{"title":"旋花科河滨茎的连续形成层和木材结构的发育","authors":"K. Rajput","doi":"10.1515/PBJ-2016-0003","DOIUrl":null,"url":null,"abstract":". This study examined the formation of successive rings of cambia in Rivea hypocriteriformis Choisy (Convolvulaceae). The mature stem is composed of four to five rings of xylem alternating with phloem. Successive cambia originate as smaller and larger segments; union and anastomosing of small cambial segments often leads to the formation of discontinuous rings. In the initial stage of growth, several vascular bundles interconnect to form the first ring of vascular cambium. The cambium remains functional for one complete season and becomes dormant during summer; a new ring of cambium is completed prior to the subsequent monsoon season and sprouting of new leaves. Successive cambia are initiated from the pericyclic parenchyma situated three to four cell layers outside of the protophloem. Functionally, all the successive cambia are bidirectional and produce secondary xylem centripetally and phloem centrifugally. The secondary xylem is diffuse-porous, with indistinct growth rings and consisting of wide fibriform vessels, fibre tracheids, and axial and ray parenchyma cells. The xylem rays are uni- to multiseriate and heterocellular. The multiseriate rays contain lignified marginal ray cells and thin-walled, unlignified central cells. The central ray cells also show accumulations of starch and druses. Discrete strands of intraxylary phloem occur at the periphery of the pith, and additional intraxylary phloem develops from adjacent cells as secondary growth progresses. Earlier-formed phloem shows heavy accumulation of callose, followed by its compaction. The development of successive cambia is correlated with extension growth and with the phenology of the plant. elements, fibriform vessel elements and xylem fibres, small pieces of xylem adjacent to the outermost cambial ring were macerated with Jeffrey’s fluid (Berlyn & Mik sche 1976) at 55–60 ° C for 24 to 36 h. Macerated pieces were stained with 1% aqueous solution of safranin, and temporary slides were mounted in glycerine. The length of fusiform cambial cells and sieve tube elements was measured directly from tangential longitudinal sections. Thirty random measurements were used to calculate means and standard deviations. Wood descriptions follow Wheeler et al. (1989) and Carlquist (2001).","PeriodicalId":56362,"journal":{"name":"Polish Botanical Journal","volume":null,"pages":null},"PeriodicalIF":0.0000,"publicationDate":"2016-07-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://sci-hub-pdf.com/10.1515/PBJ-2016-0003","citationCount":"4","resultStr":"{\"title\":\"Development of successive cambia and wood structure in stem of Rivea hypocriteriformis (Convolvulaceae)\",\"authors\":\"K. Rajput\",\"doi\":\"10.1515/PBJ-2016-0003\",\"DOIUrl\":null,\"url\":null,\"abstract\":\". This study examined the formation of successive rings of cambia in Rivea hypocriteriformis Choisy (Convolvulaceae). The mature stem is composed of four to five rings of xylem alternating with phloem. Successive cambia originate as smaller and larger segments; union and anastomosing of small cambial segments often leads to the formation of discontinuous rings. In the initial stage of growth, several vascular bundles interconnect to form the first ring of vascular cambium. The cambium remains functional for one complete season and becomes dormant during summer; a new ring of cambium is completed prior to the subsequent monsoon season and sprouting of new leaves. Successive cambia are initiated from the pericyclic parenchyma situated three to four cell layers outside of the protophloem. Functionally, all the successive cambia are bidirectional and produce secondary xylem centripetally and phloem centrifugally. The secondary xylem is diffuse-porous, with indistinct growth rings and consisting of wide fibriform vessels, fibre tracheids, and axial and ray parenchyma cells. The xylem rays are uni- to multiseriate and heterocellular. The multiseriate rays contain lignified marginal ray cells and thin-walled, unlignified central cells. The central ray cells also show accumulations of starch and druses. Discrete strands of intraxylary phloem occur at the periphery of the pith, and additional intraxylary phloem develops from adjacent cells as secondary growth progresses. Earlier-formed phloem shows heavy accumulation of callose, followed by its compaction. The development of successive cambia is correlated with extension growth and with the phenology of the plant. elements, fibriform vessel elements and xylem fibres, small pieces of xylem adjacent to the outermost cambial ring were macerated with Jeffrey’s fluid (Berlyn & Mik sche 1976) at 55–60 ° C for 24 to 36 h. Macerated pieces were stained with 1% aqueous solution of safranin, and temporary slides were mounted in glycerine. The length of fusiform cambial cells and sieve tube elements was measured directly from tangential longitudinal sections. Thirty random measurements were used to calculate means and standard deviations. Wood descriptions follow Wheeler et al. 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Development of successive cambia and wood structure in stem of Rivea hypocriteriformis (Convolvulaceae)
. This study examined the formation of successive rings of cambia in Rivea hypocriteriformis Choisy (Convolvulaceae). The mature stem is composed of four to five rings of xylem alternating with phloem. Successive cambia originate as smaller and larger segments; union and anastomosing of small cambial segments often leads to the formation of discontinuous rings. In the initial stage of growth, several vascular bundles interconnect to form the first ring of vascular cambium. The cambium remains functional for one complete season and becomes dormant during summer; a new ring of cambium is completed prior to the subsequent monsoon season and sprouting of new leaves. Successive cambia are initiated from the pericyclic parenchyma situated three to four cell layers outside of the protophloem. Functionally, all the successive cambia are bidirectional and produce secondary xylem centripetally and phloem centrifugally. The secondary xylem is diffuse-porous, with indistinct growth rings and consisting of wide fibriform vessels, fibre tracheids, and axial and ray parenchyma cells. The xylem rays are uni- to multiseriate and heterocellular. The multiseriate rays contain lignified marginal ray cells and thin-walled, unlignified central cells. The central ray cells also show accumulations of starch and druses. Discrete strands of intraxylary phloem occur at the periphery of the pith, and additional intraxylary phloem develops from adjacent cells as secondary growth progresses. Earlier-formed phloem shows heavy accumulation of callose, followed by its compaction. The development of successive cambia is correlated with extension growth and with the phenology of the plant. elements, fibriform vessel elements and xylem fibres, small pieces of xylem adjacent to the outermost cambial ring were macerated with Jeffrey’s fluid (Berlyn & Mik sche 1976) at 55–60 ° C for 24 to 36 h. Macerated pieces were stained with 1% aqueous solution of safranin, and temporary slides were mounted in glycerine. The length of fusiform cambial cells and sieve tube elements was measured directly from tangential longitudinal sections. Thirty random measurements were used to calculate means and standard deviations. Wood descriptions follow Wheeler et al. (1989) and Carlquist (2001).
期刊介绍:
Polish Botanical Journal is an international journal publishing original papers covering various aspects of vegetation science, plant and fungi biodiversity, biosystematics (including plant anatomy, cytology and embryology), phytogeography, evolution and ecology. All papers are considered by at least two reviewers. Polish Botanical Journal is issued twice per year. The two issues form one annual volume.