Search

Your search keyword '"Martorell, Sebastià"' showing total 37 results
Start Over Author "Martorell, Sebastià"
37 results on '"Martorell, Sebastià"'

2. Leaf water potential measurements using the pressure chamber: Synthetic testing of assumptions towards best practices for precision and accuracy

Author

European Commission, Austrian Research Promotion Agency, National Science Foundation (US), Rodríguez Domínguez, Celia M. [0000-0003-2352-0829], Forner, Alicia [0000-0002-7123-6403], Choat, B.[0000-0002-9105-640X], López, Rosana [0000-0003-3553-9148], Peters, J.M.R. [0000-0003-4627-7788], Pfautsch, S. [0000-0002-4390-4195], Carins Murphy, Madeline R. [0000-0003-4370-9485], McAdam, Scott [0000-0002-9625-6750], Richardson, Freya [0000-0003-2460-3423], Díaz-Espejo, Antonio [0000-0002-4711-2494], Hernández Santana, V. [0000-0001-9018-8622], Menezes-Silva, Paulo E. [0000-0002-8122-3489], Torres Ruiz, José Manuel [0000-0003-1367-7056], Sack, Lawren [0000-0002-7009-7202], Rodríguez-Domínguez, Celia M., Forner, Alicia, Martorell, Sebastià, Choat, B., López, Rosana, Peters, J.M.R., Pfautsch, S., Mayr, Stefan, Carins Murphy, Madeline R., McAdam, Scott, Richardson, Freya, Díaz-Espejo, Antonio, Hernández Santana, V., Menezes-Silva, Paulo E., Torres Ruiz, José Manuel, Batz, Timothy A, Sack, Lawren, European Commission, Austrian Research Promotion Agency, National Science Foundation (US), Rodríguez Domínguez, Celia M. [0000-0003-2352-0829], Forner, Alicia [0000-0002-7123-6403], Choat, B.[0000-0002-9105-640X], López, Rosana [0000-0003-3553-9148], Peters, J.M.R. [0000-0003-4627-7788], Pfautsch, S. [0000-0002-4390-4195], Carins Murphy, Madeline R. [0000-0003-4370-9485], McAdam, Scott [0000-0002-9625-6750], Richardson, Freya [0000-0003-2460-3423], Díaz-Espejo, Antonio [0000-0002-4711-2494], Hernández Santana, V. [0000-0001-9018-8622], Menezes-Silva, Paulo E. [0000-0002-8122-3489], Torres Ruiz, José Manuel [0000-0003-1367-7056], Sack, Lawren [0000-0002-7009-7202], Rodríguez-Domínguez, Celia M., Forner, Alicia, Martorell, Sebastià, Choat, B., López, Rosana, Peters, J.M.R., Pfautsch, S., Mayr, Stefan, Carins Murphy, Madeline R., McAdam, Scott, Richardson, Freya, Díaz-Espejo, Antonio, Hernández Santana, V., Menezes-Silva, Paulo E., Torres Ruiz, José Manuel, Batz, Timothy A, and Sack, Lawren

Abstract

eaf water potential (psi(leaf)), typically measured using the pressure chamber, is the most important metric of plant water status, providing high theoretical value and information content for multiple applications in quantifying critical physiological processes including drought responses. Pressure chamber measurements of psi(leaf) (psi(leafPC)) are most typical, yet, the practical complexity of the technique and of the underlying theory has led to ambiguous understanding of the conditions to optimize measurements. Consequently, specific techniques and precautions diversified across the global research community, raising questions of reliability and repeatability. Here, we surveyed specific methods of psi(leafPC) from multiple laboratories, and synthesized experiments testing common assumptions and practices in psi(leafPC) for diverse species: (i) the need for equilibration of previously transpiring leaves; (ii) leaf storage before measurement; (iii) the equilibration of psi(leaf) for leaves on bagged branches of a range of dehydration; (iv) the equilibration of psi(leaf) across the lamina for bagged leaves, and the accuracy of measuring leaves with artificially 'elongated petioles'; (v) the need in psi(leaf) measurements for bagging leaves and high humidity within the chamber; (vi) the need to avoid liquid water on leaf surfaces; (vii) the use of 'pulse' pressurization versus gradual pressurization; and (viii) variation among experimenters in psi(leafPC) determination. Based on our findings we provide a best practice protocol to maximise accuracy, and provide recommendations for ongoing species-specific tests of important assumptions in future studies.

