Family name: Petrosaviaceae J. Hutchinson
Synonym(s): Japonoliriaceae Takht.; Miyoshiaceae Nakai; Nartheciaceae Fr. ex Bjurzon tr. Petrosavieae; Nartheciaceae Fr. ex Bjurzon tr. Japonolirieae; Protoliriaceae Makino, nom. inval.
Common name(s): petrosavia family
*Number of genera/species: 2/4
List of genera records in GRIN-Global
seed
Fruit schizocarpschizocarp:
fruit formed from a single ovary, with fused carpels, with or without accessory tissue; splitting between locules to form distinct, indehiscent, usually one seeded segments; usually dry, rarely fleshy (compare mericarp)
of three folliclesfollicles:
a dry to (rarely) fleshy fruit derived from a single carpel that opens along a single longitudinal suture; the seeds may be arillate or with a fleshy testa
, 2–4 mm long, folliclesfollicles:
a dry to (rarely) fleshy fruit derived from a single carpel that opens along a single longitudinal suture; the seeds may be arillate or with a fleshy testa
basally fused and radiate at maturity (Petrosavia) or not appearing more like a capsulecapsule:
a dry, dehiscent fruit formed by two or more carpels
(Japonlirion), 4–6 seeded (Japonlirion) or many seeded (Petrosavia). Folliclefollicle:
a dry to (rarely) fleshy fruit derived from a single carpel that opens along a single longitudinal suture; the seeds may be arillate or with a fleshy testa
trigonous or ellipsoidellipsoid:
3D shape—elliptic
, tereteterete:
approximately circular in cross section; width and thickness approximately equal
to slightly angledangled:
2D shape—having sides that meet at acute or obtuse angles
in transectiontransection:
a cross section; representing a plane made by cutting across an organ at a right angle to its length
, with stylestyle:
in a flower, the narrow and elongated part of the pistil between the stigma and the ovary; sometimes persisting in fruit
or stylar remnantsstylar remnants:
remnant of a style
. Pericarppericarp:
fruit wall or fruit coat
white to brown, firmfirm:
texture—yielding under only moderately strong pressure; only slightly deformable without internal structural disruption
, smooth or striatestriate:
surface relief—having fine, parallel lines, grooves or ridges
.
Seed oblongoblong:
2D shape—much longer than broad with nearly parallel sides, corners are rounded
to ovateovate:
2D shape—egg-shaped in outline, widest point is towards one end of the organ, the other end tapers gradually, attachment at or near the broad end (compare obovate, ovoid)
, 0.3–0.8 mm long, hyalinehyaline:
thin, membranous, and translucent or transparent
wing around seed body (Petrosavia) or without wings (Japonolirion). Seed coat brown, membranousmembranous:
texture—extremely thin, pliable, and fairly tough
, reticulatereticulate:
surface relief—netted, raised walls or concave grooves forming a net-like surface pattern with flat, concave, or convex interspaces
or striatestriate:
surface relief—having fine, parallel lines, grooves or ridges
.
Embryo rudimentary, minute, straight. Endospermendosperm:
nutritive starch- and oil-containing tissue present in many seeds
copious.
Fruit | |
Type | schizocarp schizocarp: fruit formed from a single ovary, with fused carpels, with or without accessory tissue; splitting between locules to form distinct, indehiscent, usually one seeded segments; usually dry, rarely fleshy (compare mericarp) of follicles |
Size range | 2–4 mm long |
Shape(s) | trigonous trigonous: 3D shape—having three faces that meet at distinct angles; triangular in outline or ellipsoid |
Texture | firmfirm: texture—yielding under only moderately strong pressure; only slightly deformable without internal structural disruption |
Surface relief | smooth, striate |
Color(s) | white, light brown |
Unique features | Small, schizocarpschizocarp: fruit formed from a single ovary, with fused carpels, with or without accessory tissue; splitting between locules to form distinct, indehiscent, usually one seeded segments; usually dry, rarely fleshy (compare mericarp) of three-follicles, white or brown. FolliclesFollicles: a dry to (rarely) fleshy fruit derived from a single carpel that opens along a single longitudinal suture; the seeds may be arillate or with a fleshy testa trigonoustrigonous: 3D shape—having three faces that meet at distinct angles; triangular in outline or ellipsoidellipsoid: 3D shape—elliptic , basally united and recurved or weakly, united along length. |
Seed | |
Size range | 0.3–0.8 mm long |
Shape(s) | oblong, ellipsoidellipsoid: 3D shape—elliptic , ovoid |
Surface relief | reticulate, striate |
Color(s) | brown |
Unique features | Small, brown seeds with membranousmembranous: texture—extremely thin, pliable, and fairly tough , reticulatereticulate: surface relief—netted, raised walls or concave grooves forming a net-like surface pattern with flat, concave, or convex interspaces seed coats. Or, minute brown seeds, with hyalinehyaline: thin, membranous, and translucent or transparent wing around seed body and membranousmembranous: texture—extremely thin, pliable, and fairly tough , striatestriate: surface relief—having fine, parallel lines, grooves or ridges seed coats. |
Other | |
Embryo | rudimentary, minute, straight |
Nutritive tissuenutritive tissue: tissue within the seeds that nourishes the developing embryo; such as endosperm, perisperm, or chalazosperm in angiosperms; megagametophyte in gymnosperms |
endosperm endosperm: nutritive starch- and oil-containing tissue present in many seeds copious |
Eastern Asia, West Malesia.
