Fructophyta D. L. Fu & H. Fu, a new division established in 2018, including all fruit or flowering plants, conventionally named as angiosperms, occupy the highest evolutionary phylum taxa and an important position in terrestrial ecosystems and human wellbeing, whose origin and evolution had always been thought as puzzling. To scientifically settle the puzzle and using the evolutionary continuity principle of new science of Evolutionomy, the author proposed that evolutionary taxa should have particularly evolutionary characters to be distinguished to the closer taxa, which could be called evolutionary particularity principle. Based on the principle, the evolutionary system of five classes of Fructophyta D. L. Fu & H. Fu can be affirmed, which is a system of dichotomous evolution. Two new classes, Leguminopsida D. L. Fu and Scutellopsida D. L. Fu, are established based on the common particularity of evolutionary characters, legume and scutellum, respectively. Three old classes are selected as Magnoliopsida Brongn., Rosopsida Batsch and Monocotyledonopsida Benth. et Hook. based on the evolutionary continuity principle, and some evolutionary characters such as flower disks, pseudanthic inflorescences, and syncarpous pistils with serrate leaves were first to be used for the class classification of Rosopsida Batsch, which will make an important advancement in the taxonomy of fruit or flowering plants. The evolutionary particularity principle is a new scientific basis for the new science of Evolutionomy, which can also scientifically overcome the limitations of partiality and subjectivity in the tree of life or phylogenetic system.
| Published in |
American Journal of Agriculture and Forestry (Volume 7, Issue 5)
This article belongs to the Special Issue The New Evolutionary Theory & Practice |
| DOI | 10.11648/j.ajaf.20190705.15 |
| Page(s) | 191-199 |
| Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
| Copyright |
Copyright © The Author(s), 2024. Published by Science Publishing Group |
Evolutionary Particularity Principle, Leguminopsida, Scutellopsida, New Class, Evolutionomy, Fructophyta
| [1] | D. L. Fu and H. Fu. “An evolutionary continuity principle for evolutionary system of organism divisions”. American Journal of Agriculture and Forestry, vol. 6, no. 3, pp. 60-64, 2018. DOI: 10.11648/j.ajaf.20180603.14. |
| [2] | H. D. Zhang, Y. H. Huang, R. H. Miao, C. X. Ye, W. B. Liao, and J. H. Jin. “Systematics of Spermatophyta”. Beijing: Science Press. 72-626, 2004. [in Chinese] |
| [3] | J. Hutchinson. “The families of flowering plants”. Oxford: Oxford University Press. 1959. |
| [4] | A. L. Takhtajan. “Outline of the classification of flowering plants (Magnoliophyta)”. Bot. Rev. vol. 46 no. 3. pp. 227-359. 1980. |
| [5] | A. Cronquist. “An integrated system of classification of flowering plants”. New York: Columbia University Press, 1-1262, 1981. |
| [6] | D. Z. Li (translator). “Plant systematic, A phylogenetic approach”. Beijing: Higher Education Press. 001-496, 2012. [in Chinese] |
| [7] | P. S. Soltis, and D. E. Soltis. “The origin and diversification of angiosperms”. American Journal of Botany, vol. 91, no. 10, pp. 1614–1626. 2004. |
| [8] | L. P. Zeng, Q. Zhang, R. R. Sun, H. Z. Kong, N. Zhang, & H. Ma. “Giant viruses coexisted with the cellular ancestors and represent a distinct supergroup along with superkingdoms Archaea, Bacteria and Eukarya”. Nature communications, vol. 5, pp. 4956. 2014. doi: 10.1038/ncomms5956. |
| [9] | J. F. Wendel, S. A. Jackson, B. C. Meyers, and R. A. Wing. “Evolution of plant genome architecture”. Genome Biol. Vol. 17, pp. 37. 2016. |
| [10] | T. J. Givnish, G. A. Zuluaga, D. Spalink, M. S. Gomez, V. K. Y. Lam, J. M. Saarela, C. Sass, W. J. D. Iles, D. J. L. Sousa, J. Leebens-Mack, J. C. Pires, W. B. Zomlefer, M. A. Gandolfo, J. I. Davis, D. W. Stevenson, C. Pamphilis, C. D. Specht, S. W. Graham, C. F. Barrett, and C. Ané. “Monocot plastid phylogenomics, timeline, net rates of species diversification, the power of multi - gene analyses, and a functional model for the origin of monocots”. American Journal of Botany, vol. 105, no. 11, pp. 1888-1910, 2018. |
| [11] | NIFI (Nanjing Institute of Forestry Industry). “Atlas of seedlings of main tree species”. Beijing: Agriculture Press, 30-228, 1978. [in Chinese] |
| [12] | S. W. Lu, X. S. Xu, and M. J. Shen. “Botany”. Beijing: Higher Education Press, 67-81, 1991. [in Chinese] |
| [13] | Z. Y. Wu, Y. C. Tang, A. M. Lu, and Z. R. Chen. “On primary subdivisions of the Magnoliophyta-----towards a new scheme for an eight-class system of classification of the angiosperms”. Acta Phytotaxonomica Sinica, vol. 36, no. 5, pp. 385-402, 1998. [in Chinese] |
| [14] | Z. Y. Wu, Y. C. Tang, A. M. Lu, Z. R. Chen, and D. Z. Li. “Synopsis of a new ‘polyphyletic-polychronic-polytopic’ system of the angiosperms”. Acta Phytotaxonomica Sinica, vol. 40, no. 4, pp. 289-322, 2002. |
| [15] | J. H. Chen, Z. H. Hao, X. M. Guang, C. X. Zhao, P. K. Wang, L. J. Xue, Q. H. Zhu, L. F. Yang, Y. Sheng, Y. W. Zhou, H. B. Xu, H. Q. Xie, X. F. Long, J. Zhang, Z. R. Wang, M. M. Shi, Y. Lu, S. Q. Liu, L. H. Guan, Q. H. Zhu, L. M. Yang, G. Song, T. L. Cheng, T. Laux, Q. Gao, Y. Peng, N. Liu, S. H. Yang, and J. S. Shi. “Liriodendron genome sheds light on angiosperm phylogeny and species–pair differentiation”. Nature Plants, vol. 5, pp. 18-25. 2019. https://doi.org/10.1038/s41477-018-0323-6 |
