METHODS OF BREAKING SEED DORMANCY IN ENDANGERED SPECIES ILIAMNA-COREI(SHERFF) SHERFF (MALVACEAE), WITH SPECIAL ATTENTION TO HEATING

Citation
Jm. Baskin et Cc. Baskin, METHODS OF BREAKING SEED DORMANCY IN ENDANGERED SPECIES ILIAMNA-COREI(SHERFF) SHERFF (MALVACEAE), WITH SPECIAL ATTENTION TO HEATING, Natural areas journal, 17(4), 1997, pp. 313-323
Citations number
68
Categorie Soggetti
Biology,Ecology,Forestry
Journal title
ISSN journal
08858608
Volume
17
Issue
4
Year of publication
1997
Pages
313 - 323
Database
ISI
SICI code
0885-8608(1997)17:4<313:MOBSDI>2.0.ZU;2-D
Abstract
Iliamna corei (Sherff) Sherff, an herbaceous perennial plant listed by the U.S. Fish and Wildlife Service as endangered, is known only from a single site, on Peters Mountain in Giles County, Virginia. Seed dorm ancy in this species is due to a water-impermeable seed coat. Dormancy was broken in a high percentage of seeds by mechanical scarification, dipping in boiling water, dry-heating, and soaking in concentrated su lfuric acid. However, soaking in absolute ethanol, shifting from low t o high temperature regimes, or alternate freezing and thawing did not break seed dormancy. Fire was effective in breaking dormancy of seeds on the soil surface, but not in those covered with 3 cm of soil. Seeds matured and sown in 1989 in greenhouse flats and burned each June fro m 1990 to 1995 had germinated to the following percentages by Septembe r 1995: buried and nonburned-2%, nonburied and nonburned-3%, buried an d burned-3%, and nonburied and burned-39%. After five heating (to 80-9 0 degrees C)/incubation (25/15 degrees C) cycles, germination in flats from the burning experiment had increased to the following: buried an d nonburned-60%, nonburied and nonburned-61%, buried and burned-45%, a nd nonburied and burned-71%. Furthermore, at least 65% of 1,800 seeds were viable and germinable after more than 3 years in the ''seed bank. '' Thus, seeds of I. corei (1) require fire to germinate, (2) are capa ble of forming a long-lived seed bank, and (3) exhibit a continuum wit h regard to degree of seed coat dormancy. These results and those of o thers on the biology of I. corei and two of its closely related specie s, I. remota Greene and I. rivularis(Dougl.) Greene, were used to modi fy Buttrick's (1992) conceptual model of the population dynamics of I. corei in relation to fire and canopy development.