The trends of consuming or using eco-friendly,biodegradable products due to the change in the lifestyle of the people have led to the exploration of new sources from plants or animals.Seed mucilage(SeM)is an underexpl...The trends of consuming or using eco-friendly,biodegradable products due to the change in the lifestyle of the people have led to the exploration of new sources from plants or animals.Seed mucilage(SeM)is an underexplored component of plants that can be brought into play to deal with such problems.Mucilage,a viscous polysaccharide that can be obtained when seeds like chia,flax,garden cress,and tomato get hydrated and form a slimy,gel-like substance around the seed coat,can be utilized due to its unique characteristics.It has been used in developing many products such as bio-based films,plant-based dressing wounds with antibacterial effects,a medium for oral drug delivery,edible coatings,etc.Primarily composed of soluble fiber,it exhibits effects on human health,including blood glucose management,cholesterol,weight reduction,antioxidant(AOx),and antimicrobial activity.It offers a range of functional properties,including emulsification,stabilization,foam formation,fat replacement,encapsulating agent,flocculation,coagulation,and medium for drug release.These attributes make SeM a suitable component for applications in various sectors like food and pharmacy.Further study in this field may open more opportunities to address environmental problems and contribute to sustainability.This review explores aspects of SeM,emphasizing its functional properties and highlighting its current as well as potential applications across various sectors.展开更多
This study was carried out to assess plasticity to drought of 30 adult fig cultivars,based on a screening of leaf structural and functional traits under sustained deficit irrigation,corresponding to 60%of crop evapotr...This study was carried out to assess plasticity to drought of 30 adult fig cultivars,based on a screening of leaf structural and functional traits under sustained deficit irrigation,corresponding to 60%of crop evapotranspiration.All trees,three per cultivar,are planted in an ex-situ collection in Sais plain,northern Morocco.The measurements concerned leaf area,blade thickness,trichomes density,trichome hair length,stomatal density,stomatal dimensions,stomatal area index,chlorophyll concentration index,relative water content,stomatal conductance,leaf temperature,water loss in detached leaves,cuticular wax content,proline content,total phenolic compounds,and total soluble sugars.The ranking of cultivars regarding drought tolerance was established based on a two-level clustering approach,primarily relying on chlorophyll concentration index and secondarily on water status traits.Results showed significant genotypic variations for all measured traits,except phenolic compounds content.Correlations between structural and functional traits have pinpointed blade thickness and trichome hair length as the key indicators of fig drought tolerance,owing to their involvement in maintaining chlorophyll content under water stress conditions.The extent of the variations shows that fig leaf is endowed with a wide structural and functional diversity,which can give to the species potential for resilience to various environmental stresses,including drought.Among the cultivars assessed,two exotic varieties,“Kadota”and“Royal Blanck”,as well as four local cultivars,namely,“Ferqouch Jmel”,“El Qoti Labied”,“Hamra”and“Fassi”showed the highest drought plasticity level.展开更多
文摘The trends of consuming or using eco-friendly,biodegradable products due to the change in the lifestyle of the people have led to the exploration of new sources from plants or animals.Seed mucilage(SeM)is an underexplored component of plants that can be brought into play to deal with such problems.Mucilage,a viscous polysaccharide that can be obtained when seeds like chia,flax,garden cress,and tomato get hydrated and form a slimy,gel-like substance around the seed coat,can be utilized due to its unique characteristics.It has been used in developing many products such as bio-based films,plant-based dressing wounds with antibacterial effects,a medium for oral drug delivery,edible coatings,etc.Primarily composed of soluble fiber,it exhibits effects on human health,including blood glucose management,cholesterol,weight reduction,antioxidant(AOx),and antimicrobial activity.It offers a range of functional properties,including emulsification,stabilization,foam formation,fat replacement,encapsulating agent,flocculation,coagulation,and medium for drug release.These attributes make SeM a suitable component for applications in various sectors like food and pharmacy.Further study in this field may open more opportunities to address environmental problems and contribute to sustainability.This review explores aspects of SeM,emphasizing its functional properties and highlighting its current as well as potential applications across various sectors.
文摘This study was carried out to assess plasticity to drought of 30 adult fig cultivars,based on a screening of leaf structural and functional traits under sustained deficit irrigation,corresponding to 60%of crop evapotranspiration.All trees,three per cultivar,are planted in an ex-situ collection in Sais plain,northern Morocco.The measurements concerned leaf area,blade thickness,trichomes density,trichome hair length,stomatal density,stomatal dimensions,stomatal area index,chlorophyll concentration index,relative water content,stomatal conductance,leaf temperature,water loss in detached leaves,cuticular wax content,proline content,total phenolic compounds,and total soluble sugars.The ranking of cultivars regarding drought tolerance was established based on a two-level clustering approach,primarily relying on chlorophyll concentration index and secondarily on water status traits.Results showed significant genotypic variations for all measured traits,except phenolic compounds content.Correlations between structural and functional traits have pinpointed blade thickness and trichome hair length as the key indicators of fig drought tolerance,owing to their involvement in maintaining chlorophyll content under water stress conditions.The extent of the variations shows that fig leaf is endowed with a wide structural and functional diversity,which can give to the species potential for resilience to various environmental stresses,including drought.Among the cultivars assessed,two exotic varieties,“Kadota”and“Royal Blanck”,as well as four local cultivars,namely,“Ferqouch Jmel”,“El Qoti Labied”,“Hamra”and“Fassi”showed the highest drought plasticity level.
