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Plant Biosystems - An International Journal Dealing with all Aspects of Plant Biology
Official Journal of the Societa Botanica Italiana
Volume 158, 2024 - Issue 3
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Research Article

Ontogeny of the multiple cambial variants and secondary growth in some species of Merremia and related genera (Convolvulaceae)

Kishore S. Rajputa Department of Botany, Faculty of Science, The Maharaja Sayajirao University of Baroda, Vadodara, Gujarat, IndiaCorrespondence[email protected]
,
Dhara G. Ramoliyaa Department of Botany, Faculty of Science, The Maharaja Sayajirao University of Baroda, Vadodara, Gujarat, India
,
Amit D. Gondaliyaa Department of Botany, Faculty of Science, The Maharaja Sayajirao University of Baroda, Vadodara, Gujarat, India
,
Vinod B. Shimpaleb Department of Botany, The New College Kolhapur, Kolhapur, Maharashtra, India
,
Sujit B. Patilb Department of Botany, The New College Kolhapur, Kolhapur, Maharashtra, India
&
Vinay M. Raolea Department of Botany, Faculty of Science, The Maharaja Sayajirao University of Baroda, Vadodara, Gujarat, India
Pages 572-588 | Received 24 Oct 2023, Accepted 29 Mar 2024, Published online: 16 May 2024

References

  • Acevedo-Rodríguez P, Wurdack KJ, Ferrucci MS, Johnson G, Dias P, Coelho RG, Somner GV, Steinmann VW, Zimmer EA, Strong MT. 2017. Generic relationships and classification of tribe Paullinieae (Sapindaceae) with a new concept of supertribe Paulliniodae. Syst Bot. 42(1):96–114. doi: 10.1600/036364417X694926.
  • Angyalossy V, Pace MR, Evert RF, Marcati CR, Oskolski AA, Terrazas T, Kotina E, Lens F, Mazzoni-Viveiros SC, Angeles G, et al. 2016. IAWA list of microscopic bark features. IAWA J. 37(4):517–615. doi: 10.1163/22941932-20160151.
  • Angyalossy V, Pace MR, Lima AC. 2015. Liana anatomy: a broad perspective on the structural evolution of the vascular system. In: Schnitzer S, Bonger F, Burnham RJ, Putz FE, editors. Ecology lianas. West Sussex, UK: John Wiley & Sons Ltd.; p. 253–287.
  • Bastos CL, Tamaio N, Angyalossy V. 2016. Unravelling roots of lianas: a case study in Sapindaceae. Ann Bot. 118(4):733–746. doi: 10.1093/aob/mcw091.
  • Berlyn GP, Miksche JP. 1976. Botanical microtechnique and cytochemistry. Ames (IA): The Iowa State University Press.
  • Caballé GUY. 1993. Liana structure, function, and selection: a comparative study of xylem cylinders of tropical rainforest species in Africa and America. Bot J Linn Soc. 113(1):41–60. doi: 10.1006/bojl.1993.1061.
  • Cabanillas PA, Pace MR, Angyalossy V. 2017. Structure and ontogeny of the fissured stems of Callaeum (Malpighiaceae). IAWA J. 38(1):49–66. doi: 10.1163/22941932-20170156.
  • Carlquist S. 1984. Wood and stem anatomy of Bergia suffruticosa: relationships of Elatinaceae and broader significance of vascular tracheids, vasicentric tracheids, and fibriform vessel elements. Ann Missouri Bot Gard. 71(1):232–242. doi: 10.2307/2399066.
  • Carlquist S. 1985. Observations on functional wood histology of vines and lianas: vessel dimorphism, tracheids, vasicentric tracheids, narrow vessels, and parenchyma. Aliso. 11(2):139–157. doi: 10.5642/aliso.19851102.03.
  • Carlquist S. 1991. Anatomy of vines and lianas: a review and synthesis. In: Putz FE, Mooney HA, Bullock SH, editors. Biology of vines. Cambridge (UK): Cambridge University Press; p. 53–71.
  • Carlquist S. 2001. Comparative wood anatomy, systematic ecological and evolutionary aspect of dicotyledonous wood. New York (NY): Springer-Verlag.
  • Carlquist S. 2007a. Successive cambia in Aizoaceae: products and process. Bot J Linn Soc. 153(2):141–155. doi: 10.1111/j.1095-8339.2007.00593.x.
  • Carlquist S. 2007b. Successive cambia revisited: ontogeny, histology, diversity, and functional significance. J Torrey Bot Soc. 134(2):301–332. https://www.jstor.org/stable/20063919. doi: 10.3159/1095-5674(2007)134[301:SCROHD]2.0.CO;2.
