Reaction of some rapeseed (Brassica napus L.) genotypes to different drought stress levels during germination and seedling growth stages☆

Drought is a major abiotic stress that affects seed germination and plant growth in arid and semi-arid regions. Rapeseed is an oilseed crop adapted to Mediterranean area; however, it is reported that it is sensitive to water stress occurring during seed germination. In this study, we investigated how seed germination and early seedling growth of six rapeseed genotypes were influenced by different water stress levels. In addition to the control (absence of drought stress), three drought levels were simulated using three osmotic potentials of polyethylene glycol (PEG-6000), −9, −10 and −11 bars. A completely randomized design with three replications was used for this experiment. Germination percentage (GP), shoot length (SL), root length (RL), shoot elongation rate (SER) and root elongation rate (RER) were determined to evaluate the genotypes response to PEG-induced drought stress. Results showed drought stress, genotype and interaction stress × genotype had a significant effect on the studied parameters. GP decreased with the increase in stress level. The genotype ‛Nap9’ was the most interesting, having the highest GP values, namely 63.33, 62.67 and 28% under the stress levels −9, −10 and −11 bars, respectively. The genotype ‛H2M-5’, which ranked second with respect to this parameter, was statistically comparable to ‛Nap9’. Also, SL, RL, SER and RER decreased with the increase in drought stress level. However, the studied genotypes reacted differently to various water stress levels. Once again, the genotype ‛H2M-5’ exhibited the highest average RL and RER under all drought levels. Particularly, for severe drought conditions (−11 bars), ‛H2M-5’ had an average RL of 1.54 cm and RER of 0.36 cm/d. Field evaluation under controlled conditions is needed to confirm findings of the present experiment. The mutant ‛H2M-5’ could be a valuable and promising germplasm for developing a performant and adapted variety to be designed for harsh environments particularly characterized by early drought coinciding with germination and seedling growth stages

Germination and Seedling Growth of a Set of Rapeseed (Brassica napus) Varieties under Drought Stress Conditions

Drought stress is one of the major abiotic factors affecting seed germination and plant growth especially in arid and semi-arid regions. In this study, we investigated the effects of drought stress on seed germination and seedling growth of five varieties of rapeseed. Seven drought stress levels of zero (control), -3, -5, -7, -9, -11 and -13 bars were performed using polyethylene glycol-6000 (PEG-6000). A completely randomized design with three replications was used for this experiment. Germination percentage (GP), germination rate (GR), mean germination time (MGT), root length (RL) and shoot length (SL) were measured to evaluate the varieties response to PEG-induced drought stress. Drought stress, variety and the interaction drought × variety had a significant effect on all studied parameters. GP and GR decreased with the increase in stress level, while MGT increased. There were no seeds germinated for all varieties at -11 bars and -13 bars. Shoot length decreased with increasing drought stress but different varieties show different performance under stress environment. Root length decreased with increasing level of severe drought stress. However, the presence of moderate drought stress could even improve the root growth of the investigated varieties. The varieties ‘INRA-CZH2' and ‘INRA-CZH3' exhibited the highest germination percentage and the best early seedling growth. Thus, they could be recommended for environments with early cropping cycle drought

Genetic relationship and diversity among some Moroccan and introduced rapeseed (Brassica napus L.) varieties as revealed by molecular markers☆

Rapeseed (Brassica napus L.) crop can be a lever for the development of oilseed sector in Morocco due to its adaptation to local conditions and its major economic and food importance. Genetic diversity and selection of valuable crossing parents are the key to successful breeding and improvement of this crop. In this regard, genetic variation within the existing germplasm must be explored and characterized. Therefore, the present study was carried out to investigate the genetic diversity among 22 varieties from Morocco as well as other origins, using twenty ISSR primers. The selected primers have generated a total of 319 markers. Polymorphic amplified bands varied from 8 to18, with an average of 13 per primer. The diversity index (PIC value) ranged from 0.295 to 0.509, with a mean value of 0.37 per primer, indicating a good genetic diversity level for the primers used. The average similarity coefficient was 0.31, fluctuating between 0.176 and 0.456, and the pairwise comparison of the studied varieties showed a great discriminating power of primers and a large genetic diversity among accessions. A total of eight ISSR primers could be identified as key to rapeseed varietal determination. Hierarchical classification allowed identifying three groups with some phylogeographic structuring. This is the first report of molecular characterization of rapeseed germplasm in Morocco and Africa. The obtained results have important implications for management of this germplasm to conserve the existing genetic diversity and use it properly in breeding programs in Morocco as well as in other Mediterranean and African countries