Published
2022

4. Testing assumptions and best practices of using the pressure chamber, or, How I learned to stop worrying and love the bomb

Author

Rodríguez Domínguez, Celia M., Forner, Alicia, Martorell, Sebastià, Choat, B., López, R., Nolf, M., Peters, J.M.R., Pfautsch, S., Mayr, Stefan, McAdam S.A.M., and Sack, Lawren

Abstract

Comunicación oral presentada en UC Davis Pressure Chamber Conference or 'Bombference', a conference on the use of the Scholander pressure chamber in plant research, 27 to 28 September 2018 Davis (California)

Published
2018

5. Testing assumptions and best practices of using the pressure chamber, or, How I learned to stop worrying and love the bomb

Author

Rodríguez-Domínguez, Celia M., Forner, Alicia, Martorell, Sebastià, Choat, B., López, R., Nolf, M., Peters, J.M.R., Pfautsch, S., Mayr, Stefan, McAdam, Scott, Sack, Lawren, Rodríguez-Domínguez, Celia M., Forner, Alicia, Martorell, Sebastià, Choat, B., López, R., Nolf, M., Peters, J.M.R., Pfautsch, S., Mayr, Stefan, McAdam, Scott, and Sack, Lawren

Published
2018

6. Most stomatal closure in woody species under moderate drought can be explained by stomatal responses to leaf turgo

Author

Rodríguez Domínguez, Celia M., Buckley, Thomas N., Egea, Gustavo, Cires, A. de, Hernández Santana, V., Martorell, Sebastià, Díaz-Espejo, Antonio, Ministerio de Ciencia e Innovación (España), European Commission, National Science Foundation (US), Australian Research Council, and Junta de Andalucía

Subjects
Abscisic acid, Stomatal limitation, Process-based model, Water stress, Isohydric, Stomata, Transpiration
Abstract

13 páginas.-- 6 figuras.-- 93 referencias.-- Additional Supporting Informationmay be found in the online version of this article at the publisher’s web-site: http://dx.doi.org/10.1007/01407791, Reduced stomatal conductance (gs) during soil drought in angiosperms may result from effects of leaf turgor on stomata and/or factors that do not directly depend on leaf turgor, including root-derived abscisic acid (ABA) signals. To quantify the roles of leaf turgor-mediated and leaf turgor-independent mechanisms in gs decline during drought, we measured drought responses of gs and water relations in three woody species (almond, grapevine and olive) under a range of conditions designed to generate independent variation in leaf and root turgor, including diurnal variation in evaporative demand and changes in plant hydraulic conductance and leaf osmotic pressure. We then applied these data to a process-based gs model and used a novel method to partition observed declines in gs during drought into contributions from each parameter in the model. Soil drought reduced gs by 63-84% across species, and the model reproduced these changes well (r2=0.91, P, This work was funded by the Spanish Ministry of Science and innovation (research projects AGL2009-11310/AGR and AGL2012-34544/AGR) and co-funded by the FEDER programme. T.N.B. was supported by the National Science Foundation (award # 1146514) and the Australian Research Council (DP150103863 and LP130101183). C.M.R-D. benefited from an FPDI research fellowship from the Junta de Andalucía. We are grateful to A. Montero and A. Perez-Martin for assistance in the field.

Published
2016

8. Study of plutonium redistribution in a raised peat bog following a fire

Author

Universidad de Sevilla. Departamento de Física Aplicada II, SSM (Swedish Radiation Safety Authority), Universitat Politècnica de València through the programme “Programa para la Formación de Personal Investigador (FPI)”, Sáez Muñoz, M., Holm, Elis, Mantero, Juan, Thomas, R., Gibert Martorell, Sebastià, García-Tenorio García-Balmaseda, Rafael, Universidad de Sevilla. Departamento de Física Aplicada II, SSM (Swedish Radiation Safety Authority), Universitat Politècnica de València through the programme “Programa para la Formación de Personal Investigador (FPI)”, Sáez Muñoz, M., Holm, Elis, Mantero, Juan, Thomas, R., Gibert Martorell, Sebastià, and García-Tenorio García-Balmaseda, Rafael

Abstract

Peat lands are archives of past diversity, climate, and other environmental conditions. The redistribution of radionuclides in a peat bog after a fire consists of change in vertical distribution and releases/losses to the atmosphere through evaporation and resuspension. The study of different radionuclides such as plutonium isotopes will be important to understand the radiation exposures to man following fire on contaminated land. In this work, a fast and sequential procedure for uranium, plutonium and americium determination in soil samples is presented. Together with the study of redistribution of uranium and plutonium isotopes in a raised peat bog located in the nature reserve of Vakö Mire (south of Sweden) following a big fire (1992). The procedure is based on the four main steps of any radiochemical procedure: pre-treatment, isolation of radionuclides, source preparation and measurement via alpha spectrometry. The sequential separation of the radionuclides is performed by extraction chromatography, employing UTEVA resin in columns and DGA resin in cartridges. Once the procedure was established, two cores of the Vakö Mire peat bog were studied (one from the burnt area and another from the not affected area). The first 10cm of each core sliced in 1 cm layers were analyzed. The results for plutonium in the burnt core show an increase in the 239+240Pu activity concentration (Bq/m2) at the ash layer, while in the not affected area the concentration slightly increases with depth due to the global fallout. Regarding uranium isotopes, their behaviour in the peat bog is different from plutonium. The non-burnt area presents much higher values of activity concentration than the burnt one due to its higher inorganic content. The fire made this element easily movable via weathering conditions and as results the U content in the burnt core is hardly 10% of the total amount accumulated in the non-burnt area. Moreover, 234U and 238U isotopes were found in secular equilibrium.

