidos  com  soluções  em  diferentes potenciais hídricos, que variaram de 0,0 à -1,4 MPa. A degradação de açúcares e proteínas solúveis foi avaliada em cinco estágios de germinação nos diferentes potenciais hídricos. Sementes de A. polyneuron perderam capacidade germinativa conforme o potencial hídrico diminuiu, não germinando abaixo de -0,6 MPa. Glutelina foi a proteína de armazenamento mais abundante na semente, enquanto prolamina a menos presente. A degradação de reservas foi alterada em potenciais hídricos negativos, sendo que as proteínas solúveis foram degradadas mais rapidamente e os açúcares mais lentamente conforme o potencial hídrico diminuiu. 


Palavras-chave:       espécie nativa; embebição de sementes; proteínas solúveis; açúcares solúveis; potencial hídri  aESPÉCIE NATIVA  aSEMENTE  aGERMINAÇÃO  aCONDIÇÃO AMBIENTAL  aDEFICIÊNCIA  HÍDRICA0 046569361589dRecife-PE Universidade Federal Rural de Pernambuco 2006o2026-1601tRevista Brasileira de Ciências Agrárias (Brazil)x1981-1160gv. 14(4) p. 1-10; (2019)wBR2026000134  uhttp://www.agraria.pro.br/ojs32/index.php/RBCA/article/view/v14i4a5903/123  cANA  c341406d341406