Exploring mechanisms of drought-tolerance and adaptation of selected sesame mutant lines

Sesame (Sesamum indicum L.) is an important oilseed crop, but its productivity and quality are often compromised by drought stress. Developing drought-resistant sesame varieties is thus crucial for its sustainable cultivation. In this study, we conducted a comprehensive investigation of morphoanatomical and physiochemical mechanisms underlying drought tolerance in selected sesame mutants. The drought-tolerant mutants ‘ML2-37’ and ‘ML2-72’ were compared to the susceptible mutant ‘US1-2’ and the parental cultivar ‘ML13’ under controlled greenhouse conditions. Our results showed that the tolerant mutants exhibited superior performance in response to drought stress. We identified specific adaptation mechanisms, including accumulation of proline, glycine, and cuticular wax, which contribute to maintaining optimal water status. Additionally, the tolerant mutants showed a significant reduction in the number and diameter of the xylem vessels, even under severe stress. These results open up good perspectives for the development of drought-resistant sesame varieties, thus offering a promising solution to improve agricultural productivity in regions affected by increasing water scarcity in the actual context of climate change. The selection indices proposed in this study provide practical tools to identify and develop sesame germplasm and cultivars adapted to drought stress conditions. This work constitutes a significant contribution to research on drought tolerance in sesame and offers promising prospects for sustainable agriculture in the context of global climate change

Evaluation of rapeseed (Brassica napus L.) genotypes for tolerance to PEG (polyethylene glycol) induced drought at germination and early seedling growth

Rapeseed (Brassica napus L.) is an important oilseed crop well adapted to Mediterranean area. However, increasing drought, due to climate change, impairs its growth and development, mainly when this stress occurs early during germination. This study carried out in vitro conditions aimed to investigate the effect of water deficit on seed germination and seedling growth traits in 12 genotypes to select the most drought-tolerant ones. Drought conditions were created using polyethylene glycol 6000 to induce three osmotic potential levels, namely −0.7 MPa for moderate stress, −0.9 MPa for intermediate stress, and −1.1 MPa for severe stress. Germination percentage (GP), germination rate (GR), mean germination time (MGT), root length (RL), shoot length (SL), root-to-shoot ratio (RSR), seedling vigor index (SVI), shoot elongation rate (SER), and root elongation rate (RER) were measured/calculated. ANOVA and PCA were performed to analyze the data gathered. Results showed a significant effect of genotype, drought, and drought × genotype interaction on all studied parameters. Under severe drought conditions, overall values of GP, GR, RL, SL, SER, RER, and SVI decreased by 87.15 %, 53.29 %, 9.33 %, 4.73 %, 78 %, 82 %, and 96 %, respectively, while those of MGT and RSR increased by 56 % and 76 %, respectively, when compared to unstressed conditions. However, the genotypes studied reacted differently to the three levels of water stress. Based on PCA results, RL, RER, and GP proved to be the most discriminating of drought-tolerant genotypes. Overall, higher drought tolerance was associated with higher values in RL, SL, and SVI. Accordingly, the variety ‘Nap10’ and, to a lesser extent, ‘Baraka’ and ‘Nap9’ exhibited higher drought tolerance than the rest of genotypes, which makes them potential cultivars for dry areas. However, further studies in real field conditions are needed to confirm their tolerance to drought occurring at germination as well as during other stages, mainly flowering