  • Carlquist S. 2013. Interxylary phloem: diversity and functions. Brittonia. 65(4):477–495. doi: 10.1007/s12228-012-9298-1.
  • Carlquist S, Hanson MA. 1991. Wood and stem anatomy of Convolvulaceae: a survey. Aliso. 13(1):51–94. doi: 10.5642/aliso.19911301.03.
  • Castellanos AE. 1991. Photosynthesis and gas exchange of vines. In: Putz FE, Mooney HA, editors. The biology of vines. Cambridge (UK): Cambridge University Press; p. 181–204.
  • Cunha Neto IL. 2023. Vascular variants in seed plants - a developmental perspective. AoB Plants. 15(4):plad036. doi: 10.1093/aobpla/plad036.
  • De Micco V, Balzano A, Wheeler EA, Baas P. 2016. Tyloses and gums: a review of structure, function, and occurrence of vessel occlusions. IAWA J. 37(2):186–205. doi: 10.1163/22941932-20160130.
  • Dobbins DR. 1970. The influence of leaves on cambial activity in the cross vine. Ame J Bot. 57:735.
  • Dobbins DR, Fisher JB. 1986. Wound responses in girdled stems of lianas. Bot Gaz. 147(3):278–289. doi: 10.1086/337595.
  • Ellmore GS, Ewers FW. 1985. Hydraulic conductivity in trunk xylem of elm, Ulmus americana. IAWA J. 6(4):303–307. doi: 10.1163/22941932-90000958.
  • Ewers FW, Fisher JB, Fichtner K. 1991. Water flux and xylem structure in vines. In: Putz FE, Mooney HA, editors. The biology of vines. Cambridge (UK): Cambridge University Press; p. 53–71.
  • Fisher JB, Ewers FW. 1989. Wound healing in stems of lianas after twisting and girdling injuries. Bot Gaz. 150(3):251–265. doi: 10.1086/337770.
  • Fisher JB, Ewers FW. 1991. Structural responses to stem injuries in vines. In: Putz FE, Mooney HA, editors. Biology of vines. Cambridge (UK): Cambridge University Press; p. 99–124.
  • Fukuda Y. 1967. Anatomical study of the internal phloem in the stems of dicotyledons, with special reference to its histogenesis. J Fac Sci Univ Tokyo. III 9:313–375.
  • Hallier HJG. 1893. Versuch einer naturlichen gliederung der Convolvulaceen auf morphologischer und anatomischer grundlage. Bot Jahrb Für Syst Pflanzen Und Pflanzengeographie. 16:453–591.
  • IAWA Committee. 1989. List of microscopic features for hardwood identification. IAWA Bull. 10:221–332.
  • Isnard S, Silk WK. 2009. Moving with climbing plants from Charles Darwin’s time into the 21st century. Am J Bot. 96(7):1205–1221. doi: 10.3732/ajb.0900045.
  • Kapadane KK, Lawand PR, Shimpale VB, Rajput KS. 2023. Development of cambial variant and structure of the secondary xylem in Argyreia elliptica (Roth) Choisy (Convolvulaceae). J Plant Growth Regul. 42(4):2506–2518. doi: 10.1007/s00344-022-10722-1.
  • Kapadane KK, Shelke RA, Gondaliya AD, Rajput KS. 2019. Formation of medullary phloem in Argyreia nervosa (Burm.f.) Bojer. Plant Sci Today. 6(2):151–159. doi: 10.14719/pst.2019.6.2.498.
  • Lawand PR, Kapadane KK, Gondaliya AD, Shimpale VB, Rajput KS. 2023. Formation of inter-and intraxylary phloem in some species of Argyreia Lour. (Convolvulaceae). Flora. 304:152302. doi: 10.1016/j.flora.2023.152302.
  • Lekhak MM, Gondaliya AD, Yadav SR, Rajput KS. 2018. Stem anatomy at various developmental stages of secondary growth in Turbina corymbosa (Convolvulaceae). Plant Ecol Evol. 151(2):219–230. doi: 10.5091/plecevo.2018.1389.
  • Lev-Yadun S, Aloni R. 1991. Polycentric vascular rays in Suaeda monoica and the control of ray initiation and spacing. Trees. 5(1):22–25. doi: 10.1007/BF00225331.
  • Lowell C, Lucansky TW. 1986. Vegetative anatomy and morphology of Ipomoea hederifolia (Convolvulaceae). Bull Torrey Bot Club. 113(4):382–397. doi: 10.2307/2996431.
  • Lowell C, Lucansky TW. 1990. Vegetative anatomy and morphology of Ipomoea quamoclit (Convolvulaceae). Bull Torrey Bot Club. 117(3):232–246. doi: 10.2307/2996692.
  • Metcalfe CR, Chalk L. 1950. Anatomy of the dicotyledons. Oxford (UK): Clarendon Press.
