Bursa copulatrix (gastropods)

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Simplified diagram of the reproductive morphology of a pulmonate land snail.
AG = albumen gland
BC = bursa copulatrix
BT = bursa tract/trunk (bursal duct)
BTD = bursa tract diverticulum
D = love dart
EP = epiphallus
FL = flagellum
FP = fertilization pouch
G = genital pore
HD = hermaphroditic duct
MG = mucous glands (nidamental gland)
OT = ovotestis
P = penis
PRM = penis retractor muscle
S = stylophore or dart sac (bursa telae)
SO = spermoviduct
SP = spermathecae
SRO = spermatophore-receiving organ (indicated in grey)
V = vagina
VD = vas deferens Love dart drawing.png
Simplified diagram of the reproductive morphology of a pulmonate land snail.
AG = albumen gland
BC = bursa copulatrix
BT = bursa tract/trunk (bursal duct)
BTD = bursa tract diverticulum
D = love dart
EP = epiphallus
FL = flagellum
FP = fertilization pouch
G = genital pore
HD = hermaphroditic duct
MG = mucous glands (nidamental gland)
OT = ovotestis
P = penis
PRM = penis retractor muscle
S = stylophore or dart sac (bursa telae)
SO = spermoviduct
SP = spermathecae
SRO = spermatophore-receiving organ (indicated in grey)
V = vagina
VD = vas deferens

The bursa copulatrix, also known as gametolytic sac or gametolytic gland, [1] is an anatomical structure found in the female and hermaphroditic reproductive system of various gastropods, playing a central role in the digestion or storage of spermatozoa after copulation. It is typically connected to the reproductive tract through a bursal duct, and may be associated with other reproductive structures such as the albumen gland, seminal receptacle, or the hermaphroditic duct, among others. It shows considerable morphological variation across taxonomic groups, reflecting its adaptive role in gastropod reproductive strategies. [2] [3] It is morphologically and functionally diverse among gastropods and has significant implications for understanding the evolutionary biology and systematics of the group. [4]

References

  1. Ponder et al., 2020, p. 480.
  2. Ponder et al., 2019, pp. 424–426; 461–463.
  3. Ponder et al., 2020, pp. 357, 397–398, 484–485, 487–494.
  4. Ponder et al., 2020, pp. 397–398, 484–485, 487–494.

Literature cited