• Aos., Aod., left and right aortic arches.
• ab, abdominal artery.
• ax, axillary vein.
• b, veins from body wall.
• br, brachial vein.
• br¹, brachial artery.
• c, cœliac artery.
• ca, caudal artery.
• capr, primary carotid.
• cc, collateralis colli artery.
• ce, cervical artery.
• cl, cloacal artery.
• cm, cm¹, common carotid artery.
• cr, crural artery.
• cv, caudal vein.
• da, dorsal aorta.
• dm, inferior dental artery of maxilla.
• dm¹, superior dental artery of maxilla.
• e, e¹, artery into skull, perhaps to ear.
• ej, external jugular vein.
• ep, internal epigastric vein.
• f, femoral vein.
• f¹, fibular artery.
• fb, fibular vein.
• g, gastric vein of portal.
• g¹, gastric vein of epigastric.
• ga, gastric artery.
• ghi, gastro-hepatico-intestinal artery.
• h, hepatic portal vein.
• he¹, he², hæmorrhoidal arteries.
• i, intestinal vein.
• ic, internal carotid artery.
• id, inferior dental vein.
• il, iliac vein.
• il¹, iliac artery.
• im, internal mammary vein.
• im¹, internal mammary artery.
• is, ischiadic vein.
• is¹, ischiadic artery.
• j, internal jugular vein.
• jm, jm¹, artery to jaw muscle.
• l, lingual vein.
• l¹, lingual artery.
• lg, laryngeal artery.
• lu, 1-7, lumber arteries (numbers on left side of figure).
• m, mesenteric vein.
• m¹, mesenteric artery.
• md, mandibular artery.
• mg, artery to musk gland.
• ms, muscular vein.
• n, artery to posterior nasal region.
• n¹, artery to anterior and mid-nasal region.
• n², artery to anterior nasal region.
• o¹-o⁴, arteries to eye.
• oc, artery to muscles at base of skull.
• oe, œsophageal arteries.
• pa, pelvic artery.
• pa¹, second pelvic artery.
• pb, post brachial vein.
• pc, post cava.
• pd, right pulmonary artery.
• pi, pancreo-intestinal artery.
• pl, pl¹, pelvic vein.
• plu, pleural artery.
• ps, left pulmonary artery.
• q, artery to muscle at angle of jaw.
• ra, radial vein.
• ra¹, radial artery.
• re, reproductive vein or artery.
• rp, renal portal vein.
• rt, rectal vein.
• rt¹, rectal artery.
• rv, renal vein.
• s, subclavian vein.
• sc, sciatic artery (Fig. 61).
• sc, subscapular vein (Fig. 60).
• sc¹, subscapular artery.
• sc.d., sc.s., right and left subclavian arteries.
• si, spleno-intestinal artery.
• sp, splenic vein.
• s.v., sinus venosus.
• t, thoracic vein.
• t¹, thoracic artery.
• tb, tibial artery.
• th, thyroid artery.
• tr, tracheal vein.
• u, 1-4, urogenital arteries (numbers on right side of figure).
• ul¹, ulnar artery.
• v, vertebral vein.
• v¹, vertebral artery.
• vca, anterior vena cava.
• vh, hepatic vein.
• vpd, vps, right and left pulmonary veins.
• x, x¹, connectives between collateralis colli and carotid.
• y, artery to shoulder and skin.
• z, z¹, z², branches of common carotid.
• 1¹, 2¹, 3¹, branches of ischiadic artery.

CHAPTER IX
THE DEVELOPMENT OF THE ALLIGATOR
(A. mississippiensis)

Introduction

With the exception of S. F. Clarke’s well-known paper, to which frequent reference will be made, practically no work has been done upon the development of the American alligator. This is probably due to the great difficulties experienced in obtaining the necessary embryological material. Clarke, some twenty years ago, made three trips to the swamps of Florida in quest of the desired material. The writer has also spent parts of three summers in the Southern swamps—once in the Everglades, once among the smaller swamps and lakes of central Florida, and once in the Okefinokee Swamp. For the first of these expeditions he is indebted to the Elizabeth Thompson Science Fund; but for the more successful trip, when most of the material for this work was collected, he is indebted to the Smithsonian Institution, from which a liberal grant of money to defray the expenses of the expedition was received.

The writer also desires to express his appreciation of the numerous courtesies that he has received from Dr. Samuel F. Clarke, especially for the loan of several excellent series of sections, from which a number of the earlier stages were drawn.

In preparing the material several kinds of fixation were employed, but the ordinary corrosive sublimate-acetic mixture gave about the most satisfactory results. Ten per cent. formalin, Parker’s mixture of formalin and alcohol, etc., were also used. In all cases the embryos were stained in toto with borax carmine, and in most cases the sections were also stained on the slide with Lyon’s blue. This double stain gave excellent results. Transverse, sagittal, and horizontal series of sections were made, the youngest embryos being cut into sections five microns thick, the older stages ten microns or more in thickness.

The Egg

Figures 1, 1a ([Plate VI.])

The egg ([Fig. 1]) is a perfect ellipse, the relative lengths of whose axes vary considerably in the eggs of different nests and slightly in the eggs of the same nest. Of more than four hundred eggs measured, the longest was 85 mm.; the shortest 65 mm. Of the same eggs, the greatest short diameter was 50 mm.; the least short diameter was 38 mm. The average long diameter of these four hundred eggs was 73.74 mm.; the average short diameter was 42.59 mm. The average variation in the long axis of the eggs of any one nest was 11.32 mm., more than twice the average variation in the short axis, which was 5.14 mm. No relation was noticed between the size and the number of eggs in any one nest. Ten eggs of average size weighed 812 grams—about 81 grams each.

Voeltzkow ([78]) states that the form of the egg of the Madagascar crocodile is very variable. No two eggs in the same nest are exactly alike, some being elliptical, some “egg-shaped,” and some “cylindrical with rounded ends.” The average size is 68 mm. by 47 mm., shorter and thicker than the average alligator egg.