  • Muñoz-Rodríguez P, Carruthers T, Wood JRI, Williams BRM, Weitemier K, Kronmiller B, Goodwin Z, Sumadijaya A, Anglin NL, Filer D, et al. 2019. A taxonomic monograph of Ipomoea integrated across phylogenetic scales. Nat Plants. 5(11):1136–1144. doi: 10.1038/s41477-019-0535-4.
  • Obaton M. 1960. Les lianes ligneuses a structure anormale des forets dense d’afrique occidentale. Ann Des Sci Nat (Bot). 12(1):1–220.
  • Pace MR. 2015. Evolution of the vascular system in lineages that contain lianas [PhD dissertation]. São Paulo (Brazil): University of São Paulo.
  • Pace MR, Lohmann LG, Angyalossy A. 2011. Evolution of disparity between the regular and variant phloem in Bignonieae (Bignoniaceae). Am J Bot. 98(4):602–618. doi: 10.3732/ajb.1000269.
  • Pace MR, Rodríguez PA, Amorim AM, Angyalossy V. 2018. Ontogeny, structure, and occurrence of interxylary cambia in Malpighiaceae. Flora. 241:46–60. doi: 10.1016/j.flora.2018.02.004.
  • Pant DD, Bhatnagar S. 1975. Morphological studies in Argyreia Lour. (Convolvulaceae). Bot J Linn Soc. 70(1):45–69. doi: 10.1111/j.1095-8339.1975.tb00678.x.
  • Pfeiffer H. 1926. Das abnorme. Dickenwachstum. In: Linsbauer K, editor, Handbuch der Pflanzenanatomie. Berlin: Gebrüder Bornträger Verlag; p. 283.
  • Pisuttimarn P, Simões ARG, Petrongari FS, Simão-Bianchini R, Barbosa JCJ, de Man I, Fonseca LHM, Janssens SB, Patil SB, Shimpale VB, et al. 2023. Distimake vitifolius (Convolvulaceae): reclassification of a widespread species in view of phylogenetics and convergent pollen evolution. Bot J Linn Soc. 202(3):363–388. doi: 10.1093/botlinnean/boac077.
  • Quintanar-Castillo A, Pace MR. 2022. Phloem wedges in Malpighiaceae: origin, structure, diversification, and systematic relevance. Evodevo. 13(1):11. doi: 10.1186/s13227-022-00196-3.
  • Rajput KS. 2004. Formation of unusual tissue complex in the stem of Adansonia digitata Linn. (Bombacaceae). Beitr zur Biol der Pflanzen. 73:331–342.
  • Rajput KS, Fiamengui MB, Marcati CR. 2012. Stem anatomy and development of successive cambia in the Neotropical liana Securidaca rivinifolia (Polygalaceae). IAWA J. 33(4):391–402. doi: 10.1163/22941932-90000102.
  • Rajput KS, Gondaliya AD. 2017. Internal cambium and intraxylary phloem development in Ipomoea turbinata Lag. (Convolvulaceae). Flora. 226:47–54. doi: 10.1016/j.flora.2016.11.002.
  • Rajput KS, Gondaliya AD, Baijnath H. 2020. Development of cambial variant and parenchyma proliferation in Hewittia malabarica (Convolvulaceae) from India and South Africa. IAWA J. 42(1):50–63. doi: 10.1163/22941932-bja10046.
  • Rajput KS, Lekhak MM, Kapadane KK, Yadav SR. 2017. Formation of tri-lobed stem and development of successive cambia in the stems of Argyreia hookeri C. B. Clarke (Convolvulaceae). Flora. 233:140–149. doi: 10.1016/j.flora.2017.06.005.
  • Rajput KS, Marcati CR. 2013. Stem anatomy and development of successive cambia in Hebanthe eriantha (Poir.) Pedersen: a neotropical climbing species of the Amaranthaceae. Plant Syst Evol. 299(8):1449–1459. doi: 10.1007/s00606-013-0807-9.
  • Rajput KS, Nunes OM, Brandes AFN, Tamaio N. 2012. Successive cambia and pattern of secondary growth in the stem of the Neotropical liana Rhynchosia phaseoloides (SW) DC (Fabaceae). Flora. 207(8):607–614. doi: 10.1016/j.flora.2012.04.001.
  • Rajput KS, Patil VS, Rao KS. 2013. Wood anatomy and the development of interxylary phloem of Ipomoea hederifolia Linn. (Convolvulaceae). J Plant Growth Regul. 32(3):654–662. doi: 10.1007/s00344-013-9334-8.
  • Rajput KS, Patil VS, Rao KS. 2014a. Multiple cambia and secondary xylem of Ipomoea pes-caprae (L.) R. Br. (Convolvulaceae). Acta Bot Gall. 161(1):13–19. doi: 10.1080/12538078.2013.847020.
