1. Optimising seed processing techniques to improve germination and sowability of native grasses for ecological restoration
- Author
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Jason Stevens, Wolfgang Lewandrowski, Simone Pedrini, and Kingsley W. Dixon
- Subjects
0106 biological sciences ,Conservation of Natural Resources ,Germination ,Plant Science ,Biology ,Poaceae ,010603 evolutionary biology ,01 natural sciences ,Husk ,Grassland ,Restoration ecology ,Ecology, Evolution, Behavior and Systematics ,Chloris truncata ,geography ,geography.geographical_feature_category ,Ecology ,Microlaena stipoides ,food and beverages ,Sowing ,General Medicine ,biology.organism_classification ,Agronomy ,Seeds ,010606 plant biology & botany - Abstract
Grasslands across the globe are undergoing expansive degradation due to human impacts and climate change. If restoration of degraded native grassland is to be achieved at the scale now required, cost-effective means for seed-based establishment of grass species is crucial. However, grass seeds present numerous challenges associated with handling and germination performance that must be overcome to improve the efficiency of seeding. Previous research has demonstrated that complete removal of the palea and lemma (husk) maximises germination performance, hence we investigated the effects of complete husk removal on seed handling and germination of four temperate Australian grass species. Three techniques were tested to remove the husk - manual cleaning, flaming or acid digestion (the latter two followed by a manual cleaning step); these techniques were refined and adapted to the selected species, and germination responses were compared. The complete removal of the husk improved seed handling and sowability for all species. Germination was improved in Microlaena stipoides by 19% and in Rytidosperma geniculatum by 11%. Of the husk removal methods tested, flaming was detrimental to seed germination and fatal for one species (R. geniculatum). Compared to manual cleaning, sulphuric acid improved the overall efficacy of the cleaning procedure and increased germination speed (T50) in Austrostipa scabra, Chloris truncata and M. stipoides, and improved final germination in R. geniculatum by 13%. The seed processing methods developed and tested in the present study can be applied to grass species that present similar handling and germination performance impediments. These and other technological developments (seed coating and precision sowing) will facilitate more efficient grassland restoration at large scale.
- Published
- 2018
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