Jaime Puértolas scite author profile

Reduction in plant size and tissue nutrient concentration is widely considered to increase 30 seedling drought resistance in dry and oligotrophic plantation sites. However, much evidence 31 indicates that increase in size and tissue nutrient concentration improves seedling survival in 32 Mediterranean forest plantations. This suggests that the ecophysiological processes and 33 functional attributes relevant for early seedling survival in Mediterranean climate must be 34 reconsidered. We propose a physiological conceptual model for seedling survival in 35 Mediterranean-climate plantations to provide a physiological explanation of the frequent 36 positive relationship between outplanting performance and seedling size and nutrient 37 concentration. The model considers the physiological processes outlined in the plantation 38 establishment model of Burdett (1990), but incorporates other physiological processes that 39 drive seedling survival, such as N remobilization, carbohydrate storage and plant hydraulics.40 The model considers that seedling survival in Mediterranean climates is linked to high growth 41 capacity during the wet season. The model is for container plants and is based on three main 42 principles, 1) Mediterranean climates are not dry the entire year but usually have two 43 seasons of contrasting water availability; 2) summer drought is the main cause of seedling 44 mortality; in this context deep and large roots is a key trait for avoiding lethal water stress; 3) 45 attainment of large root systems in the dry season is promoted when seedlings have high 46 growth during the wet season. High growth is achieved when seedlings can divert large 47 amount of resources to support new root and shoot growth. Functional traits that confer high 48 photosynthesis, nutrient remobilization capacity, and non-structural carbohydrate storage 49 promote high growth. Increases in seedling size and nutrient concentration, strongly affect 50 these physiological processes. Traits that confer high drought resistance are of low value 51 during the wet season because hinder growth capacity. We provide specific evidence to 52 support the model and finally we discuss its implications and the factors that may alter the 53 frequent increase in performance with increase in seedling size and tissue nutrient 54 concentration.

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Facilitation of Quercus ilex in Mediterranean shrubland is explained by both direct and indirect interactions mediated by herbs

Cuesta

et al. 2010

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Summary 1.Competitive and facilitative interactions shape plant communities. Whereas a number of studies have addressed competition and direct facilitation among plants in dry ecosystems, indirect facilitation has received little attention. 2. We investigated the relative importance of direct and indirect facilitation by the nurse plant Retama sphaerocarpa on late-successional Quercus ilex seedlings mediated by herb suppression in a Mediterranean shrubland in 2006 and 2007. We also studied whether facilitation outcome depended on the size of the facilitated seedlings. 3. A field experiment was carried out to test the effect of (i) position of Q. ilex seedling with respect to shrub canopy (under shrubs or in gaps), (ii) herb competition (presence or absence), and (iii) seedling size. 2006 was an average rainfall year while 2007 had a much more humid spring and a dryer summer than 2006. 4. In both years, nurse shrubs reduced seedling mortality whereas herbs increased it. In the average rainfall year, seedling mortality under shrubs was unaffected by herbs whereas in gaps it was significantly higher in presence of herbs. This showed that the nurse shrub indirectly facilitated the seedlings by reducing the competitive capacity of herbs. Conversely, facilitation was predominately direct during the humid spring and dry summer year since herbs hindered seedling survival similarly under the nurse shrub and in gaps. The nurse shrub directly facilitated the seedlings by reducing seedling photoinhibition and water stress. 5. Improvement of environmental conditions by Retama benefited smaller seedlings but not larger seedlings since the nurse shrub reduced mortality of smaller seedlings relative to that in gaps, but this effect was not observed for larger seedlings. This indicates that individuals within a seedling population may not have the same response to facilitation. 6. Synthesis. Both indirect and direct facilitation are important mechanisms for Q. ilex regeneration in Retama shrubland and their importance seems to vary with climatic conditions. Indirect facilitation by release of herb competition under nurse shrubs is important in years of dry springs when competition between nurse shrubs and herbs is high, whereas direct facilitation mediated by microclimate amelioration increases with summer aridity.

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Why do large, nitrogen rich seedlings better resist stressful transplanting conditions? A physiological analysis in two functionally contrasting Mediterranean forest species

Cuesta

Villar-Salvador

Puértolas

et al. 2010

Forest Ecology and Management

112

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Significance of root hairs for plant performance under contrasting field conditions and water deficit

Marín

Feeney

Brown

et al. 2020

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Background and Aims Previous laboratory studies have suggested selection for root hair traits in future crop breeding to improve resource use efficiency and stress tolerance. However, data on the interplay between root hairs and open-field systems, under contrasting soils and climate conditions, are limited. As such, this study aims to experimentally elucidate some of the impacts that root hairs have on plant performance on a field scale. Methods A field experiment was set up in Scotland for two consecutive years, under contrasting climate conditions and different soil textures (i.e. clay loam vs. sandy loam). Five barley (Hordeum vulgare) genotypes exhibiting variation in root hair length and density were used in the study. Root hair length, density and rhizosheath weight were measured at several growth stages, as well as shoot biomass, plant water status, shoot phosphorus (P) accumulation and grain yield. Key Results Measurements of root hair density, length and its correlation with rhizosheath weight highlighted trait robustness in the field under variable environmental conditions, although significant variations were found between soil textures as the growing season progressed. Root hairs did not confer a notable advantage to barley under optimal conditions, but under soil water deficit root hairs enhanced plant water status and stress tolerance resulting in less negative leaf water potential and lower leaf abscisic acid concentration, while promoting shoot P accumulation. Furthermore, the presence of root hairs did not decrease yield under optimal conditions, while root hairs enhanced yield stability under drought. Conclusions Selecting for beneficial root hair traits can enhance yield stability without diminishing yield potential, overcoming the breeder’s dilemma of trying to simultaneously enhance both productivity and resilience. Therefore, the maintenance or enhancement of root hairs can represent a key trait for breeding the next generation of crops for improved drought tolerance in relation to climate change.

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