Phase change-related variations of dome shape in Eucalyptus urophylla x Eucalyptus grandis shoot apical meristems

International audienceShoot apical meristem (SAM) domes derived from five different outdoor and in vitro sources of juvenile and mature Eucalyptus urophylla x Eucalyptus grandis akin genotypes were compared. Overall measurements of SAM dome height H and diameter D ranged from 2 to 35 µm and 20 to 80 µm, notwithstanding significant differences according to the various physiological origins of plant material investigated. SAM domes from the mature trees ?Mat? were taller than those from the rejuvenated ministock plants ?Rej?; from the in vitro microcuttings ?IVM? of the same clone, and also from the in vitro juvenile seedlings ?IVJ?, whereas outdoor seedlings ?Juv? SAM domes exhibited intermediate height. SAM domes from the rejuvenated material ?Rej?, from the in vitro mature ?IVM? and juvenile ?IVJ? origins were also narrower than those from the outdoor seedlings ?Juv? and to lesser extent than those from the mature trees ?Mat?. Overall the mature source ?Mat? displayed bigger and somehow sharper hemispherical domes than those from ?Rej? and ?Juv?, physiologically more juvenile, or those from the in vitro origins ?IVM ? and ?IVJ? which looked flatter and smaller. SAM dome height, diameter D and H/D values varied also significantly according to shoot apex status. More specifically, H, D and H/D SAM differences between the five origins were not significant when SAM were in their more organogenic stage, to become more salient as leaf structures started to elongate and to differentiate. This was particularly obvious for mature tree ?Mat? SAM dome shapes which showed at this stage much higher H/D values than the other SAM sources. Additionally, a shape index S used for characterizing more accurately dome shape confirmed these trends. These observations provide additional arguments to the view that juvenility in trees become more and more time and space restricted as ageing increases in the course of time during the ontogenetical process, to be ultimately confined to the more organogenic phases of SAM, from which shoot characteristics derive

Anatomía comparada de plantas de Dioscorea alata L. clon Caraqueño cultivadas en tres ambientes de crecimiento in vitro

La conservación in vitro de Dioscorea alata L. clon Caraqueño es fundamental para garantizar la propagación y distribución de material de plantación sano a los productores, y disponer de un banco in vitro de un clon de gran valor agronómico y comercial en la región oriental de Cuba. Con el fin de evaluar las modificaciones anatómicas que se producen en plantas de ñame en tres condiciones de cultivo in vitro: plantas conservadas por métodos de mínimo crecimiento, plantas regeneradas y plantas en fase de multiplicación en el medio MS 75 %, se realizó un análisis de la anatomía foliar y caulinar a partir de cortes transversales de la lámina foliar y del tallo, y cortes longitudinales y transversales de microtubérculos formados durante el proceso de conservación. Las hojas de las plantas conservadas mostraron menor espesor del mesófilo y la epidermis y el área de los haces conductores del tallo también fue menor, debido al proceso de stress durante la conservación in vitro. Sin embargo, durante la recuperación del material conservado a través de la regeneración y la multiplicación in vitro se restablecieron de manera normal estos parámetros. También se evidenció que los microtubérculos formados en la conservación in vitro, poseen parénquima amilífero con abundantes gránulos de almidón, capa delgada de parénquima cortical, y haces conductores poco desarrollados, todo lo cual indica la presencia de actividad meristemática.Palabras clave: caracterización anatómica, conservación in vitro, microtubérculos, ñame, segmentos nodalesThe in vitro conservation of Dioscorea alata L. clone Caraqueño is fundamental to guarantee the propagation and distribution of healthy plantation material to the farmers and the establishment of one in vitro bank of this clone of great agronomic and commercial value in the Oriental Region of Cuba. With the purpose of evaluating the anatomical modifications that take place in yam plants under three in vitro culture conditions: conserved plants by slow growth, regenerated plants and in plants multiplication phase in MS 75% medium, was carried out an analysis of the foliar and caulinar anatomy from transversal cuts of the foliar sheet and of the stem, and longitudinal and transversal cuts of microtubers formed during the conservation process. Smaller thickness of the mesophyll and of the epidermis in the leaves of the conserved plants were showed and the conductive sheaves area of the stem were also smaller, due to the stress process during the in vitro conservation. However during the recovery of the conserved material through the regeneration and the in vitro multiplication were reestablished to their normal state these parameters. It was also evidenced that the microtubers formed in the in vitro conservation, have reserve parenchyma with abundant starch granules, thin cortical parenchyma and conductive sheaves little developed were determined. All this characteristics indicated the presence of meristematic activity.Key words: Anatomical characterization; In vitro conservation; In vitro tubers; Nodal cutting; Ya

Characteristics of Acacia mangium shoot apical meristems in natural and in vitro conditions in relation to heteroblasty

PDF version of the authors can be published in January 2013International audienceMorphological and histocytological characteristics of Acacia mangium shoot apical meristems (SAMs) were assessed in natural and in vitro conditions in relation to heteroblasty. In the natural environment, SAMs with a mature-phyllode morphology were much bigger, contained more cells with larger vacuolated area, or vacuome, and lower nucleoplasmic ratios than those from the juvenile type (Juv). In these latter, nuclei appeared more voluminous, evenly and lightly stained, with clearly distinguishable nucleolei and less abundant chromocenters. In vitro, where reversions from mature to juvenile morphological traits do occur unpredictably, heteroblasty was less obvious in the SAM characteristics examined. In vitro SAMs corresponding to the juvenile and mature types showed similarities with outdoor Juv SAMs, but could be distinguished from these latter by a much larger vacuome that might be induced by the culture conditions. These findings encourage pursuing the investigations at the chromatin and nucleolus level in SAM zones where heteroblasty-related differences have been detected