Sara Gonzalez Orenga
@upv.es
Scopus Publications
- Above- and belowground impacts of Spartina patens invasion in mediterranean salt marshes: Ecological insights and management priorities
Adrián Sapiña-Solano, Minerva Silvestre-Bautista, Antonio Lidón, Monica Boscaiu, Oscar Vicente, Sara González-Orenga, Mario X. Ruiz-González
Journal of Environmental Management, 2026
Biological invasions in coastal ecosystems can cause cascading impacts on biodiversity, ecosystem functioning, and restoration success. This study investigates the invasion dynamics of Spartina patens in the salt marshes of the Albufera Natural Park (Spain), focusing on its effects on native plant communities and soil microbial assemblages. We conducted cartographic mapping, vegetation inventories, and soil/root sampling across five marshes. Plant communities were assessed using the Braun-Blanquet method, whereas fungal and bacterial communities were characterised through high-throughput sequencing of the ITS and 16S rDNA regions. Arbuscular mycorrhizal fungi (AMF) presence in roots was quantified microscopically. A two-phase colonisation pattern is suggested: initial establishment along marsh boundaries followed by vegetative expansion into interior zones. This spatial dynamic establishes edge habitats as critical zones for early detection and control. Spartina patens significantly reduced native plant diversity by forming dense, dominant stands that simplified habitat structure and displaced endemic species. While fungal richness remained stable across zones, showed a tendency to be higher at marsh boundaries, likely reflecting environmental variability during early invasion stages. A positive correlation between fungal and bacterial richness suggests a synergistic microbial network contributing to ecosystem processes. Spartina patens showed strong associations with AMF, supporting greater AMF richness than native grasses. These symbioses may enhance its competitive advantage by improving nutrient uptake and stress tolerance, while disrupting native plant-microbe interactions. Our findings underscore the importance of integrating above- and belowground data in invasion ecology. We propose recommendations for early intervention, microbial monitoring, and adaptive restoration planning to support biodiversity and ecosystem resilience. - Tolerance mechanisms and metabolomic profiling of Kosteletzkya pentacarpos in saline environments
Diana-Maria Mircea, Sara González-Orenga, Adela Sánchez-Moreiras, Carla Díaz-Tielas, P.Pablo Ferrer-Gallego, Ricardo Mir, Jaime Prohens, Oscar Vicente, Monica Boscaiu
Plant Stress, 2025
• Kosteletzkya pentacarpos is a moderately salt tolerant species. • Stimulation of absorption and transport of K + is a main response to salinity. • Proline, aspartic acid, and phenolic compounds play a critical role in its salt tolerance. • Salt treatments of plants had a transgenerational priming effect on seeds produced. Kosteletzkya pentacarpos is a halophyte with significant potential for ecological restoration and phytoremediation in saline environments. This study investigated the growth, biochemical responses, metabolomic profiling and seed germination of plants under increasing sodium chloride (NaCl) concentrations from 0 to 0.3 M. Several vegetative growth parameters (plant height and root length, among others) along with some reproductive traits (flower and fruit number, seed production and germination rates), were determined. Treatment with high NaCl concentrations provoked a significant inhibition of growth. Germination tests revealed that seeds were affected by the highest salt concentrations tested, starting with 0.15 M NaCl and that seeds from plants exposed to 0.05 M NaCl exhibited higher germination rates than seeds germinated without salt. Significant alterations in ionic balance were detected, including increased sodium and chloride accumulation and potassium retention. The levels of osmolytes (proline and glycine betaine) and oxidative stress markers (malondialdehyde) increased under salt treatment conditions. A metabolomic profile of K. pentacarpos is presented for the first time, providing key insights into metabolites involved in salinity responses. The metabolomic profiling revealed significant changes in carbohydrates, amino acids, and other metabolites, suggesting metabolic reprogramming to mitigate salinity stress. This study emphasises K. pentacarpos adaptive mechanisms, including osmoprotectant accumulation, ionic regulation and metabolomic adjustments, to tolerate moderate salinity. Understanding these responses is essential for advancing the use of K. pentacarpos in saline agriculture and environmental management. - Biometric and Biochemical Responses to Salt in Solanum dasyphyllum, a Potential Donor of Tolerance for Eggplant
