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Some of the historical syntheses include Arber and Parkin (1907), I. Bailey (1949), Edgar Anderson (1934), Axelrod (1952, 1970), Leppik (1960, 1968), Raven and Kyhos (1965), Cronquist (1968), Thorne (1968), Melville (1969), Takhtajan (1969, 1976, 1991), Raven and Axelrod (1974), Stebbins (1958, 1974), C. Beck (1976), Hughes (1976, 1994), Meeuse (1979), Nair (1979), Krassilov (1977), Retallack and Dilcher (1981 [two papers]), Asama (1982, 1985), Melville (1983), Crane (1985), Meyen (1986, 1988), Dilcher (1986, 2000), J. Doyle and Donoghue (1986, 1987), Endress (1987), Friis et al. If the answer to the preceding question is "yes," how does this evo-devo mechanism affect arthropod antagonist body allometries and population ecology? Further, the evo-devo of flight is yet another conundrum in paleoentomology (Grimaldi and Engel 2005). Poleward migration of early angiosperm flora - angiosperms only displaced the relict Jurassic-type flora at high latitudes in late Cretaceous time.

(2017) compile particularly relevant reference lists. Flowering material of Degeneria vitiensis is shown in the right-hand image (photographed by Paddy Ryan, Ph. Fragrance of this species resembles Cananga odorata according to Professor Al Smith (A. While discussing the effects of ice-house/hot house planetary climatic switches on expansion of land plant invertebrate herbivores Labandeira (2006) states: "One possibility is that these atmospheric variables have direct physiologic consequences on the selection and turnover of particular plant clades globally, which in turn elicit an associational response from selected clades of insect herbivores." The preceding statement is quoted from page 425 of C. Labandeira (2006), The four phases of plant-arthropod associations in deep time, Geologica Acta 4(4): 409-438. Additional compilations on the origin of angiosperms and floral morphology include Krassilov (1991), Thorne (1992), Endress (1993, 2001 [a book chapter and two papers], 2004), Friedman (1992 [two papers]), Stewart and Rothwell (1993), Nixon et al. Studies on Drosophila melanogaster eggs, specifically, artificial size-selection experimentation, affects larval patterning and body allometry (Miles et al. Do host seed plant brassinolides and other hormones affect insect antagonist egg size, potentially controlling larval tissue patterning? At the very earliest, flying insects were known from the Devonian Period.

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Studies of evolving allometries and body plans might help us understand a possible coevolutionary origin of angiosperms and certain clades of holometabolous phytophagous insect antagonists. Molecular control over arthropod growth varies among the major clades of insects (Grimaldi and Engel 2005).

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.

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.

Could paleoecologists benefit by studying experimental, 3-D printed artificial constructs of shoots and protoflowers in theoretical morphospace? By measuring and scaling detached and shed foliar and cone- floral-organs, and by combining these data with studies of permineralizations, "fingerprints of developmental regulation" (quoted from page 723, Sanders et al.

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