Home About us Contact
|
Home About us Contact | ||
|
|
||
Sylvestris Seedlings (sylvestri + seedling)
Selected AbstractsMicrobial communities in roots of Pinus sylvestris seedlings with damping-off symptoms in two forest nurseries as determined by ITS1/2 rDNA sequencingFOREST PATHOLOGY, Issue 4 2009H. Kwa Summary A methodological molecular procedure, which included extraction and cloning of the ITS1/2 rDNA of root-associated organisms with subsequent transformation and sequencing of representative clones, was effective for detection, discrimination and determination of the frequency of the main damping-off pathogens in roots of Pinus sylvestris seedlings growing in different forest-tree nursery soils and exhibiting different rates of disease progress. Roots exhibiting slower damping-off progression were colonized by Fusarium oxysporum, Neonectria radicicola (Ascomycota) and Pythium spp. (Oomycota), which comprised 50% of the microbial community. Roots exhibiting faster damping-off progression were dominated by Thanatephorus cucumeris (Basidiomycota), which comprised 80% of the microbial community. The microbial community was more diverse in roots with slower damping-off progression (14 species) than in roots with faster disease progression (seven species). [source] Survival and vitality of Gremmeniella abietina on Pinus sylvestris slash in northern SwedenFOREST PATHOLOGY, Issue 6 2006J. Witzell Summary Survival and vitality of Gremmeniella abietina on Pinus sylvestris slash was studied in northern Sweden during 2003 and 2004. Once a month between September 2003 and April 2004, two to three trees were cut down and debranched. Shoots with pycnidia were sampled at the felling date and then at every consecutive month. The percentage of germinated conidia from each shoot was calculated after 24, 48 and 72 h incubation. The vitality of G. abietina pycnidia in the slash remained high the whole period. Intact pycnidia were found on slash several months after the time of conidial sporulation, which indicates that new pycnidia may be produced on dead pine branches. Sampling of shoots from slash on 13- to 18-month-old clear-cuts showed conidial germination capacity as high as in pycnidia collected in fresh slash. Due to survival of G. abietina in slash it is recommended to postpone planting of P. sylvestris seedlings in northern boreal areas to the third vegetation period after sanitary clear-cuts. Résumé La survie et la vitalité de Gremmeniella abietina dans des rémanents de Pinus sylvestris ont étéétudiées dans le nord de la Suède pendant les années 2003 et 2004. Une fois par mois entre septembre 2003 et avril 2004, 2 ou 3 arbres ont été abattus et ébranchés. Des pousses avec pycnides ont étééchantillonnées à la date d'abattage et les mois suivants. Le pourcentage de conidies germées a été calculé pour chaque pousse après 24, 48 et 72 heures d'incubation. La vitalité des pycnides de G. abietina dans les rémanents est restée élevée tout au long de la période. Des pycnides intactes ont été trouvées dans les rémanents plusieurs mois après la période de sporulation conidienne, ce qui suggère que de nouvelles pycnides peuvent être produites sur des branches mortes de pin. Des échantillonnages de pousses dans des rémanents de coupes rases réalisées 13,18 mois plus tôt ont montré une capacité de germination des conidies aussi élevée que dans les pycnides collectées dans des rémanents fraîchement coupés. Du fait de la survie de G. abietina dans les rémanents, il est conseillé de reporter la plantation des semis de P. sylvestris dans les zones septentrionales boréales à la troisième saison de végétation après les coupes sanitaires. Zusammenfassung Das Überleben und die Vitalität von Gremmeniella abietina auf Schlagabraum von Pinus sylvestris wurde in den Jahren 2003 und 2004 untersucht. Zwischen September 2003 und April 2004 wurden in jedem Monat einmal 2,3 Bäume gefällt und entastet. Zum Zeitpunkt des Fällens und in jedem folgenden Monat wurden Triebe mit Pyknidien gesammelt. Von jedem Trieb wurde die Keimrate der Konidien nach 24, 48 und 72 Stunden Inkubation bestimmt. Während der gesamten Beobachtungsdauer blieb die Vitalität der Pyknidien im Schlagabraum hoch. Mehrere Monate nach der Sporulation wurden intakte Pyknidien gefunden, ein Hinweis darauf, dass möglicherweise neue Pyknidien auf den toten Kiefernzweigen gebildet wurden. Auf dem Schlagabraum von 13,18 Monate alten Kahlschlägen war die Keimfähigkeit der Konidien ähnlich hoch wie bei Pyknidien von frischem Schlagabraum. Aufgrund des langen Überlebens von G. abietina in Schlagabraum wird für die nördlichen borealen Gebiete empfohlen, nach phytosanitären Kahlschlägen P. sylvestris -Sämlinge erst in der dritten Vegetationsperiode zu pflanzen. [source] Mitochondrial respiratory pathways modulate nitrate sensing and nitrogen-dependent regulation of plant architecture in Nicotiana sylvestrisTHE PLANT JOURNAL, Issue 6 2008Till K. Pellny Summary Mitochondrial electron transport pathways exert effects on carbon,nitrogen (C/N) relationships. To examine whether mitochondria,N interactions also influence plant growth and development, we explored the responses of roots and shoots to external N supply in wild-type (WT) Nicotiana sylvestris and the cytoplasmic male sterile II (CMSII) mutant, which has a N-rich phenotype. Root architecture in N. sylvestris seedlings showed classic responses to nitrate and sucrose availability. In contrast, CMSII showed an altered ,nitrate-sensing' phenotype with decreased sensitivity to C and N metabolites. The WT growth phenotype was restored in CMSII seedling roots by high nitrate plus sugars and in shoots by gibberellic acid (GA). Genome-wide cDNA-amplified fragment length polymorphism (AFLP) analysis of leaves from mature plants revealed that only a small subset of transcripts was altered in CMSII. Tissue abscisic acid content was similar in CMSII and WT roots and shoots, and growth responses to zeatin were comparable. However, the abundance of key transcripts associated with GA synthesis was modified both by the availability of N and by the CMSII mutation. The CMSII mutant maintained a much higher shoot/root ratio at low N than WT, whereas no difference was observed at high N. Shoot/root ratios were strikingly correlated with root amines/nitrate ratios, values of <1 being characteristic of high N status. We propose a model in which the amine/nitrate ratio interacts with GA signalling and respiratory pathways to regulate the partitioning of biomass between shoots and roots. [source] | ||||||||||