Neus Ortega-Albero, Sara González-Orenga, Oscar Vicente, Adrián Rodríguez-Burruezo, Ana Fita
Horticulturae, 2025
Soil salinity is a major constraint on crop cultivation, affecting millions of hectares of land and increasing drastically worldwide. Identifying sources of tolerance within the crops and their wild relatives is imperative. Recently, Solanum dasyphyllum L. has been identified as source of tolerance to drought for eggplant (S. melongena L.). In this article, the potential use of S. dasyphyllum as a source of tolerance to salinity is investigated through the characterization of young plants’ performance under three salt stress treatments, well water (control), as well as 200 mM and 400 mM NaCl. Biometric parameters such as leaf and radicular biomass, plant height, root length, and biochemical parameters—such as photosynthetic pigments, main ions accumulation, proline, total soluble sugars, malondialdehyde, total phenolics, flavonoids, and antioxidant enzymes’ activity—were quantified. The results showed a certain reduction in leaf and stem plant growth up to 60% in response to extreme salinity, while root biomass was maintained under mid-salt stress. Salt stress caused toxic ions to accumulate in plant organs, up to 1600 mmol g−1 dry weight Na+ and a 2250 mmol g−1 dry weight Cl− in leaves under extreme salinity exposure. However, S. dasyphyllum maintained K+ levels at around 450 mmol g−1 in leaves and roots and 750 mmol g−1 in stems, indicating a mechanism related to ion transport to cope with ion toxicity. The biochemical response indicated osmotic adjustments and antioxidant activity without the need of activating antioxidant enzymes. S. dasyphyllum has proved to be a valuable genetic tool for new eggplant breeding programs regarding salt stress, with somewhat improved performance regarding biometric parameters and ion transport. - Effects of organo-mineral fertilizers containing struvite from liquid digestate on the growth of baby-leaf lettuce and radish
Andrea Burato, Emir Džomba, Senada Čengić-Džomba, Antonios Chrysargyris, Nomiki Kallikazarou, Sara Melito, Daniele Marceddu, Sara González-Orenga, Vittoria Giannini, Maria G. Antoniou, Nikolaos Tzortzakis, Monica Boscaiu, Domenico Ronga
Italian Journal of Agronomy, 2025
Phosphorus (P) is crucial for plant growth, but its deficiency or low availability in soils often limits crop yield. To mitigate this issue, excessive amounts of mineral P fertilizers are commonly applied in intensive cropping systems causing environmental problems. Sustainable fertilizer production may be achieved by recovering waste as sources of nutrients, among which struvite (MgNH 4 PO 4 ·6H 2 O) represents a promising candidate. However, its effectiveness in horticulture is under-researched. Herein, four different waste-derived organo-mineral fertilizers containing struvite, produced in four different countries (Bosnia and Herzegovina, Cyprus, Italy and Spain), were tested on baby leaf lettuce ( Lactuca sativa L.) and radish ( Raphanus sativus L.) grown under greenhouse conditions in each of the four countries. The experiments were laid out as a randomized block design with five treatments: growing medium without fertilizers (T1), growing medium enriched with traditional fertilizers at half and business as usual N-P-K rates (T2 and T3, respectively), and growing medium enriched with organo-mineral fertilizers containing struvite at half and business as usual N-P-K rates (T4 and T5, respectively). Fertilizers were applied only before sowing. Struvite-based fertilizers generally showed no phytotoxic effects on lettuce and radish seedlings. At harvest, unfertilized plants recorded the lowest yield both in lettuce and radish. Compared to traditional ones, struvite-based fertilizers had similar effects on crop height, leaf number, shoot and root