| [16] | J. L. Reveal. “New supraordinal names and recognition of five classes in Magnoliophyta”. Phytologia, vol. 7, pp. 1-7, 1994. |
APA Style
Da-Li Fu. (2019). An Evolutionary Particularity Principle for Evolutionary System of Classes of Fructophyta. American Journal of Agriculture and Forestry, 7(5), 191-199. https://doi.org/10.11648/j.ajaf.20190705.15
ACS Style
Da-Li Fu. An Evolutionary Particularity Principle for Evolutionary System of Classes of Fructophyta. Am. J. Agric. For. 2019, 7(5), 191-199. doi: 10.11648/j.ajaf.20190705.15
AMA Style
Da-Li Fu. An Evolutionary Particularity Principle for Evolutionary System of Classes of Fructophyta. Am J Agric For. 2019;7(5):191-199. doi: 10.11648/j.ajaf.20190705.15
Share This Article
Twitter
Linked In
Facebook
Copy
Download@article{10.11648/j.ajaf.20190705.15,
author = {Da-Li Fu},
title = {An Evolutionary Particularity Principle for Evolutionary System of Classes of Fructophyta},
journal = {American Journal of Agriculture and Forestry},
volume = {7},
number = {5},
pages = {191-199},
doi = {10.11648/j.ajaf.20190705.15},
url = {https://doi.org/10.11648/j.ajaf.20190705.15},
eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ajaf.20190705.15},
abstract = {Fructophyta D. L. Fu & H. Fu, a new division established in 2018, including all fruit or flowering plants, conventionally named as angiosperms, occupy the highest evolutionary phylum taxa and an important position in terrestrial ecosystems and human wellbeing, whose origin and evolution had always been thought as puzzling. To scientifically settle the puzzle and using the evolutionary continuity principle of new science of Evolutionomy, the author proposed that evolutionary taxa should have particularly evolutionary characters to be distinguished to the closer taxa, which could be called evolutionary particularity principle. Based on the principle, the evolutionary system of five classes of Fructophyta D. L. Fu & H. Fu can be affirmed, which is a system of dichotomous evolution. Two new classes, Leguminopsida D. L. Fu and Scutellopsida D. L. Fu, are established based on the common particularity of evolutionary characters, legume and scutellum, respectively. Three old classes are selected as Magnoliopsida Brongn., Rosopsida Batsch and Monocotyledonopsida Benth. et Hook. based on the evolutionary continuity principle, and some evolutionary characters such as flower disks, pseudanthic inflorescences, and syncarpous pistils with serrate leaves were first to be used for the class classification of Rosopsida Batsch, which will make an important advancement in the taxonomy of fruit or flowering plants. The evolutionary particularity principle is a new scientific basis for the new science of Evolutionomy, which can also scientifically overcome the limitations of partiality and subjectivity in the tree of life or phylogenetic system.},
year = {2019}
}
TY - JOUR T1 - An Evolutionary Particularity Principle for Evolutionary System of Classes of Fructophyta AU - Da-Li Fu Y1 - 2019/09/20 PY - 2019 N1 - https://doi.org/10.11648/j.ajaf.20190705.15 DO - 10.11648/j.ajaf.20190705.15 T2 - American Journal of Agriculture and Forestry JF - American Journal of Agriculture and Forestry JO - American Journal of Agriculture and Forestry SP - 191 EP - 199 PB - Science Publishing Group SN - 2330-8591 UR - https://doi.org/10.11648/j.ajaf.20190705.15 AB - Fructophyta D. L. Fu & H. Fu, a new division established in 2018, including all fruit or flowering plants, conventionally named as angiosperms, occupy the highest evolutionary phylum taxa and an important position in terrestrial ecosystems and human wellbeing, whose origin and evolution had always been thought as puzzling. To scientifically settle the puzzle and using the evolutionary continuity principle of new science of Evolutionomy, the author proposed that evolutionary taxa should have particularly evolutionary characters to be distinguished to the closer taxa, which could be called evolutionary particularity principle. Based on the principle, the evolutionary system of five classes of Fructophyta D. L. Fu & H. Fu can be affirmed, which is a system of dichotomous evolution. Two new classes, Leguminopsida D. L. Fu and Scutellopsida D. L. Fu, are established based on the common particularity of evolutionary characters, legume and scutellum, respectively. Three old classes are selected as Magnoliopsida Brongn., Rosopsida Batsch and Monocotyledonopsida Benth. et Hook. based on the evolutionary continuity principle, and some evolutionary characters such as flower disks, pseudanthic inflorescences, and syncarpous pistils with serrate leaves were first to be used for the class classification of Rosopsida Batsch, which will make an important advancement in the taxonomy of fruit or flowering plants. The evolutionary particularity principle is a new scientific basis for the new science of Evolutionomy, which can also scientifically overcome the limitations of partiality and subjectivity in the tree of life or phylogenetic system. VL - 7 IS - 5 ER -
Information
Email: