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Erbar (2007) summarizes past ideas on a supposed Mesozoic origin of angiosperms from the research perspective of evolutionary-development (evo-devo). Retallack and Dilcher (1981) presented in-depth discussion of Melville's ideas on a glossopterid ancestry of the angiosperms including a reanalysis of glossopterid fructifications. Others suggest that flowering plants evolved from multiple, unrelated seed plant lineages (Edgar Anderson 1934). 2002) and Nair's Triphyletic Theory (Nair 1979) are best placed in this paragraph. Eichler (1976) proposed that unisexual gymnosperms may be the ancestors of angiosperms. Finally the column labeled "Paraphyly or Polyphyly" denotes whether the scientific paper in question attributes the origin of flowering plants to a natural, intergeneric hybridization event, allopolyploidy, or events that brought together two or more distinct lines of seed plant evolution. Doyle and Donoghue 1986, 1987) and classic research by Arber and Parkin (1907), Edgar Anderson (1934), Axelrod (1952), Ehrlich and Raven (1964), Raven and Kyhos (1965), Takhtajan (1969, 1976), and Raven (1977), dovetail with- and potentially support a coevolutionary hypothesis on the origin of flowering plants, which is developed on the following pages of the web site for purposes of classroom and seminar debate and discussion. Doyle 2008) of perianth parts, microsporophylls, and megasporophylls to form a flower was an improbable and unnecessarily complicated saltational event punctuating a long and gradual evolutionary history of angiosperms. Simply put, massive, shortened bisexual cone axes bearing megasporophylls, laminar microsporophylls, and spirally-arranged foliar tepals, probably existed in populations of poorly understood Paleozoic seed plants described as gigantopteroids and Vojnovskyales, groups omitted by J. Doyle and others in their many published phylogenetic analyses.
Studies of wood paedomorphosis may offer new clues on a possible Mesozoic origin of angiosperms (Carlquist 2009), but studies of potentially neotenous gymnosperm secondary xylem development in deep (Paleozoic) time are lacking. Additional discussion is available in several papers that reinvestigate conifer cone abnormalities (Flores-Rentería et al. A "No" response (the box is uncolored) indicates that the paper or book chapter in question favors a younger Jurassic or Cretaceous origin of flowering plants.
The artwork by Mark, which is furnished David Rohr, Ph. Presumed coevolution of insects and flowers is unsupported by macroecological data in a 35 million-year interval in geologic time from Barremian to Turonian (Labandeira 2014). Tetrapods might have had a surprising effect on the ecology of Mesozoic flowering plants but evidence of coevolution of dinosaurs and early angiosperms is weak (P. While composing the three essays on the origin and evolution of flowering plants, I integrated data from many scientific disciplines, which was key to possibly solving the riddle of the origin of angiosperms and certain coevolving Holometabola from disparate research perspectives.
A cartoon was drawn by Sul Ross State University geology student Mark Munday in 1981. " The preceding statement is from Page 777 of Kevin J. 2013), which is strangely incongruent with the stratigraphic distribution of Afropollis throughout the Mesozoic. imply that the diversification that lead to living angiosperm species began sometime between the Upper Triassic and the early Permian." Further, ancient whole genome duplications (WGDs) are implicated in both the common ancestor of all flowering plants, and in the most recent common ancestor of all seed plants (MRCA) about 200 MYA, and 320 MYA, respectively (Jiao et al. Clusters of hermaphroditic pollen- and ovule bearing leaves known as bisexual strobili are the focus of most of the leading models of cone and floral organization (Melzer et al. Further, several studies of developmental abnormalities in cones of extant conifers offer a window for better understanding the origins of flowers and flower-like organs (Flores-Rentería et al. Many colleagues suggest a coevolutionary origin and later diversification of flowering plants based on co-radiations between specific groups of animals and seed plant hosts (Ehrlich and Raven 1964, Farrell 1998, Crepet and Niklas 2009).
The image was captured in 1981 while the author was visiting Indiana University. both within and outside the paradigm of transcription-encoding factors ..." (page 129, Niklas 2006). The family Degeneriaceae was discovered in 1942 by I. Endress (1994, 2001 [a book chapter and two papers], 2004), Bateman et al. Several developmental gene families, TFs, and enzymes involved in hormone signaling cascades are known in invertebrates based in part, on experimental studies of the Drosophila model arthropod (S. Wings, halteres, arachnid spinnerets, and insect legs are all organs that develop from limb fields of cells where Ubx expression is prevalent (S. Several insect systematists studying beetle (Coleoptera) evolution are employing some genes and proteins of the insect development tool kit in their phylogenetic analyses (Gómez-Zurita and Galián 2005).
The three essays on the succeeding web pages are written from this research perspective. Gómez-Zurita and Galián (2005) discuss the utility of molecular phylogenetic characters appearing in the entomological literature in a review paper, which is organized along the lines of Floyd and Bowman (2007) for land plants (see section below). Understanding the land plant developmental tool kit and gene regulation from a deep time research perspective ties-in with models of cone and floral organization, cell geometry and regulation of growth from SAMs, paleobiology of homeodomain TF trafficking, phyllotaxis, leaf development, and morphogenesis of fertile organs.
2007) could potentially be discerned in the fossil record. (2005) review molecular evolution of homeotic genes and homeodomain TFs needed to understand regulation of body ground plan development in phytophagous arthropod antagonists.
Ontogeny is thus the creative force behind botanical diversification, and small modifications at the genetic level may have a disproportionate effect on plant form as their consequences cascade and multiply through development. Kenrick (1997), Diverted development of reproductive organs: a source of morphological innovation in land plants, Plant Systematics and Evolution 206: 161-174. From the research perspectives of insect- and floral biology, and paleoentomology and floral morphology, scaling data might be applied to understanding and computing theoretical morphospace of whole invertebrate and/or plant organs (Jeune et al. Prothoracicotropic hormone and/or ecdysone secretion in Holometabola is negatively controlled by juvenile hormone (JH) (Truman and Riddiford 2002).
Taylor and Hickey (1992, 1996), Loconte (1996), and Krassilov (1997, 2002), among others. "The idea is that plants have a plastic and modular developmental system such that simple changes in regulatory genes need not lead to inviability but can generate novel, potentially favored phenotypes." The preceding quotation is from page 83 of D. "Ontogeny in land plants can be viewed as a complex, partly hierarchical, series of developmental processes, which together with their underlying genetic controls, provide the raw material for morphological innovation. The interface between development and ecology may be studied from such perspectives, among others (Enquist et al. "In theoretical morphospaces, the axes of the reduced space are determined by a small set of parameters of morphogenetic or other biological models, derived from theoretical considerations rather than from the organisms themselves" (page 841, Chartier et al. Scaling studies of reproductive short- (spur-) shoots of living Ginkgo are particularly revealing to plant morphologists (Christianson and 2009). Cessation of growth in holometabolous insects leading to a new moulting cycle is triggered by PTTH that initiates the ecdysone growth regulatory cascade.
Doyle (1991, 2000), Frohlich and Parker (2000), Friedman and Floyd (2001), G. The evo-devo research perspective could help us decipher more than 400 million years of insect and seed plant evolution and the enigmatic origins of flowering plants and interacting Holometabola. (2014), and Tomescu (2016), among others, are useful in understanding the developmental systems of animals, fungi, and plants. Several neurosecretory hormones play an important part in mechanisms that regulate cell division and growth including insulin-like peptides (Drosophila insulin-like proteins [DILPs] and bombyxins), chitenase-derived imaginal disk factor proteins, the steroid hormone ecdysone, local autocrine and paracrine TFs, and brain neurosecretory prothoracicotropic hormone (PTTH) (Nijhout 2003).
Evolutionary-development of arthropod- and plant organs and molecular tool kits is "highly dynamic in evolutionary time" involving the evolution of cis-acting promoters (page 83, Baum 1998). Reviews by Rothwell (1987), Arthur (2002), Meyerowitz (2002), Becker and Theißen (Figure 1, page 468, 2003), Niklas (2006), Rothwell et al. A key paper on the control of insect body size by Nijhout (2003) outlines the molecular mechanisms involving cis-acting TFs and hormones and environmental controls (nutrition and temperature) behind growth and cell division in hemimetabolous and holometabolous insects.
Coevolution between phytophagous insect antagonists and Carboniferous, Permian, and Triassic seed plant hosts at the level of their respective developmental tool kits with focus on selective forces that drive the logic of transcriptional regulation is proposed in the following essay to explain the origin and evolution of flowering plants and certain Holometabola. A second species of Degeneria has been reported (A. Despite several decades of effort by morphologists, paleobotanists, and plant biologists, the origin of angiosperms remains enigmatic and mysterious. Taylor and Hickey (1996 [a book and one paper]), D. Interestingly, many naturally-occurring plant sesquiterpene esters and lactones are bioactive and exhibit insecticidal properties. Molecular diversification of the Hox gene complex over the course of 600 million years of metazoan evolution is analogous to the 400 million year old molecular evolution of MIKC-type MADS-box genes and related cis-acting TFs of land plants (Theißen et al. Evolution of the Hox complex probably involved small gene duplications, WGDs, divergence of homeodomains, disintegration of the Hox cluster at breakpoints, and rapid changes in the nucleotide sequence of homeodomains (S. Shrub-like lignophytes or small trees produced reproductive modules, which were exploited by flying insects. 2007) and caste polyphenism in holometabolous wasps (J. Understanding the nature and timing of early molecular diversification of homeotic selector genes, developmental proteins, nuclear receptor proteins, and cis-acting TFs of both invertebrate antagonists and vascular plant hosts might be a critical first step in understanding the Paleozoic origin of holometabolous insects and their putative coevolution with the earliest angiosperms.