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The ultrastructure of micropropagated and greenhouse rose plant stomata
Plant Cell, Tissue and Organ Culture, 1993Stomata of leaves from in vitro grown rose plantlets remain opened in the dark. The ultrastructure of their guard cells was studied after a 7 h light and a 7 h dark period, and compared to that of functional stomata from plants which have been acclimatized to greenhouse conditions.
H. Sallanon, M. Tort, A. Coudret
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Do plants really need stomata?
Journal of Experimental Botany, 1998There are lower and higher plants, such as lichens, the gametophytes of bryophytes and some species of the isoetid life form which are astomatous. However, these species are small and often restricted to a narrow range of biotic and abiotic environments.
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Image-based plant stornata phenotyping
2014 13th International Conference on Control Automation Robotics & Vision (ICARCV), 2014We propose in this paper a fully automatic approach for image-based plant stornata phenotyping. Given a microscopic image of a plant leaf surface, our goal is to automatically detect stornata cells and measure their morphological and structural features, such as stornata opening length and width, and size of the guard cells.
Hamid Laga +2 more
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Stomata dimorphism in dicotyledonous plants of temperate climate
Feddes Repertorium, 2010AbstractThe leaves of many tropical trees have besides the normal stomata abnormally large stomata long described as “giant stomata.” They reflect an additional early phase of stomata initiation during leaf ontogeny. In epidermal replicas from more than 200 dicotyledonous species of temperate climate we also found well defined giant stomata or solitary
Katja M. Boldt, Barbara Rank
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Smart Hydrogel-Based Valves Inspired by the Stomata in Plants
ACS Applied Materials & Interfaces, 2016We report the design of hydrogels that can act as "smart" valves or membranes. Each hydrogel is engineered with a pore (about 1 cm long and 32 °C) opens the pore and allows the water to pass through the gel. Conversely, the pore remains closed when the water is cold (T < 32 °C). The gel thereby acts as a "smart" valve that is able to regulate the flow
Ankit, Gargava +2 more
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Automatic Quantification of Stomata for High-Throughput Plant Phenotyping
2018 24th International Conference on Pattern Recognition (ICPR), 2018Stomatal morphology is a key phenotypic trait for plants' response analysis under various environmental stresses (e.g. drought, salinity etc.). Stomata exhibit diverse characteristics with respect to orientation, size, shape and varying degree of papillae occlusion.
Swati Bhugra +5 more
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Plant signaling: Peptide–receptor pair re-opens stomata after pathogen infection
Current Biology, 2022Stomata - cellular valves in the epidermis of land plants - close their apertures to prevent water loss or pathogen entry. A new study now reports that the plant immune response induces the expression of a peptide ligand-receptor pair that re-opens stomata to resume gas exchange and transpiration after pathogen infection.
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Stomata of the CAM plant Tillandsia recurvata respond directly to humidity
Oecologia, 1979Under controlled conditions, CO2 exchange of Tillandsia recurvata showed all characteristics of CAM. During the phase of nocturnal CO2 fixation stomata of the plant responded sensitively to changes in ambient air humidity. Dry air resulted in an increase, moist air in a decrease of diffusion resistance.
O L, Lange, E, Medina
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Topological equivalence of stomata distribution patterns across vascular plants
Stomata are ancient anatomical structures on leaves that regulate the exchange of water vapor, oxygen, and carbon dioxide between plants and the atmosphere. Acting as valve-like gateways between internal tissues and the external environment, stomata may function as locally interacting networks.Paulette Naulin, Sergio Estay
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