Search results for "Aizoaceae"

showing 7 items of 7 documents

C4-like photosynthesis and the effects of leaf senescence on C4-like physiology in Sesuvium sesuvioides (Aizoaceae).

2019

Sesuvium sesuvioides represents a young C4 lineage with C4-like metabolism: CO2 compensation points range between C4 and C3–C4 intermediate values, and Rubisco was detected in bundle sheath and mesophyll.

0106 biological sciences0301 basic medicineC4 photosynthesisPhysiologyPlant SciencePhotosynthetic efficiencyPhotosynthesis01 natural sciencesCarbon Cycle03 medical and health sciencesportulacelloid leaf anatomyBotanyC4-likePhotosynthesisC4 photosynthesisbiologyRuBisCOVascular bundlebiology.organism_classificationResearch PapersEnzyme assayCarbonPlant Leaves030104 developmental biologySesuviumAizoaceaebiology.proteinAizoaceaecarbon isotope valuesimmunolocalization of Rubisco and PEPCMesophyll Cells010606 plant biology & botanyPhotosynthesis and MetabolismJournal of experimental botany
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Water recycling in leaves of Lithops (Aizoaceae)

2016

Lithops plants consist of a pair of succulent leaves inserted on a short stem; each growing season young leaves develop in a cavity formed between the older pair. Young leaves can take up water from the older pair allowing the plant to maintain growth and leaf expansion even without external supply of water. Recycling water between vegetative organs is one of the possible adaptation strategies of plants under drought stress, but it had never been demonstrated experimentally in Lithops. The methodology used to verify the existence of water redistribution from old leaves to young leaves was fluorescence microscopy, using two dyes to follow the water pathway inside the plant: Sulforhodamine G …

0106 biological sciencesDrought stressGrowing seasonPlant Science010603 evolutionary biology01 natural sciencesfluorescent tracerBotanyapoplastic pathwaysymplastic pathwaySettore BIO/04 - Fisiologia Vegetalesucculent plantEcology Evolution Behavior and SystematicsLeaf expansionShort stembiologyfungidrought strefood and beveragesLithopsbiology.organism_classificationAdaptation strategiesApoplastAizoaceaeSettore BIO/03 - Botanica Ambientale E Applicata010606 plant biology & botany
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A Revision of Sesuvium (Aizoaceae, Sesuvioideae)

2017

Sesuvium and Cypselea are closely related succulent genera within the Sesuvioideae (Aizoaceae). Since Cypselea is nested in Sesuvium in molecular studies and both genera share traits separating them from other members of the subfamily, we propose to include Cypselea in Sesuvium. Sesuvium (incl. Cypselea) comprises 14 species and is distributed worldwide with centres of diversity in southern Africa and North and Central America. Sesuvium comprises erect to procumbent herbs with opposite leaves that often bear conspicuous sheath-like lateral appendages on the petioles (pseudostipules). These and the many-seeded capsules are diagnostic traits, separating Sesuvium from the closely related gener…

0106 biological sciencesOrchidaceaebiologyTrianthemaLineage (evolution)Plant Sciencebiology.organism_classification010603 evolutionary biology01 natural sciencesSesuviumGenusAizoaceaeBotanyGeneticsCosmopolitan distributionEcology Evolution Behavior and SystematicsSesuvium portulacastrum010606 plant biology & botanySystematic Botany
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Carbon isotope composition of plant photosynthetic tissues reflects a Crassulacean Acid Metabolism (CAM) continuum in the majority of CAM lineages

2021

Abstract The stable carbon isotope composition of plant tissues, commonly expressed as δ13C, holds a wealth of information about photosynthetic pathway, water relations and stress physiology. Crassulacean acid metabolism (CAM) is a derived form of photosynthesis that allows plants to fix carbon at a higher water-use efficiency compared to the ancestral C3 photosynthesis. While the central carbon-fixing enzyme of C3 plants, Rubisco, strongly discriminates against the heavy 13C isotope, CAM is characterized by a dual use of Rubisco and the much less discriminating PEP carboxylase as carbon-fixing enzymes, causing the δ13C values of CAM plant tissues to be generally less negative than those fo…