biomass. Regardless of fertilizer type, increasing the dose from half to full rate did not always lead to proportional increases in crop growth, harvest index, agronomic efficiency and water productivity. These findings help determine the most effective waste sources for seedling production, laying the foundation for optimizing struvite characteristics. • Organo-mineral fertilizers containing struvite had no phytotoxic effects. • Struvite-based and traditional fertilizers had comparable effects on plant growth. • Increasing fertilizer rate did not proportionally enhance agronomic performance. • Struvite-based fertilizers represent sustainable alternatives for seedling production. - The influence of environment on invasive Carpobrotus sp. populations across genetic clusters
Sara González-Orenga, David López-González, Fabrizio Araniti, Luis González, Adela Maria Sánchez-Moreiras
Plant Physiology and Biochemistry, 2024
The study aims to explore the natural variation in the metabolome of different populations of the invasive plant Carpobrotus from different genetic clusters and geographical origins to enhance our comprehension of its involvement in the adaptation process and phenotypic diversity. The metabolomic profile of shoots was analysed in four populations from two different genetic clusters (Cluster A: Cádiz and A Lanzada; Cluster B: La Marina and Samil) and two different biogeographical regions in Spain (Atlantic: Samil and A Lanzada; Mediterranean: Cádiz and La Marina), collected in the field and subsequently grown in the greenhouse. In addition, climatic, and physiological parameters were analysed. The Mediterranean populations (Cádiz and La Marina) showed lower initial weight and length measurements in morphological parameters than the Atlantic populations. On the contrary, only root parameters showed significant differences in growth parameters among populations. The analysis of ion levels revealed a consistent pattern of higher concentrations in shoots compared to roots, with significant differences among populations, particularly in sodium (Na + ) and chlorides (Cl − ) levels. Regarding metabolomic analysis, clear correlations between the metabolome, genetic and climatic conditions of Carpobrotus sp.pl populations are described. Pairwise comparisons using t -tests and Principal Component Analysis (PCA) indicated that the differences in metabolomic profile between the Samil and La Marina populations, which correspond to the same genetic cluster (cluster B), were smaller than in the rest of the comparisons indicating that populations from the same genetic cluster were more similar metabolically than those from the same climatic region. The study identified key metabolites representative of each cluster, with significant differences in amino acids, organic acids, and sugars contributing to the variation among populations. Pathway analysis highlighted the impact of climatic conditions on metabolic pathways, particularly in populations from Cluster A. In conclusion, the different populations were more similar according to the genetic cluster than to the climatic region of origin when studied at the metabolomic level. Consequently, the metabolites more representative of each cluster were also identified. • Metabolomic differences were evident between the four populations of Carpobrotus. • Populations were more similar according to the genetic cluster than to the climatic region. • The invasive Carpobrotus has strong plasticity to survive under different climatic conditions. • The metabolites more representative of each cluster were identified. - Sarcocornia fruticosa, a Potential Candidate for Saline Agriculture: Antioxidant Levels in Relation to Environmental Conditions in the Eastern Iberian Peninsula
Neus Ortega Albero, Sara Vallejo Sardon, Ioan Lupuţ, Monica Boscaiu, Maria P. Donat-Torres, Ana Fita, Sara González-Orenga
Agriculture Switzerland, 2024