  • Rajput KS, Patil VS, Rao KS. 2014b. Stem anatomy of the dwarf subshrub Cressa cretica L. (Convolvulaceae). Flora. 209(8):408–413. doi: 10.1016/j.flora.2014.06.006.
  • Rajput KS, Raole VM, Gandhi D. 2008. Radial secondary growth, formation of successive cambia and their products in Ipomoea hederifolia L. (Convolvulaceae). Bot J Linn Soc. 158(1):30–40. doi: 10.1111/j.1095-8339.2008.00854.x.
  • Ramoliya DG, Gondaliya AD, Raole VM, Rajput KS. 2022. Structure and development of phloem in some species of Merremia Dennst. ex Endl. sensu lato (Convolvulaceae). Nord J Bot2022(12):e03776. doi: 10.1111/njb.03776.
  • Rowe N, Isnard S, Gallenmüller F, Speck T. 2006. Diversity of mechanical architectures in climbing plants: an ecological perspective. In: Herrel A, Rowe NP, Speck T, editors. Ecology and biomechanics: a mechanical approach to the ecology of animals and plants. Boca Raton (FL): CRC Press; p. 35–59.
  • Rowe NP, Isnard S, Speck T. 2004. Diversity of mechanical architecture in climbing plants: an evolutionary perspective. J Plant Growth Regul. 23(2):108–128. doi: 10.1007/s00344-004-0044-0.
  • Rowe NP, Speck T. 1996. Biomechanical characteristics of the ontogeny and growth habit of the tropical liana Condylocarpon guianense (Apocynaceae). Intl J Plant Sci. 157(4):406–417. doi: 10.1086/297357.
  • Schenck H. 1893. Beiträge zur Biologie und Anatomie der Lianen, im Besonderen der in Brasilien einheimischen Arten. II. Beiträge zur Biologie der Lianen. Jena: Gustav Fischer
  • Schnitzer SA, Bongers F. 2011. Increasing liana abundance and biomass in tropical forests: emerging patterns and putative mechanisms. Ecol Lett. 14(4):397–406. doi: 10.1111/j.1461-0248.2011.01590.x.
  • Scott DH, Brebner G. 1891. On internal phloem in the root and stem of dicotyledons. Ann Bot. 5(3):259–300. doi: 10.1093/oxfordjournals.aob.a090640.
  • Simões AR, Staples G. 2017. Dissolution of Convolvulaceae tribe Merremieae and a new classification of the constituent genera. Bot J Linn Soc. 183(4):561–586. doi: 10.1093/botlinnean/box007.
  • Srebotnik E, Messner K. 1994. A simple method that uses differential staining and light microscopy to assess the selectivity of wood delignification by white rot fungi. Appl Environ Microbiol. 60(4):1383–1386. doi: 10.1128/aem.60.4.1383-1386.1994.
  • Stefanovic S, Austin DF, Olmstead RG. 2003. Classification of Convolvulaceae: a phylogenetic approach. Syst Bot. 28:791–806.
  • Tamaio N, Braga JMA, Rajput KS. 2021. Development of successive cambia and structure of secondary xylem in the stems and roots of Distimake tuberosus (Convolvulaceae). Flora. 279:151814. doi: 10.1016/j.flora.2021.151814.
  • Tamboli AS, Dalavi JV, Kadam SK, Yadav SR, Sanjay P, Govindwar SP, Simões ARG. 2022. New molecular phylogenetic evidence for Indian endemic species of the tribe Merremieae, Convolvulaceae. Plant Biosys. 156(2):440–449. doi: 10.1080/11263504.2021.1881642.
  • Terrazas T, Aguilar-Rodríguez S, Ojanguren CT. 2011. Development of successive cambia, cambial activity, and their relationship to physiological traits in Ipomoea arborescens (Convolvulaceae) seedlings. Am J Bot. 98(5):765–774. doi: 10.3732/ajb.1000182.
  • Wood JRI, Muñoz-Rodríguez P, Williams BRM, Scotland RW. 2020. A foundation monograph of Ipomoea (Convolvulaceae) in the New World. PhytoKeys. 143:1–823. doi: 10.3897/phytokeys.143.32821.
  • Wood JRI, Muñoz-Rodríguez P, Scotland RW. 2022. Priorities for taxonomic studies of Indian Convolvulaceae. J Econ Tax Bot. 46:5–14.
  • Yang S-Z, Chen P-H, Chen C-F. 2020. Cambial variants combine successive cambia and intraxylary phloem in Convolvulaceae in Taiwan. Am J Plant Sci. 11(03):437–453. doi: 10.4236/ajps.2020.113032.

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