0106 biological sciencesVascular plantMesembryanthemumbiologyRuBisCOPlant Sciencebiology.organism_classificationPhotosynthesisCrassulaceae010603 evolutionary biology01 natural sciencesCrassulaceaeAeonieaeCrassulacean Acid MetabolismAizoaceaeBotanybiology.proteinδ13CAizoaceaeCrassulacean acid metabolismMesembryanthemumPhosphoenolpyruvate carboxylaseEcology Evolution Behavior and Systematics010606 plant biology & botany
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Carbon and nitrogen isotopic values in Lithops aucampiae during leaf development.

2021

Abstract Lithops (Aizoaceae) are succulent plants consisting of a pair of opposite succulent leaves inserted on an extremely short stem. The apical meristem produces a new leaf pair that develops between the older pair, recycling water and metabolites. This peculiar anatomy and growth form make ecophysiological studies quite challenging. Lithops are considered to have CAM metabolism, though experimental evidence is scarce. We followed the changes in carbon and nitrogen isotopic values in mature leaves, young leaves and roots, with the aim of investigating how the use of resources is optimized to achieve survival in extremely arid environments. Two-year-old plants of Lithops aucampiae were g…

Settore BIO/07 - EcologiaIrrigationCarbon isotope ratioPhysiologyNitrogenPlant ScienceBotanyGeneticsSettore BIO/04 - Fisiologia VegetaleSucculentsNitrogen isotope ratioCarbon IsotopesLeaf developmentδ13CbiologyNitrogen Isotopesδ15NLithopsMeristembiology.organism_classificationAridIsotopes of nitrogenCarbonPlant LeavesLithops aucampiaeSettore BIO/03 - Botanica Ambientale E ApplicataAizoaceaeAizoaceaeCAM metabolismPlant physiology and biochemistry : PPB
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Phylogeny of Sesuvioideae (Aizoaceae) – Biogeography, leaf anatomy and the evolution of C4 photosynthesis

2015

Abstract Sesuvioideae (Aizoaceae) form a small subfamily of drought-tolerant plants exhibiting leaf succulence, halophytic ecology, and the C4 photosynthetic pathway. Sesuvioideae are sister to the species-rich subfamilies Ruschioideae, Mesembryanthemoideae and Aizooideae that contain many CAM lineages. This close relationship of CAM and C4 taxa identifies the Sesuvioideae as an important clade to address hypotheses of photosynthetic pathway evolution. This study presents a molecular phylogeny of Sesuvioideae based on five markers (atpB-rbcL spacer, rps16 intron, trnL-trnF spacer, petB-petD spacer, ITS) and 51 accessions representing all genera and 37 species. We determined carbon isotope d…

SubfamilyCharacter evolutionbiologyTrianthemaPlant SciencePlant anatomyAnatomybiology.organism_classificationSesuviumPhylogeneticsBotanyMolecular phylogeneticsAizoaceaeEcology Evolution Behavior and SystematicsPerspectives in Plant Ecology, Evolution and Systematics
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Data from: A revision of Sesuvium (Aizoaceae, Sesuvioideae)

2017

Sesuvium and Cypselea are closely related succulent genera within the Sesuvioideae (Aizoaceae). Since Cypselea is nested in Sesuvium in molecular studies and both genera share traits separating them from other members of the subfamily, we propose to include Cypselea in Sesuvium. Sesuvium (incl. Cypselea) comprises 14 species and is distributed worldwide with centres of diversity in southern Africa and North and Central America. Sesuvium comprises erect to procumbent herbs with opposite leaves that often bear conspicuous sheath-like lateral appendages on the petioles (pseudostipules). These and the many-seeded capsules are diagnostic traits, separating Sesuvium from the closely related gener…

medicine and health careCypseleaC4 photosynthesisrestoration plantSesuviumhalophytesAizoaceaeMedicineSesuvioideaeLife sciencesSesuvium portulacastrum
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