Sustainable crop production requires an innovative approach due to increasing soil salinisation and decreasing freshwater availability. One promising strategy is the domestication of naturally salt-tolerant plant species with commercial potential. Sarcocornia fruticosa is a highly salt-tolerant halophyte, common in Mediterranean marshes, which may hold promise for biosaline agriculture. This study included 11 populations of this species spread over the territory of the Valencian Community in eastern Spain. Climatic data for each locality were obtained from the nearest meteorological stations. Soil analyses included texture, pH, electroconductivity, organic carbon and organic matter. Biochemical analyses on wild-sampled plant material focused on antioxidant compounds, such as carotenoids, phenolics, flavonoids and proline with malondialdehyde (MDA) used as a marker of oxidative stress. All variables (climatic, edaphic and biochemical) were evaluated together using Principal Component Analysis and Spearman correlation. The results obtained indicated some climatic differences in terms of mean annual precipitation, with a clear N-S gradient and considerable edaphic variability. However, none of the environmental conditions showed a clear correlation with plant biochemical characteristics. Significant differences in the levels of phenolic compounds, flavonoids and MDA between populations were probably due to genetic factors and cannot be explained as a response to environmental conditions. - HALOPHYTES: TOOLS FOR RECLAIMING SALINISED AGRICULTURAL LAND
Oscar Vicente, Monica Boscaiu, Sara GONZALEZ-ORENGA
Agrolife Scientific Journal, 2024
The progressive salinisation of irrigated cropland, exacerbated by climate change, is one of the leading causes of the reduction of crop yields worldwide, representing a severe threat to food security. Halophytes, wild plants adapted to naturally saline habitats, represent valuable tools to reclaim lost salinised agricultural land. First, as the basis of "saline agriculture", growing them commercially as "minor crops" for food, feed, fibre, biofuels, compounds of industrial interest, or as ornamental or medicinal plants. They could be cultivated in saline soil and irrigated with saline water, not competing with conventional crops for these limited resources. Some breeding will be necessary to improve specific agronomic characteristics, but they already possess the most challenging trait to be introduced by breeding: salt tolerance. Many halophytes are salt/heavy metal hyperaccumulators and can also be used for phytoremediation and desalination of salt-affected land, even growing them with standard crops (intercropping, crop rotations). The same approaches can be used in naturally saline, marginal soils that are useless for cultivating our salt-sensitive crops. This review will discuss some examples of these proposed uses of halophytes. - Use of a Biostimulant to Mitigate the Effects of Excess Salinity in Soil and Irrigation Water in Tomato Plants
Javier Zuzunaga-Rosas, Sara González-Orenga, Roberta Calone, Raúl Rodríguez-Heredia, Ali Asaff-Torres, Monica Boscaiu, Sara Ibáñez-Asensio, Héctor Moreno-Ramón, Oscar Vicente
Plants, 2023
Global warming is linked to progressive soil salinisation, which reduces crop yields, especially in irrigated farmland on arid and semiarid regions. Therefore, it is necessary to apply sustainable and effective solutions that contribute to enhanced crop salt tolerance. In the present study, we tested the effects of a commercial biostimulant (BALOX®) containing glycine betaine (GB) and polyphenols on the activation of salinity defense mechanisms in tomato. The evaluation of different biometric parameters and the quantification of biochemical markers related to particular stress responses (osmolytes, cations, anions, oxidative stress indicators, and antioxidant enzymes and compounds) was carried out at two phenological stages (vegetative growth and the beginning of reproductive development) and under different salinity conditions (saline and non-saline soil, and irrigation water), using two formulations (different GB concentrations) and two doses of the biostimulant. Once the experiments were completed, the statistical analysis revealed that both formulations and doses of the biostimulant produced very similar effects. The application of BALOX® improved plant growth and photosynthesis and assisted osmotic adjustment in root and leaf cells. The biostimulant effects are mediated by the control of ion transport, reducing the uptake of toxic Na+ and Cl− ions and favoring the accumulation of beneficial K+ and Ca2+ cations, and a significant increase in leaf sugar and GB contents. BALOX® significantly reduced salt-induced oxidative stress and its harmful effects, as evidenced by a decrease in the concentration of oxidative stress biomarkers, such as malondialdehyde and oxygen peroxide, which was accompanied by the reduction of proline and antioxidant compound contents and the specific activity of antioxidant enzymes with respect to the non-treated plants. - CONTROL OF K+ HOMEOSTASIS: AN ESSENTIAL STRESS TOLERANCE MECHANISM IN PLANTS
