Seed mass versus seedling performance in Scots pine: a maternally dependent trait

It is generally accepted that larger seeds give rise to seedlings with better performance. On the other hand, the size that a seed reaches is genetically determined by at least two different traits ; the genetic variability of the developing embryo and the genetic variability of the maternal plant. Thus, the relative contributions of these two traits affect seedling performance by influencing seed size. In this paper, I investigate the effect of seed size on seedling performance in the Scots pine ( Pinus sylvestris ). From eight maternal plants, 50 seeds were planted in each of two soil types (800 seeds in total), and seedling performance was monitored for 1 yr. Seed mass proved to be highly constant within maternal plants. Soil type influenced emergence and survival; however, the effect of soil type differed depending on maternal origin. Seed mass was positively correlated with seedling emergence, although this relationship was not found for seedling survival or date of emergence. The initial growth of the shoot was also positively correlated with seed mass. However, after one growing season, seed mass had no effect on seedling performance, which depended exclusively on maternal origin. Nevertheless, the mean mass of seeds produced by plants was positively correlated with mean values of growth parameters. Thus, first-year seedling performance seems to be a maternal trait indirectly associated with seed size.     

Proline Accumulation as a Symptom of Drought Stress in Maize: A Tissue Differentiation Requirement

Ibarra-Caballero, J., Villanueva-Verduzco, C., Molina-Galan,J. and Sanchez-de-Jimenez, E. 1988. Proline accumulation asa symptom of drought stress in maize: a tissue differentiationrequirement.—J. exp. Bot. 39: 889–897. Seedlings and callus tissue of maize (Zea mays L.) were testedfor proline accumulation under drought stress. A variety froma tropical humid region, a semi-desertic variety and its improvedpopulation selected for drought stress resistance, were usedfor this study. Proline accumulation was found in green leaves of maize seedlingsunder drought stress; no correlation was found between prolineaccumulation in leaves and the variety or population tested.White tissue, callus and leaves of etiolated seedlings did notshow this response to drought stress, nor did green callus ordetached leaves (green or etiolated), even when stress causeda loss of water from leaves similar to that observed when wholeseedlings were drought-stressed. Addition of abscisic acid togreen or white tissue did not result in proline accumulation.The above data indicate that proline accumulation caused bydrought stress does not seem to be an indication of droughtstress resistance, but rather a symptom of it. For this accumulationto take place it seems that fully organized chloroplasts arerequired as well as the systemic development of the plant. Key words: Proline, maize, drought-stress     

Differential Inhibition of Shootvs.Root Growth at Low Temperature and its Relationship with Carbohydrate Accumulation in Different Wheat Cultivars

Shoot and root growth rate, carbohydrate accumulation (includingfructan), reducing sugar content and dry matter percentage weremeasured in six wheat cultivars, ranging from winter to springtypes, grown at either 5 or 25 °C. At 5 °C (comparedwith 25 °C), the relative growth rate (RGR) of shoots wassimilarly reduced in all cultivars, but the RGR of shoots wasmore affected in winter wheats. This difference resulted insmaller root:shoot ratios than in spring wheats, which alsodeveloped more first-order lateral roots. A direct relationshipbetween carbohydrate accumulation at low temperatures and reductionin root growth was established. These results suggest that differentialshootvs.root growth inhibition at low temperature may play akey role in carbohydrate accumulation at chilling temperatures.This differential response might lead to improvements in survivalat temperatures below 0 °C, regrowth during spring, andwater and nutrient absorption at low temperatures.Copyright1997 Annals of Botany Company Wheat; Triticum aestivum; low temperatures; root growth; root: shoot ratio; sugar accumulation