Tocoferoles y fitoesteroles en semillas de girasol para consumo directo

[EN] Sunflower seeds for the human food market are derived from both oilseed-type cultivars, with black achenes and low hull proportion, and confectionery-type cultivars, with striped achenes and high hull proportion. The objective of this research was to evaluate tocopherol and phytosterol contents in the seeds of both types of cultivars. Five oilseed-type and seven confectionery-type cultivars were evaluated in replicated field trials in two locations of Morocco and Spain. Large variations were found in hundred-kernel weight (2.6 to 5.5 g), kernel oil content (42.7 to 67.5%), tocopherol content (203 to 397 mg kg -1 kernel), and phytosterol content (2179 to 3555 mg kg -1 kernel). Both types of cultivars did not differ for kernel weight, kernel oil content, or tocopherol and phytosterol profiles. However, oilseed-type cultivars had significantly greater average tocopherol and phytosterol contents, though confectionery-type cultivars with levels of tocopherols and phytosterols similar to the best oilseed-type cultivars were identified. The large variations in kernel tocopherol and phytosterol contents found in this research suggest that there is room for breeding for increased levels of these compounds in order to develop healthier sunflower cultivars for the human food market.[ES] Las semillas de girasol para consumo directo proceden tanto de cultivares oleaginosos, con aquenios negros y baja proporción de cáscara, como de cultivares de consumo di - recto, con aquenios de colores claros o rayados y elevada proporción de cáscara. El objetivo de este trabajo fue evaluar el contenido en tocoferoles y fitoesteroles en semillas de am - bos tipos de cultivares. Se evaluaron cinco cultivares oleagi - nosos y siete cultivares de consumo directo en ensayos de campo replicados en dos localidades de Marruecos y Espa - ña. Se identificó gran variación para peso de 100 semillas (aquenios descascarillados; 2.6 a 5.5 g), contenido en aceite en la semilla (42.7 a 67.5%), contenido en tocoferoles (203 a 397 mg kg –1 semilla), y contenido en fitoesteroles (2179 a 3555 mg kg –1 semilla). No se observaron diferencias entre ambos tipos de cultivares para peso de semilla, contenido de aceite en la semilla, o perfiles de tocoferoles y fitoesteroles. Sin embargo, los cultivares oleaginosos presentaron mayor contenido medio de tocoferoles y fitoesteroles, aunque se identificaron cultivares de consumo directo con niveles de estos compuestos similares a los mejores cultivares oleagi - nosos. La gran variación encontrada para contenido en toco - feroles y fitoesteroles sugiere la posibilidad de elevar los ni - veles de estos compuestos mediante mejora genética con el objetivo de desarrollar cultivares de girasol de consumo di - recto más saludables.The research was partially supported by the Consejo Superior de Investigaciones Científicas (CSIC), Spain and Centre National pour la Recherche Scientifique et Technique (CNRST), Morocco, project number 2007MA0059.Peer Reviewe

Reaction of some rapeseed (

Drought is a major abiotic stress that affects seed germination and plant growth in arid and semi-arid regions. Rapeseed is an oilseed crop adapted to Mediterranean area; however, it is reported that it is sensitive to water stress occurring during seed germination. In this study, we investigated how seed germination and early seedling growth of six rapeseed genotypes were influenced by different water stress levels. In addition to the control (absence of drought stress), three drought levels were simulated using three osmotic potentials of polyethylene glycol (PEG-6000), −9, −10 and −11 bars. A completely randomized design with three replications was used for this experiment. Germination percentage (GP), shoot length (SL), root length (RL), shoot elongation rate (SER) and root elongation rate (RER) were determined to evaluate the genotypes response to PEG-induced drought stress. Results showed drought stress, genotype and interaction stress × genotype had a significant effect on the studied parameters. GP decreased with the increase in stress level. The genotype ‛Nap9’ was the most interesting, having the highest GP values, namely 63.33, 62.67 and 28% under the stress levels −9, −10 and −11 bars, respectively. The genotype ‛H2M-5’, which ranked second with respect to this parameter, was statistically comparable to ‛Nap9’. Also, SL, RL, SER and RER decreased with the increase in drought stress level. However, the studied genotypes reacted differently to various water stress levels. Once again, the genotype ‛H2M-5’ exhibited the highest average RL and RER under all drought levels. Particularly, for severe drought conditions (−11 bars), ‛H2M-5’ had an average RL of 1.54 cm and RER of 0.36 cm/d. Field evaluation under controlled conditions is needed to confirm findings of the present experiment. The mutant ‛H2M-5’ could be a valuable and promising germplasm for developing a performant and adapted variety to be designed for harsh environments particularly characterized by early drought coinciding with germination and seedling growth stages