Published
2016

9. Most stomatal closure in woody species under moderate drought can be explained by stomatal responses to leaf turgo

Author

Ministerio de Ciencia e Innovación (España), European Commission, National Science Foundation (US), Australian Research Council, Junta de Andalucía, Rodríguez-Domínguez, Celia M., Buckley, Thomas N., Egea, Gustavo, Cires, A. de, Hernández Santana, V., Martorell, Sebastià, Díaz-Espejo, Antonio, Ministerio de Ciencia e Innovación (España), European Commission, National Science Foundation (US), Australian Research Council, Junta de Andalucía, Rodríguez-Domínguez, Celia M., Buckley, Thomas N., Egea, Gustavo, Cires, A. de, Hernández Santana, V., Martorell, Sebastià, and Díaz-Espejo, Antonio

Abstract

Reduced stomatal conductance (gs) during soil drought in angiosperms may result from effects of leaf turgor on stomata and/or factors that do not directly depend on leaf turgor, including root-derived abscisic acid (ABA) signals. To quantify the roles of leaf turgor-mediated and leaf turgor-independent mechanisms in gs decline during drought, we measured drought responses of gs and water relations in three woody species (almond, grapevine and olive) under a range of conditions designed to generate independent variation in leaf and root turgor, including diurnal variation in evaporative demand and changes in plant hydraulic conductance and leaf osmotic pressure. We then applied these data to a process-based gs model and used a novel method to partition observed declines in gs during drought into contributions from each parameter in the model. Soil drought reduced gs by 63-84% across species, and the model reproduced these changes well (r2=0.91, P<0.0001, n=44) despite having only a single fitted parameter. Our analysis concluded that responses mediated by leaf turgor could explain over 87% of the observed decline in gs across species, adding to a growing body of evidence that challenges the root ABA-centric model of stomatal responses to drought.

Published
2016

10. Using whole-plant chambers to estimate carbon and water fluxes in field-grown grapevines

Author

Ministerio de Economía y Competitividad (España), Universidad de Las Islas Baleares, Escalona, José Mariano, Pou, Alicia, Tortosa, Ignacio, Hernández-Montes, Esther, Tomàs, Magdalena, Martorell, Sebastià, Bota, Josefina, Medrano, Hipólito, Ministerio de Economía y Competitividad (España), Universidad de Las Islas Baleares, Escalona, José Mariano, Pou, Alicia, Tortosa, Ignacio, Hernández-Montes, Esther, Tomàs, Magdalena, Martorell, Sebastià, Bota, Josefina, and Medrano, Hipólito

Abstract

There are limited studies available that have investigated the effects of different levels of water supply on the whole-plant gas exchange dynamics. The latter is related to the difficulty in measuring whole-canopy carbon fixation and water consumption, especially in field conditions. Whole-plant chambers can measure these fluxes, therefore the aims of this work were (i) to determine the relationship between whole-plant gas exchange compared to single leaf gas exchange; (ii) to validate whole-canopy chamber measurements using sap flow probes; (iii) to measure the effect of soil water availability on water use efficiency calculated from gas exchange measured using whole-plant chambers. For these purposes, an experiment was carried out during the 2014 season in an experimental vineyard using six-years-old plants of cv. Grenache. Two irrigation regimes were established, moderate irrigation (50 % ETo) and non-irrigation. Carbon fixation and transpiration were measured using whole-plant chambers at veraison and pre-harvest. Simultaneously, leaf gas exchange was measured at different canopy positions during the day in order to compare those measurements with the whole-plant chamber data. In parallel, sap flow measurements were continuously recorded using heat balance probes. Results showed that CO2 fixation measured at noon in sun exposed leaves oriented to the south presented the highest correlation coefficient with whole plant chamber data. Whole-plant transpiration measured with whole-plant chambers was slightly higher compared to the estimated from sap flow data in both irrigated and non-irrigated plants. In general intensive leaf-level measurements do not completely reflect the whole plant physiology, due to variability of leaf to leaf environmental conditions and plant regulation of gas exchange.

Published
2016

11. Rapid hydraulic recovery in Eucalyptus pauciflora after drought: Linkages between stem hydraulics and leaf gas exchange

Author

Martorell, Sebastià, Díaz-Espejo, Antonio, Medrano Gil, Hipólito, Ball, M.C., and Choat, B.

