Abstract
Three types of mechanical papillae, i.e., conical, filiform, and hair-like papillae, are present on the tongue in the domestic goose. Within conical papillae, we distinguish three categories: large and small conical papillae on the body and conical papillae on the lingual prominence. The arrangement of mechanical papillae on the tongue in Anseriformes is connected functionally with different feeding mechanisms such as grazing and filter-feeding. The present work aims to determine whether morphology of three types of mechanical papillae in goose at the time of hatching is the same as in an adult bird and if the tongue is prepared to fulfill feeding function. Our results revealed that the primordia of the large conical papillae start to develop during the differentiation stage. The primordia of the small conical papillae and conical papillae of the lingual papillae start to develop during the growth stage. At the end of the growth stage, only large conical papillae, three pairs of small conical papillae, and conical papillae of the lingual prominence have similar arrangement as in an adult bird. The shape and arrangement of the remaining small conical papillae probably will be changed after hatching. During embryonic period, the filiform papillae and hair-like papillae are not formed. The embryonic epithelium that covered the mechanical papillae undergoes transformation leading to the formation of multilayered epithelium. During prehatching stage, epithelium becomes orthokeratinized epithelium. In conclusion, the tongue of the domestic goose after hatching is well prepared only for grazing. The filtration of food from water is limited due to the lack of filiform papillae.
Highlights
On the 12th day of incubation, a small groove is found in the central part of the first pair of papillae primordia, and the primordia are divided into two parts (Fig. 1b)
All primordia of large conical papillae are arranged at an angle of 80°–90° in relation to the long axis of the tongue
The rostral two-thirds of the tongue in birds is formed by merging the tuberculum impar and the right and left lateral lingual prominences, and the caudal one-third of the tongue is formed from copula (Lillie 1908)
Summary
The tongue in birds is characterized by significant variability between species in the range of size, shape, and type of lingual papillae, which are largely related to the type of food and the mechanism of food intake (Von Preuss et al 1969; McLelland 1979, 1990; Iwasaki and Kobayashi 1986; Kooloos 1986; Homberger and Meyers 1989; Vollmerhaus and Sinowatz 1992; Iwasaki et al 1997a, b; Zweers et al 1997; Van Der Leeuw et al 2003; Rossi et al 2005; Jackowiak and Godynicki 2005; Glatz et al 2006; Jackowiak et al 2010, 2011).The lingual papillae fulfill diverse functions during food intake, transport, and swallowing. Only one type of mechanical papillae has been found, such as conical papillae located on the border between the lingual body and root of the tongue (Iwasaki and Kobayashi 1986; Homberger and Meyers 1989; Jackowiak and Godynicki 2005; Rossi et al 2005; Emura and Chen 2008; Emura et al 2008, 2009, 2010; Igwebuike and Ukamaka, 2010; Parchami and Dehkordi 2011; Igwebuike and Anagor 2013). The conical papillae perform functions connected with retaining the food in the oral cavity and
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