Seed yield, physiological and biochemical attributes in canola (Brassica napus L.) as influenced by tillage system and cropping season

Canola is an important oilseed crop and its performance was influenced by tillage system. However, no study on this influence has been carried out in North Africa. Also, the effect of tillage system on physiological and biochemical traits in canola has never been investigated. Therefore, the objective of this study was to evaluate the effect of tillage system on agronomic, physiological, and biochemical traits in canola during two cropping seasons (2019/2020 (Y1) and 2020/2021 (Y2)) under Moroccan conditions. The experiment was conducted according to a complete random block design with three replications and the tillage systems studied were deep ploughing (DP), chisel ploughing (CP), minimum till (MT), and no-till (NT). Over both seasons, tillage significantly affected all traits except for proline content. Notably, NT consistently exhibited superior performance with the highest seed yield (272 kg ha−1 in Y1, 1760 kg ha−1 in Y2) and oil content (36 % in Y1, 44 % in Y2). In contrast, DP faced challenges during severe drought in Y1, resulting in no production. On the other hand, in Y2, DP showed the highest stomatal conductance and sugars content, while NT exhibited the highest chlorophyll content. Considering these findings, no-till can be recommended for canola cultivation in Morocco as well as in other North-African and Mediterranean countries with similar climate and soil conditions

Aceite de semilla de mostaza etiope con alto contenido en ácido linolénico

Referencia OEPM: P200301617.-- Fecha de solicitud: 04/07/2003.-- Titular: Consejo Superior de Investigaciones Científicas (CSIC).Aceite de semilla de mostaza etiope con alto contenido en ácido linolénico. Aceite vegetal obtenido de semillas de mostaza etíope (Brassica carinata) modificadas mediante un proceso de mejora genética convencional. Este aceite carece de ácido erúcico y presenta un elevado contenido en ácido linolénico, lo que le confiere propiedades de aceite secante de gran valor en la fabricación de tintas, barnices, pinturas, lacas, etc., así como en la industria oleoquímica.Peer reviewe

Performance and seed quality of Moroccan sunflower varieties and Spanish landraces used for confectionery and snack food

Sunflower seeds are one of the most important sources of vegetable oil in the world. Additionally, they are used for confectionery and snack food, as well as for bird and pet food. Sunflower germplasm used for food differs between Morocco and Spain. Whereas sunflower seeds used for food in Morocco are mainly obtained from oilseed-type cultivars with black achenes and low hull proportion, those used in Spain derive from confectionery-type cultivars with black and white striped achenes and high hull proportion. The objective of this research was to evaluate the performance and seed quality of Moroccan and Spanish sunflower germplasm used for food. Six cultivars from Morocco and six landraces from Spain were evaluated in replicated field trials in Aïn Taoujdate (Morocco) and Córdoba (Spain) in 2009. Seed yield, hundred-achene weight, hundred-kernel weight, achene oil content, kernel oil content, and fatty acid profile were measured. The results showed that confectionery-type and oilseed-type cultivars did not differ in seed yield, hundred-kernel weight and kernel oil content. Since confectionery-type cultivars from Spain performed similarly to local oilseed-type cultivars, they could be introduced to diversify the offer of in-shell sunflower seed snack in Morocco.The research was partially supported by Consejo Superior de Investigaciones Científicas (CSIC), Spain and Centre National pour la Recherche Scientifique et Technique (CNRST), Morocco, project number 2007MA0059.Peer Reviewe