Subjects
Refilling, Cavitation, Water stress, fungi, Embolism, food and beverages, Xylem
Abstract

10 páginas.-- 9 figuras.-- 54 referencias.-- Article first published online: 9 SEP 2013, In woody plants, photosynthetic capacity is closely linked to rates at which the plant hydraulic system can supply water to the leaf surface. Drought-induced embolism can cause sharp declines in xylem hydraulic conductivity that coincide with stomatal closure and reduced photosynthesis. Recovery of photosynthetic capacity after drought is dependent on restored xylem function, although few data exist to elucidate this coordination. We examined the dynamics of leaf gas exchange and xylem function in Eucalyptus pauciflora seedlings exposed to a cycle of severe water stress and recovery after re-watering. Stomatal closure and leaf turgor loss occurred at water potentials that delayed the extensive spread of embolism through the stem xylem. Stem hydraulic conductance recovered to control levels within 6h after re-watering despite a severe drought treatment, suggesting an active mechanism embolism repair. However, stomatal conductance did not recover after 10d of re-watering, effecting tighter control of transpiration post drought. The dynamics of recovery suggest that a combination of hydraulic and non-hydraulic factors influenced stomatal behaviour post drought. Xylem embolism has been identified as one of the principal factors involved in drought associated declines of forest health and primary productivity. We investigated links between leaf gas exchange and hydraulic conductivity in Eucalyptus pauciflora during drought and recovery. Close coordination was observed among leaf gas exchange, leaf tissue water relations and the hydraulic capacity of the stem during the dry down phase. Although almost complete hydraulic failure occurred at a Ψx of -3.0MPa, stem hydraulic capacity was rapidly restored by a xylem refilling mechanism upon re-watering. These results provide crucial information for understanding how linkages between stem and leaf traits influence the recovery of woody plants from drought. © 2013 John Wiley & Sons Ltd., Ministerio de Economia y Competitividad of Spain, AGL2008-04525-C02-01, AGL 30408-C04-0, BES-2009-016906, and FEDER funds.We thank the Australian Research Council for supporting work at ANU (Discovery Project DP110105380).

Published
2014

13. Differences in water-use-efficiency between two Vitis vinifera cultivars (Grenache and Tempranillo) explained by the combined response of stomata to hydraulic and chemical signals during water stress

Author

Martorell, Sebastià, Díaz-Espejo, Antonio, Tomàs, Magdalena, Pou, Alicia, El Aououad, H., Escalona, José Mariano, Vadell, Jaume, Ribas-Carbó, Miquel, Flexas, Jaume, Medrano Gil, Hipólito, Martorell, Sebastià, Díaz-Espejo, Antonio, Tomàs, Magdalena, Pou, Alicia, El Aououad, H., Escalona, José Mariano, Vadell, Jaume, Ribas-Carbó, Miquel, Flexas, Jaume, and Medrano Gil, Hipólito

Abstract

© 2015 Elsevier B.V. Knowledge about regulation of stomatal conductance is necessary to improve grapevine water use efficiency. The vast range of grapevine cultivars may allow choosing the best-performing ones to global changing conditions provided the understanding and characterization of their physiological responses. In this study, a comparison between two cultivars (Tempranillo and Grenache) with different reputation in water use efficiency was performed during two experimental years in field-conditions. Water relations, leaf gas exchange and abscisic acid (ABA) dynamics were measured at different phenological stages along the growing seasons. A clear difference in the regulation of leaf water relations was observed between cultivars under water stress conditions. Specifically, results showed that there is a clear relationship between hydraulic conductance (Kh) and stomatal regulation. However, ABA can exert a differentiating role on stomatal control during different stages within the grapevine growth period. Furthermore, this study showed that differences in osmotic adjustment could lead to substantial differentiation in the stomatal regulation and the leaf water use efficiency.

Published
2015

14. Carbon isotope discrimination and water use efficiency in different cultivars of grapevine

Author

Tomàs, Magdalena, Escalona, José Mariano, Bota, Josefina, Medrano Gil, Hipólito, Martorell, Sebastià, Pou, Alicia, Ribas-Carbó, Miquel, and Flexas, Jaume

Abstract

Póster presentado en el XIX Reunión de la Sociedad Española de Fisiología Vegetal (SEFV) - XII Congreso Hispano-Luso de Fisiología Vegetal, celebrado del 21 al 24 de junio de 2011 en Castellón de la Plana (España)

Published
2011

15. Efecto del estrés hídrico en el balance de carbono en vid

Author

Escalona, José Mariano, Tomàs, Magdalena, Flexas, Jaume, Martorell, Sebastià, and Medrano Gil, Hipólito

Abstract

Trabajo presentado en la XIX Reunión de la Sociedad Española de Fisiología Vegetal, XII Congreso Hispano-Luso, celebrada en Castellón de la Plana, España, en junio de 2011