Oscar VICENTE, Mohamad ALHASSAN, Monica BOSCAIU, Sara GONZALEZ-ORENGA
Agrolife Scientific Journal, 2023
Soil salinity is one of the most critical environmental stressors that reduces crop yields worldwide and affects wild plants distribution in nature. Climate change is increasing the salinity of irrigated cropland and natural saline habitats of high ecological value, highlighting the interest in elucidating salt stress tolerance mechanisms in crops and wild plants. One of the well-known adverse effects of salt is the interference of toxic Na+ ions with K+ uptake and homeostasis, as both cations compete for the same binding sites and transport proteins. Therefore, an increase in substrate salinity is usually accompanied by a reduction of K+ concentrations in the plant organs, as it has been observed in many species, both salt sensitive and tolerant. However, in other plants, K+ contents are maintained or even increase with increasing Na+ concentrations; for example, in some species, K+transport to the leaves is activated at high external salinity to counteract the toxic Na+ effects. This review will present several examples of these mechanisms and their relevance for stress tolerance, based primarily on our group's work during the last 20 years. - Responses to Salt Stress of the Interspecific Hybrid Solanum insanum × Solanum melongena and Its Parental Species
Neus Ortega-Albero, Sara González-Orenga, Oscar Vicente, Adrián Rodríguez-Burruezo, Ana Fita
Plants, 2023
Soil salinity is becoming one of the most critical problems for agriculture in the current climate change scenario. Growth parameters, such as plant height, root length and fresh weight, and several biochemical stress markers (chlorophylls, total flavonoids and proline), have been determined in young plants of Solanum melongena, its wild relative Solanum insanum, and their interspecific hybrid, grown in the presence of 200 and 400 mM of NaCl, and in adult plants in the long-term presence of 80 mM of NaCl, in order to assess their responses to salt stress. Cultivated eggplant showed a relatively high salt tolerance, compared to most common crops, primarily based on the control of ion transport and osmolyte biosynthesis. S. insanum exhibited some specific responses, such as the salt-induced increase in leaf K+ contents (653.8 μmol g−1 dry weight) compared to S. melongena (403 μmol g−1 dry weight) at 400 mM of NaCl. Although there were no substantial differences in growth in the presence of salt, biochemical evidence of a better response to salt stress of the wild relative was detected, such as a higher proline content. The hybrid showed higher tolerance than either of the parents with better growth parameters, such as plant height increment (7.3 cm) and fresh weight (240.4% root fresh weight and 113.3% shoot fresh weight) at intermediate levels of salt stress. For most biochemical variables, the hybrid showed an intermediate behaviour between the two parent species, but for proline it was closer to S. insanum (ca. 2200 μmol g−1 dry weight at 200 mM NaCl). These results show the possibility of developing new salt tolerance varieties in eggplant by introducing genes from S. insanum. - Effect of Recurrent Salt and Drought Stress Treatments on the Endangered Halophyte Limonium angustebracteatum Erben
Roberta Calone, Diana-Maria Mircea, Sara González-Orenga, Monica Boscaiu, Javier Zuzunaga-Rosas, Lorenzo Barbanti, Oscar Vicente
Plants, 2023 - Transgressive Biochemical Response to Water Stress in Interspecific Eggplant Hybrids
Sara González-Orenga, Mariola Plazas, Elvira Ribera, Claudia Pallotti, Monica Boscaiu, Jaime Prohens, Oscar Vicente, Ana Fita
Plants, 2023 - Studies on salt and drought tolerance of endemic and rare species in Valencian salt marshes as a tool for reintroduction programmes
P González-Orenga, Miguel Ferrer, Monica Boşcaiu, Vicente, Oscar, Laguna, E.
