Temperature control of seed germination in Fritillaria tubiformis subsp. moggridgei (Liliaceae) a rare endemic of the South-west Alps

Fritillaria tubiformis subsp. moggridgei (Liliaceae) is a rare, endemic species that inhabits open mountains and alpine grasslands of the Ligurian Alps. At the time of seed dispersal, the underdeveloped embryos were 27% the length of the seed. Here we report the results of laboratory experiments car...

Full description

Saved in:
Bibliographic Details
Published in:Seed science research 2011-03, Vol.21 (1), p.33-38
Main Authors: Carasso, Valentina, Hay, Fiona R., Probert, Robin J., Mucciarelli, Marco
Format: Article
Language:English
Subjects:
alpine plants
ambient temperature
embryo (plant)
embryogenesis
Embryos
Endemic species
Fritillaria
Fritillaria tubiformis subsp. moggridgei
gibberellic acid
Grasslands
indigenous species
Mountains
Rare species
root radicle
seasonal development
seasonal variation
Seed dispersal
Seed germination
seedling emergence
Seeds
snow
Snow cover
Snowmelt
soil temperature
Temperature control
threatened species
wild plants
Winter
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Fritillaria tubiformis subsp. moggridgei (Liliaceae) is a rare, endemic species that inhabits open mountains and alpine grasslands of the Ligurian Alps. At the time of seed dispersal, the underdeveloped embryos were 27% the length of the seed. Here we report the results of laboratory experiments carried out to determine the temperature preferences for embryo growth and radicle emergence. Embryo growth commenced immediately after sowing at 4°C. Once the embryo had grown the length of the seed, the radicle emerged. The time required for embryo growth and radicle emergence was longer when seeds were placed through a seasonal sequence of temperatures, commencing with late summer (10/20°C), compared with seeds immediately placed at a temperature to simulate winter conditions (4°C). Prematurely transferring seeds from winter to spring temperatures (5/10°C) also slowed the progress of germination. Radicle emergence did not occur at 10 or − 5°C and less than 20% germination occurred in seeds placed at constant 0°C. Addition of gibberellic acid (GA3) did not promote embryo growth of seeds placed at 20°C. Overall, the temperature preferences for embryo growth and subsequent radicle emergence are such that, in situ, seed germination may occur during the winter under snow cover or at the end of winter to coincide with snow melt and warming temperatures.
ISSN:0960-2585
1475-2735
DOI:10.1017/S0960258510000310