Published
2011

20. Variability of water use efficiency in grapevines

Author

UCL - SST/ISV - Institut des sciences de la vie, Tomás, Magdalena, Flexas, Jaume, Ribas-Carbó, Miquel, Pou Mir, Alicia, Martorell, Sebastià, Escalona, Jose M., Medrano, Hipólito, UCL - SST/ISV - Institut des sciences de la vie, Tomás, Magdalena, Flexas, Jaume, Ribas-Carbó, Miquel, Pou Mir, Alicia, Martorell, Sebastià, Escalona, Jose M., and Medrano, Hipólito

Abstract

Predictions of climate change indicate an increase in water scarcity in Mediterranean areas. Therefore, improving water use efficiency (WUE) becomes crucial for sustainable viticulture in the Mediterranean for both grapevine growth and fruit productivity. Variability of WUE between cultivars presents an opportunity to select the most appropriate cultivars in viticultural areas with increasing aridity. In this review, an update on the variability of WUE in different grapevine cultivars and environmental conditions is presented. Most studies on WUE are focused at the leaf level and frequently used to estimate whole-plant WUE. However, there are large discrepancies when scaling-up WUE from leaf to whole-plant level. There are several structural and physiological processes, not included in leaf WUE measurements, considered as possible factors to solve the gap between leaf and whole-plant WUE. Canopy structure and plant respiration are described as the most important components involved in whole-plant WUE regulation, and proposed as potential targets for its improvement. © 2013 Elsevier B.V.

Published
2014

21. Stomatal and mesophyll conductances to CO2 in different plant groups: Underrated factors for predicting leaf photosynthesis responses to climate change?

Author

Flexas, Jaume, Carriquí, Marc, Coopman, Rafael E., Gago, Jorge, Galmés, Jeroni, Martorell, Sebastià, Morales, Fermín, Díaz-Espejo, Antonio, Flexas, Jaume, Carriquí, Marc, Coopman, Rafael E., Gago, Jorge, Galmés, Jeroni, Martorell, Sebastià, Morales, Fermín, and Díaz-Espejo, Antonio

Abstract

The climate change conditions predicted for the end of the current century are expected to have an impact on the performance of plants under natural conditions. The variables which are foreseen to have a larger effect are increased CO2 concentration and temperature. Although it is generally considered CO2 assimilation rate could be increased by the increasing levels of CO2, it has been reported in previous studies that acclimation to high CO2 results in reductions of physiological parameters involved in photosynthesis, like the maximum carboxylation rate (Vc,max), stomatal conductance (gs) and mesophyll conductance to CO2 (gm). On the one hand, most of the previous modeling efforts have neglected the potential role played by the acclimation of gm to high CO2 and temperature. On the other hand, the effect of climate change on plant clades other than angiosperms, like ferns, has received little attention, and there are no studies evaluating the potential impact of increasing CO2 and temperature on these species. In this study we predicted responses of several representative species among angiosperms, gymnosperms and ferns to increasing CO2 and temperature. Our results show that species with lower photosynthetic capacity – such as some ferns and gymnosperms – would be proportionally more favored under these foreseen environmental conditions. The main reason for this difference is the lower diffusion limitation imposed by gs and gm in plants having high capacity for photosynthesis among the angiosperms, which reduces the positive effect of increasing CO2. However, this apparent advantage of low-diffusion species would be canceled if the two conductances – gs and gm – acclimate and are down regulated to high CO2, which is basically unknown, especially for gymnosperms and ferns. Hence, for a better understanding of different plant responses to future climate, studies are urged in which the actual photosynthetic response/acclimation to increased CO2 and temperature of fern

Published
2014

22. Is stomatal conductance optimized over both time and space in plant crowns? A field test in grapevine (Vitis vinifera)

Author

Buckley, Thomas N., Martorell, Sebastià, Díaz-Espejo, Antonio, Tomàs, Magdalena, Medrano Gil, Hipólito, Buckley, Thomas N., Martorell, Sebastià, Díaz-Espejo, Antonio, Tomàs, Magdalena, and Medrano Gil, Hipólito

Abstract

Crown carbon gain is maximized for a given total water loss if stomatal conductance (gs) varies such that the marginal carbon product of water (∂A/∂E) remains invariant both over time and among leaves in a plant crown, provided the curvature of assimilation rate (A) versus transpiration rate (E) is negative. We tested this prediction across distinct crown positions in situ for the first time by parameterizing a biophysical model across 14 positions in four grapevine crowns (Vitis vinifera), computing optimal patterns of gs and E over a day and comparing these to the observed patterns. Observed water use was higher than optimal for leaves in the crown interior, but lower than optimal in most other positions. Crown carbon gain was 18% lower under measured gs than under optimal gs. Positive curvature occurred in 39.6% of cases due to low boundary layer conductance (gbw), and optimal gs was zero in 11% of cases because ∂A/∂E was below the target value at all gs. Some conclusions changed if we assumed infinite gbw, but optimal and measured E still diverged systematically in time and space. We conclude that the theory's spatial dimension and assumption of positive curvature require further experimental testing