Flora Mediterranea, 2022 - Effect of a Biostimulant Based on Polyphenols and Glycine Betaine on Tomato Plants’ Responses to Salt Stress
Javier Zuzunaga-Rosas, Sara González-Orenga, Ana Maria Tofei, Monica Boscaiu, Héctor Moreno-Ramón, Sara Ibáñez-Asensio, Oscar Vicente
Agronomy, 2022 - Are Traditional Lima Bean (Phaseolus lunatus L.) Landraces Valuable to Cope with Climate Change? Effects of Drought on Growth and Biochemical Stress Markers
M. Isabel Martínez-Nieto, Sara González-Orenga, Pilar Soriano, Josefa Prieto-Mossi, Elena Larrea, Antonio Doménech-Carbó, Ana Maria Tofei, Oscar Vicente, Olga Mayoral
Agronomy, 2022 - Constitutive and Adaptive Traits of Environmental Stress Tolerance in the Threatened Halophyte Limonium angustebracteatum Erben (Plumbaginaceae)
Ricardo Mir, I. Romero, Sara González-Orenga, P. Ferrer-Gallego, E. Laguna, M. Boscaiu, L. Oprica, M. Grigore, Ó. Vicente
Plants, 2022 - Recovery from Salinity and Drought Stress in the Perennial Sarcocornia fruticosa vs. the Annual Salicornia europaea and S. veneta
R. Calone, Diana-Maria Mircea, Sara González-Orenga, M. Boscaiu, C. Lambertini, L. Barbanti, Ó. Vicente
Plants, 2022 - Growth and antioxidant responses triggered by water stress in wild relatives of eggplant
M. Plazas, Sara González-Orenga, Huu Trong Nguyen, Irina M. Morar, A. Fita, M. Boscaiu, J. Prohens, Ó. Vicente
Scientia Horticulturae, 2022 - ADAPTABILITY OF INVASIVE PLANTS TO CLIMATE CHANGE
Sara GONZALEZ-ORENGA, Monica BOSCAIU, Mercedes VERDEGUER, Adela M.. SANCHEZ-MOREIRAS, Luis GONZALEZ, Oscar VICENTE
Agrolife Scientific Journal, 2022 - Effect of acetylsalicylic acid and ammonium sulphate on productive and physiological parameters in Stipa caudata under water shortage conditions
J. Molina, Sara González-Orenga, Ó. Vicente, M. Boscaiu, J. Llinares, Francisco Zambrano, C. Santibáñez
Notulae Botanicae Horti Agrobotanici Cluj Napoca, 2022 - Comparative studies on the stress responses of two Bupleurum (Apiaceae) species in support of conservation programmes
Sara González-Orenga, Maria Leandro, Laura Tortajada, M. Grigore, J. Llorens, P. Ferrer-Gallego, E. Laguna, M. Boscaiu, Ó. Vicente
Environmental and Experimental Botany, 2021 - Multidisciplinary studies supporting conservation programmes of two rare, endangered Limonium species from Spain
Sara González-Orenga, M. P. Donat-Torres, J. Llinares, A. Navarro, F. Collado, P. Ferrer-Gallego, E. Laguna, Ó. Vicente, M. Boscaiu
Plant and Soil, 2021 - Responses to salinity in four plantago species from Tunisia
Hela Belhaj Ltaeif, Anis Sakhraoui, Sara González-Orenga, Anbu Landa Faz, M. Boscaiu, Ó. Vicente, S. Rouz
Plants, 2021 - Moderate and severe water stress effects on morphological and biochemical traits in a set of pepino (Solanum muricatum) cultivars
J. Pacheco, M. Plazas, I. Pettinari, A. Landa-Faz, Sara González-Orenga, M. Boscaiu, S. Soler, J. Prohens, Ó. Vicente, P. Gramazio
Scientia Horticulturae, 2021 - Effect of the pesticide endosulfan and two different biostimulants on the stress responses of phaseolus leptostachyus plants grown in a saline soil
Anbu Landa-Faz, Sara González-Orenga, Monica Boscaiu, Refugio Rodríguez-Vázquez, Oscar Vicente
