Silverleaf nightshade (Solanum elaeagnifolium Cav.) is a noxious weed that threatens agricultural productivity and biodiversity worldwide. The long‐term management of soil seedbanks along with the aboveground populations of silverleaf nightshade has the potential to effectively control the species in its introduced range. Implementation of this strategy requires insights into the germination behavior of the weed in response to various environmental stimuli and endogenous cues. We assessed the morphology and germination of silverleaf nightshade seeds from an agricultural farm, native rangelands, and an urban site in Texas, USA. The effects of growth substrate, phytohormones, and salt treatments on seed germination were also evaluated to identify potential stimulus that can be used to manipulate germination in the species. Results of the study showed that silverleaf nightshade seeds from the agricultural farm were the largest, while those from the Littlefield rangeland were the smallest. Seeds collected from the urban site and agricultural farm have higher germination rates than those sampled from the rangelands. Compared to domesticated crops, silverleaf nightshade seeds require longer imbibition time. Seed germination was better in potting mix than in sand or combined potting mix and sand and was significantly reduced by salt and abscisic acid treatments. Overall, results of the study highlight the crucial role of local environments in conditioning the transgenerational adaptation of species, particularly with respect to germination. Recommendations for silverleaf nightshade control are presented based on the observed variations in the germination behavior of populations within specific ranges.
Increasing costs and environmental issues regarding excessive use of peat moss is impacting the horticultural industry. Biochar is a valuable substrate additive that has the potential to reduce the use of peatmoss in greenhouse production. However, its varying effects on ornamentals requires that individual species and cultivars of crops must be evaluated to determine the threshold for benefits. Viola cornuta is a high value ornamental crop; however, information on how different rates of biochar rates affect productivity and physiology of Viola cultivars in container production is not known. To determine if biochar rates could increase the productivity of Viola, we mixed a peat-based substrate with 10, 25, and 50% (w:w) hardwood biochar in two studies on four cultivars. Without fertilizers, 10 and 25% biochar improved plant biomass, growth, root length, and flowering, but 50% biochar was found to have negative effects on plant growth and flowering. Cultivars varied in their response to biochar rates. When fertilizer was applied in the second experiment, biochar rates did not impact growth parameters or flowering. These results suggest that up to 25% biochar can be used in Viola production without detrimental impacts. However, 50% biochar can be used with the addition of fertilizer without negatively affecting plant growth. Biochar can have a short-term impact on the growth characteristics of Viola plants in container production, but fertilization and growing period of Viola may influence these effects. These results indicate that biochar could be the suitable replacement for peat moss, with up to 50% biochar rate in Viola production reducing the environmental and economic burden for peat moss.
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