Published
2014

23. Variability of water use efficiency in grapevines

Author

Ministerio de Educación y Ciencia (España), Ministerio de Ciencia e Innovación (España), Tomàs, Magdalena, Medrano, Hipólito, Escalona, José Mariano, Martorell, Sebastià, Pou, Alicia, Ribas-Carbó, Miquel, Flexas, Jaume, Ministerio de Educación y Ciencia (España), Ministerio de Ciencia e Innovación (España), Tomàs, Magdalena, Medrano, Hipólito, Escalona, José Mariano, Martorell, Sebastià, Pou, Alicia, Ribas-Carbó, Miquel, and Flexas, Jaume

Abstract

Predictions of climate change indicate an increase in water scarcity in Mediterranean areas. Therefore, improving water use efficiency (WUE) becomes crucial for sustainable viticulture in the Mediterranean for both grapevine growth and fruit productivity. Variability of WUE between cultivars presents an opportunity to select the most appropriate cultivars in viticultural areas with increasing aridity. In this review, an update on the variability of WUE in different grapevine cultivars and environmental conditions is presented. Most studies on WUE are focused at the leaf level and frequently used to estimate whole-plant WUE. However, there are large discrepancies when scaling-up WUE from leaf to whole-plant level. There are several structural and physiological processes, not included in leaf WUE measurements, considered as possible factors to solve the gap between leaf and whole-plant WUE. Canopy structure and plant respiration are described as the most important components involved in whole-plant WUE regulation, and proposed as potential targets for its improvement.

Published
2014

26. Edutec : revista electrónica de tecnología educativa

Author

Urbina Ramírez, Santos, Riera Forteza, Bartomeu, Ortego Hernando, José Luis, and Gibert Martorell, Sebastià

Subjects
juego de ordenador, análisis comparativo, rol sexual, conflicto de roles, nuevas tecnologías, objetivo de conducta, comportamiento cultural, sexismo, atribución de roles
Abstract

Resumen tomado del autor La finalidad de este trabajo es analizar la relación entre videojuegos y género. Para ello, en primer lugar se realiza una síntesis de los aspectos más relevantes relacionados con el tema. A continuación se replica una parte del estudio que en 1991 realizó Provenzo, analizando las portadas de distintos videojuegos. En él se ponía de manifiesto la mayor presencia de personajes masculinos, y se ofrecía una imagen más o menos uniformada y reduccionista de los roles de género: una mujer en papeles pasivos, de víctima o seductora, frente a una figura masculina activa, violenta, dominante y resolutiva. Finalmente se comparan los datos procedentes del estudio original con los obtenidos para el presente estudio. Baleares Universitat de les Illes Balears. Redined Illes Balears; Edifici Guillem Cifre de Colonya. Ctra. de Valldemossa, Km 7,5; 07122 Palma; +34971172792; +34971173190; redined.balears@uib.es ESP

Published
2002

27. Average daily light interception determines leaf water use efficiency among different canopy locations in grapevine

Author

Medrano Gil, Hipólito, Pou, Alicia, Tomàs, Magdalena, Martorell, Sebastià, Gulías, Javier, Flexas, Jaume, Escalona, José Mariano, Medrano Gil, Hipólito, Pou, Alicia, Tomàs, Magdalena, Martorell, Sebastià, Gulías, Javier, Flexas, Jaume, and Escalona, José Mariano

Abstract

In Mediterranean areas grapevine water use efficiency (WUE) is becoming an important issue as grapevine production and quality are largely dependent on irrigation, and given the large area of this crop in this region. Under semi-arid conditions, grapevine water consumption rises up to 700. mm/year (rainfall plus irrigation), thus great water amounts are needed for areas typically characterised by water scarcity during grapevine growing season. Therefore, improving WUE is a challenge to secure agriculture sustainability of viticulture in these areas. In the present work we evaluate the variation of leaf WUE over time (diurnal time) and space (at eight canopy positions) under irrigation, moderate and severe water stress in field-grown Tempranillo grapevines. Scaling up from the single leaf to the whole plant WUE values were tested comparing daily integrals of leaf water use efficiency (WUE Di) with midday leaf WUE ones showing a poor relationship, that become poured as water stress increased. To evaluate spatial variations of WUE inside the canopy daily integrals of WUE Di, were determined by leaf gas exchange measurements at eight canopy positions with marked differences in light exposition. Great variations in WUE Di at different canopy locations were mostly determined by the daily integral of light interception with a high regression coefficient for irrigated (0.98) and moderately water stressed plants (0.92), and lower for plants under severe water stress (0.68). This indicates that increased daily PAR interception by the leaf increases WUE Di. Moreover, those data suggest that improvements in whole-plant WUE up to 27% could be achieved by selective thinning of basal (locations 1 and 7) and internal (location 8) leaves of the canopy and that these theoretical benefits would be minor but still significant under water stress. © 2012 Elsevier B.V.

