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Effect of the burial depth and environmental factors on the seasonal germination of bearded sprangletop ( L eptochloa fusca [ L .] K unth ssp. fascicularis [ L am.] N . S now)
Author(s) -
Altop Emine Kaya,
Mennan Husrev,
Phillippo Colin J.,
Zandstra Bernard H.
Publication year - 2015
Publication title -
weed biology and management
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.351
H-Index - 36
eISSN - 1445-6664
pISSN - 1444-6162
DOI - 10.1111/wbm.12078
Subject(s) - germination , biology , seedling , horticulture , agronomy , botany , zoology
Bearded sprangletop recently was introduced to Turkey, where it has adapted to rice cultivation and become an important weed in many regions of the country. Experiments were conducted to determine the effects of light, temperature, osmotic stress, salt stress, pH and flooding on bearded sprangletop germination and emergence. Mature bearded sprangletop seeds were collected from rice fields in A ugust 2008. Approximately 1250 seeds were wrapped in plastic fabric and buried at 2 or 10 cm in pots in flooded or non‐flooded conditions. In this experiment, seed germination in the light from the flooded and non‐flooded treatments began in the spring, peaked in summer and decreased in the fall. This pattern was repeated the following year after exposing the seeds to natural seasonal temperature changes. As either the level of water stress or N a C l concentration increased, cumulative seed germination decreased. No seed germinated when the N a C l concentration exceeded 400 mole. The level of seedling emergence decreased with an increasing burial depth. Under the flooded conditions, emergence began in late A pril and continued until early J uly, with peak emergence in the first week of J une. Under the non‐flooded conditions, bearded sprangletop emerged later than under the flooded conditions and the overall level of emergence was lower. The depth of burial and water stress appear to be the most important factors that limit seed germination. Germination was stimulated by light, suggesting that the seeds are positively photoblastic.