Identifying the optimum pretreatment duration and germination temperature for Abies nordmanniana [(Steven) Spach] seed, and assessing the effect of moisture content and storage temperature on seed longevity
Pg. Gosling et al., Identifying the optimum pretreatment duration and germination temperature for Abies nordmanniana [(Steven) Spach] seed, and assessing the effect of moisture content and storage temperature on seed longevity, SEED SCI T, 27(3), 1999, pp. 951-961
Abies nordmanniana has recently acquired significant popularity across Euro
pe as a high quality Christmas tree. However, commercially available seed i
s relatively scarce and often poor quality. The cause(s) of low germination
percentage in this species are currently unknown, but may be due to a comb
ination of inherently low viability, unreliable seed test methods, unexpect
edly rapid seed deterioration, ineffective dormancy breakage pretreatments
or extreme sensitivity to germination conditions. One good quality seedlot
(66% germination capacity) was prechilled for 0, 3, 6, 12, 24 and 48 weeks
(w) and then germinated over a range of constant temperatures (10, 15, 20,
25, 30, 35, 40 degrees C) and an alternating 20/30 degrees C (the current I
STA germination regime). A 6w prechill followed by 20 degrees C for 28 days
(d) was one of the best combinations of prechill period, germination tempe
rature and incubation duration and is therefore recommended for adoption by
the ISTA. 6-12w prechilling may be preferable for plant production purpose
s, especially when sowing early into cooler seedbeds (10-15 degrees C). A s
econd good quality seedlot (75% germination capacity) was stored at 10, 13
and 15 % moisture content (fresh weight basis), factorially combined with 5
, 15 and 25 degrees C for up to 104 weeks. Seed deterioration was very rapi
d in comparison to data published for most other conifers (especially pines
and spruces). At 15 and 25 degrees C seed was almost completely dead withi
n 16w, and even at the lowest temperature (5 OC) germination capacity had v
irtually halved within 32w. These results demonstrate the rapid death rate
of dry stored seeds of Abies nordmanniana and why even the shortest tempora
ry storage at ambient temperatures should be avoided.