Published
2012

28. The effect of strobilurins on leaf gas exchange, water use efficiency and ABA content in grapevine under field conditions

Author

Díaz-Espejo, Antonio, Cuevas Sánchez, Mª Victoria, Ribas-Carbó, Miquel, Flexas, Jaume, Martorell, Sebastià, Fernández Luque, José Enrique, Díaz-Espejo, Antonio, Cuevas Sánchez, Mª Victoria, Ribas-Carbó, Miquel, Flexas, Jaume, Martorell, Sebastià, and Fernández Luque, José Enrique

Abstract

Strobilurins are one of the most important classes of agricultural fungicides. In addition to their anti-fungal effect, strobilurins have been reported to produce simultaneous effects in plant physiology. This study investigated whether the use of strobilurin fungicide improved water use efficiency in leaves of grapevines grown under field conditions in a Mediterranean climate in southern Spain. Fungicide was applied three times in the vineyard and measurements of leaf gas exchange, plant water status, abscisic acid concentration in sap ([ABA]), and carbon isotope composition in leaves were performed before and after applications. No clear effect on stomatal conductance, leaf water potential and intrinsic water use efficiency was found after three fungicide applications. ABA concentration was observed to increase after fungicide application on the first day, vanishing three days later. Despite this transient effect, evolution of [ABA] matched well with the evolution of leaf carbon isotope ratio, which can be used as a surrogate for plant water use efficiency. Morning stomatal conductance was negatively correlated to [ABA]. Yield was enhanced in strobilurin treated plants, whereas fruit quality remained unaltered.

Published
2012

29. Anisohydric behaviour in grapevines results in better performance under moderate water stress and recovery than isohydric behaviour

Author

Ministerio de Educación y Ciencia (España), Ministerio de Ciencia e Innovación (España), Pou, Alicia, Medrano, Hipólito, Tomàs, Magdalena, Martorell, Sebastià, Ribas-Carbó, Miquel, Flexas, Jaume, Ministerio de Educación y Ciencia (España), Ministerio de Ciencia e Innovación (España), Pou, Alicia, Medrano, Hipólito, Tomàs, Magdalena, Martorell, Sebastià, Ribas-Carbó, Miquel, and Flexas, Jaume

Abstract

Aims Three grapevine varieties original from different climates: Grenache, from Mediterranean origin; Syrah, from mesic origin and Chardonnay, from the humid zone of Burgundy (France) were used to study differential physiological responses to water deficit and sub-sequent recovery after re-watering. Moreover, the effect of the environmental growing conditions on water use efficiency (WUE) was also studied. Methods Changes of the lamina hydraulic conductance (K lamina ), transpiration, photosynthetic CO2 assimilation (A N ), stomatal conductance (g s ), mesophyll conductance to CO2 (g m ), chlorophyll fluorescence, and their interactions with other environmental conditions were followed during prolonged water stress and subsequent re-watering in Chardonnay, Grenache and Syrah. Results Grenache confirmed its reputation as isohydric and Chardonnay as anisohydric, but Syrah, a variety often considered as anisohydric, showed near-isohydric behaviour. Chardonnay displayed higher hydraulic conductance during both irrigation and water stress and a faster recovery after water stress as compared to the two isohydric-behaving varieties. Chardonnay attained lower decreases in stomatal conductance in response to water stress by delaying its adjustment of the lamina hydraulic conductance (K lamina ), which in turn resulted in the maintenance of higher photosynthesis and photosynthetic capacity, favoring faster recovery upon re-watering. The results do not support the common assumption that isohydric behaviour results in a better performance under water stress conditions. Indeed, under moderate water stress, Chardonnay showed some advantages over the two varieties displaying near-isohydric behaviour. Conclusions Integrated over a period including water stress imposition, acclimation and recovery Chardonnay displayed higher CO2 assimilation than Grenache and Syrah, which implies a higher yield potential under these conditions.