Agronomy, 2021 - Constitutive and induced salt tolerance mechanisms and potential uses of limonium mill. Species
Sara González-Orenga, Marius-Nicusor Grigore, Monica Boscaiu, Oscar Vicente
Agronomy, 2021 - Antioxidant responses to drought and salinity in Lavandula angustifolia Mill
Notulae Botanicae Horti Agrobotanici Cluj Napoca, 2020 - Responses to increased salinity and severe drought in the eastern Iberian endemic species thalictrum maritimum (Ranunculaceae), threatened by climate change
Sara González-Orenga, Calin Trif, M. P. Donat-Torres, J. Llinares, F. Collado, P. Ferrer-Gallego, E. Laguna, M. Boscaiu, Ó. Vicente
Plants, 2020 - Comparative studies on the physiological and biochemical responses to salt stress of eggplant (Solanum melongena) and its rootstock s. torvum
Marco Brenes, Jason Pérez, Sara González-Orenga, Andrea Solana, Monica Boscaiu, Jaime Prohens, Mariola Plazas, Ana Fita, Oscar Vicente
Agriculture Switzerland, 2020 - Physiological and morphological characterisation of Limonium species in their natural habitats: Insights into their abiotic stress responses
Sara González-Orenga, J. Llinares, M. Al Hassan, A. Fita, F. Collado, P. Lisón, Ó. Vicente, M. Boscaiu
Plant and Soil, 2020 - Responses to water deficit and salt stress in silver fir (Abies alba Mill.) seedlings
Irina Maria Todea (Morar), Sara González-Orenga, Monica Boscaiu, Mariola Plazas, Adriana F. Sestras, Jaime Prohens, Oscar Vicente, Radu E. Sestras
Forests, 2020 - Effects of drought and salinity on two commercial varieties of lavandula angustifolia mill
Zsolt Szekely-Varga, Sara González-Orenga, M. Cantor, Denisa Jucan, M. Boscaiu, Ó. Vicente
Plants, 2020 - Insights on salt tolerance of two endemic limonium species from Spain
Sara González-Orenga, P. Ferrer-Gallego, E. Laguna, M. P. López-Gresa, M. P. Donat-Torres, M. Verdeguer, Ó. Vicente, M. Boscaiu
Metabolites, 2019 - Qualitative and quantitative differences in osmolytes accumulation and antioxidant activities in response to water deficit in four mediterranean limonium species
Sara González-Orenga, Mohamad Al Hassan, Josep V. Llinares, Purificación Lisón, M. Pilar López-Gresa, Mercedes Verdeguer, Oscar Vicente, Monica Boscaiu
Plants, 2019 - Comparative analysis of the responses to water stress in eggplant (Solanum melongena) cultivars
Mariola Plazas, Huu Trong Nguyen, Sara González-Orenga, Ana Fita, Oscar Vicente, Jaime Prohens, Monica Boscaiu
Plant Physiology and Biochemistry, 2019 - Responses to drought in seedlings of European larch (Larix decidua Mill.) from several Carpathian provenances
I. Plesa, M. A. Hassan, Sara González-Orenga, A. Sestras, Ó. Vicente, J. Prohens, M. Boscaiu, R. Sestras
Forests, 2019 - Screening for salt and water stress tolerance in fir (Abies alba) populations
Irina M. TODEA (MORAR), Sara GONZÁLEZ-ORENGA, Mariola PLAZAS, Adriana F. SESTRAS, Jaime PROHENS, Oscar VICENTE, Radu E. SESTRAS, Monica BOSCAIU
Notulae Botanicae Horti Agrobotanici Cluj Napoca, 2019 - Effects of drought and Salinity on European Larch (Larix decidua Mill.) seedlings
I. Plesa, Sara González-Orenga, M. A. Hassan, A. Sestras, Ó. Vicente, J. Prohens, R. Sestras, M. Boscaiu
Forests, 2018