Distribution map courtesy of Angiosperm Phylogeny Website.
Baskin and Baskin 2021Baskin and Baskin 2021:
Baskin C and Baskin J. 2021. Relationship of the lateral embryo (in grasses) to other monocot embryos: A status up-grade. Seed Science Research 31 (3): 199-210. doi:10.1017/S0960258521000209; Dahlgren et al. 1985Dahlgren et al. 1985:
Dahlgren RMT, Clifford HT, and Yeo PF. 1985. The families of the monocotyledons: structure, evolution, and taxonomy. Springer-Verlag, Berlin. 520 pp.; Kirkbride et al. 2006Kirkbride et al. 2006:
Kirkbride JH, Jr, Gunn CR, and Dallwitz MJ. 2006. Family guide for fruits and seeds, vers. 1.0. Accessed September 2020ndash;January 2022. URL: https://nt.ars-grin.gov/seedsfruits/keys/frsdfam/index.cfm .; Kubitzki et al. 1990+Kubitzki et al. 1990+:
Kubitzki K et al., eds. 1990+. The families and genera of vascular plants. 7+ vols. Berlin etc.; Nooteboom et al. 2021; Ohwi 1965Ohwi 1965:
Ohwi J. 1965. Flora of Japan: in English: combined, much revised, and extended translation. Meyer FG and Walker EH (eds). Smithsonian Institution, Washington, D.C. 1067 pp. https://doi.org/10.5962/bhl.title.43786; Remizowa et al. 2017Remizowa et al. 2017:
Remizowa MV, Nuraliev MS, Averyanov Leonid V, Kuznetsov AN, and Kuznetsova SP. 2017. A revision of the family Petrosaviaceae in Vietnam. Nordic Journal of Botany 35 (3): 262ndash;271. https://doi.org/10.1111/njb.01480; Stevenson and Loconte 1995Stevenson and Loconte 1995:
Stevenson DW and Loconte H. 1995. A cladistic analysis of monocot families. In: Rudall PJ, Cribb PJ, Cutler DF, and Humphries CJ, eds. Monocotyledons: Systematics and Evolution. Royal Botanic Gardens, Kew.; Takhtajan 2009Takhtajan 2009:
Takhtajan A. 2009. Flowering plants: Second edition. Springer Nature, Switzerland. 871 pp.; Watson and Dallwitz 1992+Watson and Dallwitz 1992+:
Watson L and Dallwitz MJ. 1992+. The families of flowering plants: descriptions, illustrations, identification, and information retrieval. Version: 6th Accessed September 2020-September 2022. URL: delta-intkey.com; Zhengyi et al. 2004+Zhengyi et al. 2004+:
Zhengyi W, Raven PH, and Deyuan H. 2004+. Flora of China [online]. 25 vols. Science Press, Beijing China amp; Missouri Botanical Garden, St. Louis USA. Accessed January-December 2021. http://flora.huh.harvard.edu/china/
*The number of genera and species is based on Christenhusz and Byng 2016Christenhusz and Byng 2016:
Christenhusz MJM and Byng JW. 2016. The number of known plant species in the world and its annual increase. Phytotaxa 261 (3): 201ndash;217. https://doi.org/10.11646/phytotaxa.261.3.1, which may differ from the number of genera in GRIN-Global.