Chromosomes of caryophyllidean cestodes: Diploidy, triploidy, and parthenogenesis in Glaridacris catostomi

Abstract

Mitotic and meiotic chromosomes were studied in Giemsa post-stained Feulgen squashes of testicular, ovarian, and vitelline cells. G. catostomi is 2 n = 20 with eight pairs of metacentrics and two pairs of submetacentrics in its karyotype. The fundamental number of chromosome arms is FN = 40. At mitotic metaphase the mean total chromosome length (TCL) of the complement was 111·4 μm; the largest chromosomes were 8 μm (7% TCL) and the smallest 3 μm (3% TCL). Karyotype variation was not found among five diploid populations from New York State and Canada. Meiotic activity was abundant in spermatogenesis which proceeds as usual with sperm developing after two meiotic divisions. Chiasma frequency at diakinesis was 37/cell; as many as five chiasmata were observed in a single bivalent. A triploid ‘race’ (3 n = 30) of G. catostomi was discovered in Bozenkill Creek near Albany, New York. Karyotype analysis confirms the triploid nature of these variants. Spermatogenesis in triploids is abnormal to the point of complete failure. The presence of an extra set of chromosomes has resulted in a breakdown of meiosis with subsequent sterility of the male system. Eggs remain unfertilized and parthenogenetic reproduction is presumed to occur. The possible origins of this unusual condition and its evolutionary implications are discussed. Seventeen figures, two tables of measurements, and a system of chromosome nomenclature supplement the paper.