Commemoration of Comparative Cardiac Anatomy of the Reptilia I‐IV

Abstract Our understanding of the anatomy of hearts of ectothermic saurosids, or colloquially “reptiles”, was much advanced by the publication of the series of four papers under the heading of Comparative Cardiac Anatomy of the Reptilia in Journal of Morphology between 1971 and 1981. Here, I commemorate the papers, show how they moved our understanding forwards, and briefly describe the state‐of‐the‐art.

The first paper focused on the ventricle of the varanid lizards, or monitors, and emphasizes its prominent septa (Webb et al., 1971). Webb et al. were by no means the first to be intrigued by the monitor ventricles. Physiological experiments started by Harrison (White, 1968) and unequivocally completed by Warren Burggren and Kjell Johansen showed that the monitor ventricle is divided into a highpressure left side and a low-pressure right side, much like that in mammals (Burggren & Johansen, 1982;Johansen & Burggren, 1984).
Thanks to these efforts, the monitor heart is now a key case in textbooks on vertebrate anatomy and physiology to understand the evolution of the four-chambered hearts of mammals (Synapsida) and archosaurs (Sauropsida) from the undivided heart of the ancestral amniotes (Kardong, 2006;Randall, Burggren, French, & Eckert, 2002).
However, like so many studies in German, these were largely forgotten, or became illegible, as spoken and written English began to dominate over German and French in scientific communication (Buchanan, 1956;Reese, 1915;White, 1959). The value of the work of Webb et al. was the clear prose and bringing together fragmented literature with inconsistent terminology "The terminology used by Harrison is extremely confusing" (Webb et al., 1974). Further, they also brought back poorly appreciated works, including the marvelous study by Greil (Greil, 1903) from which Webb and colleagues reintroduced the German terms such as Muskelleiste for the so-called muscular ridge, or horizontal septum or folding septum, and the term Bulbuslamelle (which Brücke had given the mundane name of meat-pillar, "Fleischpolster" [Brücke, 1852]). Indeed, Figure 9 of Webb et al. (Webb et al., 1971), which was the prime illustration of the Muskelleiste and Bulbuslamelle, is readily comparable to Figure  including works in Latin, French, and Russian, also resulted in the second paper of the series (Webb et al., 1974). This article was a critique of nomenclature and although it focused on Squamata and Rhynchocephalia, its findings and recommendations also apply well to studies of hearts of Testudines (Jensen, Moorman, & Wang, 2014). The value and appreciation of reviving lost literature is acknowledged by later studies on ectothermic sauropsid hearts, also published in Journal of Morphology (Crossley & Burggren, 2009;Jensen, Abe, Andrade, Nyengaard, & Wang, 2010;Lopez et al., 2003;Starck, 2009;Young, Lillywhite, & Wassersug, 1993), as they cite Webb et al. (MacKinnon & Heatwole, 1981;Webb, 1979;Webb et al., 1971 ;Webb et al., 1974), Greil (Greil, 1903), and other classics.
In his final contribution (Webb, 1979), the findings on the crocodylian heart spurred Webb to re-evaluate the previous papers (Webb et al., 1971;Webb et al., 1974). While his description of the crocodylian heart still stands (Cook et al., 2017), the re-evaluations of the noncrocodylian ventricle were largely erroneous (see [Jensen et al., 2014] for a detailed discussion). Webb (Webb, 1979) emphasized correctly that it was now shown that the left side of the monitor ventricle has higher pressures than the right (Millard & Johansen, 1974), but he inferred that the monitor setting of "increased muscularization of the cavum arteriosum … applies equally to snakes," p. 232. The python ventricle in fact resembles the monitor ventricle functionally and anatomically, although the python ventricle has a particularly reduced cavum venosum, but the ventricle of non-python snakes is essentially an elongated variety of the typical lizard ventricle and not like the monitor ventricle [Jensen et al., 2014]. Accordingly, it is only in monitors and pythons that the pulmonary systolic blood pressure is substantially lower than the systolic blood pressure of the systemic circulation, whereas in other noncrocodylian ectothermic sauropsids the ventricle ejects blood with similar systolic pressure into the both circulations (Jensen et al., 2014). Webb (1979) (Webb et al., 1971), and on the right, Figure 5 of Tafel VIII of Greil (Greil, 1903) with complementary labeling (the image on the left is presented "as seen from behind" (Webb et al., 1971), whereas the image on the right is presented as seen from front. Webb et al. (Webb et al., 1971;Webb et al., 1974) made a very deliberate and successful attempt to bring to attention the marvelous study of Greil (Greil, 1903), including the emphasis on the two septa that divide the ventricle in systole, the Muskelleiste  (Poelmann et al., 2014) showed in another species of turtle (Pelodiscus) and a snake (Pantherophis) that the crest of the vertical septum is enriched in Tbx5 and that there is an additional gradient of Tbx5 on the Muskelleiste (now called the folding septum). While the newer findings questioned whether a gradient of Tbx5 is a marker of any particular septum, Jensen et al. (Jensen et al., 2018) showed that there is indeed a gradient of Tbx5 on the ventricular septum of the American alligator and Cuvier's dwarf caiman as expected on the basis of the initial study. The study of ventricular septum evolution is being approached by new techniques, but findings often hark back to much older findings and the last word has not been said.
In the inaugural issue of Journal of Morphology, the editor Charles Otis Whitman envisioned the journal as a "medium" to concentrate and remedy the "mixed character and scattered sources of our publications" (Whitman, 1887). Journal of Morphology has since published as many papers on ectothermic sauropsid heart morphology as The Anatomical Record and Journal of Anatomy together (as assessed from the reference list of [Jensen et al., 2014]). Indeed, the classical series of "Comparative Cardiac Anatomy of the Reptilia" brought much clarity to the "mixed character and scattered sources of our publications" and remains a key body of work to anyone interested in the anatomy and physiology of the ectothermic sauropsid heart.