Published
2012

35. Estudio comparativo sobre la utilización de periféricos de entrada en la etapa de educación infantil

Author

Urbina Ramírez, Santos, Gibert Martorell, Sebastià, Ortego Hernando, José Luis, Riera Forteza, Bartomeu, Urbina Ramírez, Santos, Gibert Martorell, Sebastià, Ortego Hernando, José Luis, and Riera Forteza, Bartomeu

Abstract

La incorporación creciente del ordenador en las aulas de Educación Infantil, así como la disponibilidad de un cada vez mayor número de programas destinados a este grupo de edad, nos hace plantear algunas cuestiones sobre los diferentes dispositivos de entrada utilizados por los niños. Para intentar aclarar algunas de estas dudas realizamos un estudio en dos aulas de 3 años de un colegio público, comparando la eficacia mostrada en el uso de tres periféricos de entrada: ratón, pantalla táctil y tableta gráfica con lápiz inalámbrico. Los resultados muestran como, en los grupos estudiados, el ratón sigue siendo posiblemente la opción más adecuada., The growing incorporation of the computer at the Early Childhood Education classrooms, as well as the readiness of an every time bigger number of programs dedicated to this age group, makes us outline some questions on the different input devices used by the children. To try to clarify some of these doubts we carry out a study in two 3 years-old classrooms of a public school, comparing the effectiveness shown in the use of three input peripherals: mouse, touch screen and PC tablet with cordless pen. The results show that, in the studied groups, the mouse continues being possibly the most appropriate option.

Published
1999

36. Stomatal and mesophyll conductances to CO2 in different plant groups: Underrated factors for predicting leaf photosynthesis responses to climate change?

Author

Flexas, Jaume, Carriquí, Marc, Coopman, Rafael E., Gago, Jorge, Galmés, Jeroni, Martorell, Sebastià, Morales, Fermín, and Diaz-Espejo, Antonio

Subjects
*MESOPHYLL tissue, *STOMATA, *PHOTOSYNTHESIS, *EFFECT of carbon dioxide on plants, *CLIMATE change, *EFFECT of temperature on plants
Abstract

The climate change conditions predicted for the end of the current century are expected to have an impact on the performance of plants under natural conditions. The variables which are foreseen to have a larger effect are increased CO2 concentration and temperature. Although it is generally considered CO2 assimilation rate could be increased by the increasing levels of CO2, it has been reported in previous studies that acclimation to high CO2 results in reductions of physiological parameters involved in photosynthesis, like the maximum carboxylation rate (Vc,max), stomatal conductance (gs) and mesophyll conductance to CO2 (gm). On the one hand, most of the previous modeling efforts have neglected the potential role played by the acclimation of gm to high CO2 and temperature. On the other hand, the effect of climate change on plant clades other than angiosperms, like ferns, has received little attention, and there are no studies evaluating the potential impact of increasing CO2 and temperature on these species. In this study we predicted responses of several representative species among angiosperms, gymnosperms and ferns to increasing CO2 and temperature. Our results show that species with lower photosynthetic capacity -- such as some ferns and gymnosperms -- would be proportionally more favored under these foreseen environmental conditions. The main reason for this difference is the lower diffusion limitation imposed by gs and gm in plants having high capacity for photosynthesis among the angiosperms, which reduces the positive effect of increasing CO2. However, this apparent advantage of low-diffusion species would be canceled if the two conductances -- gs and gm -- acclimate and are down regulated to high CO2, which is basically unknown, especially for gymnosperms and ferns. Hence, for a better understanding of different plant responses to future climate, studies are urged in which the actual photosynthetic response/acclimation to increased CO2 and temperature of ferns, gymnosperms and other under-evaluated plant groups is assessed. [ABSTRACT FROM AUTHOR]

Published
2014
Full Text
View/download PDF

37. Rapid hydraulic recovery in Eucalyptus pauciflora after drought: linkages between stem hydraulics and leaf gas exchange.

Author

Martorell S, Diaz-Espejo A, Medrano H, Ball MC, and Choat B

Subjects
Carbon Dioxide metabolism, Photosynthesis, Plant Stomata physiology, Pressure, Water, Droughts, Eucalyptus physiology, Gases metabolism, Plant Leaves physiology, Plant Stems physiology
Abstract

In woody plants, photosynthetic capacity is closely linked to rates at which the plant hydraulic system can supply water to the leaf surface. Drought-induced embolism can cause sharp declines in xylem hydraulic conductivity that coincide with stomatal closure and reduced photosynthesis. Recovery of photosynthetic capacity after drought is dependent on restored xylem function, although few data exist to elucidate this coordination. We examined the dynamics of leaf gas exchange and xylem function in Eucalyptus pauciflora seedlings exposed to a cycle of severe water stress and recovery after re-watering. Stomatal closure and leaf turgor loss occurred at water potentials that delayed the extensive spread of embolism through the stem xylem. Stem hydraulic conductance recovered to control levels within 6 h after re-watering despite a severe drought treatment, suggesting an active mechanism embolism repair. However, stomatal conductance did not recover after 10 d of re-watering, effecting tighter control of transpiration post drought. The dynamics of recovery suggest that a combination of hydraulic and non-hydraulic factors influenced stomatal behaviour post drought., (© 2013 John Wiley & Sons Ltd.)

Published
2014
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results