Vegetative Propagation of Schizachyrium tenerum (Poaceae) Under Different Substrates and Environments

Sena, Letícia; Bahia, Thaise de Oliveira; Fernandes, Geraldo Wilson

doi:10.1590/2179-8087-floram-2020-0051

Cited by 2 publications

(3 citation statements)

References 34 publications

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“…Although S. metallicolus germinated and established in the post-mining substrate only, the mixture of post-mining and Further studies should evaluate if using a more fertile substrate would promote the production of larger seedlings in a shorter period without reducing plant establishment and growth rates when planted in degraded areas. In the production of grass seedlings, some grasses from dystrophic soils respond positively to fertilization (Oliveira et al 2021;Sena et al 2021). In contrast, some species adapted to dystrophic soils may have their development impaired or do not respond to fertilization (Lambers et al 2013;Bahia et al 2020).…”

Section: Discussionmentioning

confidence: 99%

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Native grass sod and plug production as an alternative technique to restore neotropical rupestrian grassland after mining

Figueiredo

Messias

Leite

et al. 2023

Restoration Ecology

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Despite the importance of grasses in the structure and functioning of tropical grasslands, there is still a lack of efficient and economically viable techniques to produce and introduce grasses in restoration projects. Here, we evaluated the sod and plug‐plant production and planting of a native grass from Brazilian rupestrian grasslands, Sporobolus metallicolus, in a post‐bauxite mining. To produce the sod, we used post‐mining substrate and its mixture with commercial substrate. Then, we sowed 270 seeds of S. metallicolus on a 4‐cm layer of substrate in 144‐cm2 trays. Eighty days after sowing, we subdivided the contents of each tray (substrate + plant) into 4 × 3–cm plug‐plants. Plug‐plants were planted in the degraded area with and without the incorporation of litter from an adjacent conserved rupestrian grassland. We also evaluated the cost of production of each plug‐plant. The mixture of substrates provided greater plant growth and rooting, obtaining plug‐plants with an average of 13 individuals, dry mass of 270 mg, and estimated cost of US$ 0.0045. In the degraded area, the addition of litter increased shoot biomass gain. Plant survival was 100% with and without litter addition and the plants started seed dispersal at 7 months after planting. The production of S. metallicolus plugs with the mixed substrate and the growth of plants in the post‐mined area showed promising results and reduced costs, indicating technical and financial feasibility. The presented techniques can be an option for introducing grasses in degraded areas and optimize the use of seeds.

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Section: Discussionmentioning

confidence: 99%

“…Among the other grass production techniques already studied (Oliveira et al 2021; Sena et al 2021) an innovative technique is the sod production, similar to the ornamental grass sod (turf) production (Lima et al 2010). Sod is produced by sowing, and after emerging, it can be divided into smaller pieces referred hereafter as plugs.…”

Section: Introductionmentioning

confidence: 99%

Native grass sod and plug production as an alternative technique to restore neotropical rupestrian grassland after mining

Figueiredo

Messias

Leite

et al. 2023

Restoration Ecology

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“…These species tend to invest more energy in the growth of the root system, making them less susceptible to water stress (Saboya and Borghetti, 2012) and possibly useful for restoring degraded sites (Gomes et al, 2015). Thus, root elongation promotes greater soil aggregation and better capture of limited resources, such as water and nutrients, for the maintenance and development of plants under normally stressful environmental conditions (Sena et al, 2021). The partition of biomass between root and shoot is often related to plants' ability to compensate for limited resources in the environment.…”

Section: Discussionmentioning

confidence: 99%

EMERGENCE, INITIAL GROWTH, AND SEEDLING QUALITY OF Eremanthus incanus: SUBSIDIES FOR GENETIC BREEDING AND CONSERVATION

Maravilha,

Titon,

Mucida

et al. 2023

Rev. Árvore

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So far, the commercial production of Eremanthus incanus seedlings has been performed with seeds without any genetic control. Thus, we propose two experiments to examine seed-trees' effect on their descendants via the seminal in the nursery phase and verify the correlation between the variables. We installed the first experiment in a greenhouse and evaluated seedling emergence weekly for 42 days. At the exit of the greenhouse, at 60 days, we estimated survival. We conducted the second experiment in a shade house and, later, in full sun. We evaluated seedlings' height, diameter, and survival at 90, 120, 150, and 180 days after sowing. At 180 days, we quantified shoot, root, and total dry matter weight and calculated the Dickson Quality Index (DQI). The effects of E. incanus seed-trees on their descendants via the seminal were significant for emergence, growth characteristics, and seedling quality. The seedling survival rate at the greenhouse exit was high for all seed-trees, ranging from 72.2% to 97.2%. All seed-trees showed greater biomass allocation in the shoots of the seedlings, with this proportion being more pronounced in some of them. Although not significant, the correlation estimates between the emergence rate and the other traits were all positive. The correlations between height, diameter, dry mass, and DQI were significant and positive, from moderate to high magnitude. Due to its nondestructive nature, the diameter can be considered the most suitable practical indicator to evaluate the quality of E. incanus seedlings. Our results substantially contribute to implementing more effective conservation and breeding strategies, helping to understand the behavior of E. incanus in Campos Rupestres environments regarding seedling production and recovery of ecosystem services.

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Vegetative Propagation of Schizachyrium tenerum (Poaceae) Under Different Substrates and Environments

Cited by 2 publications

References 34 publications

Native grass sod and plug production as an alternative technique to restore neotropical rupestrian grassland after mining

Native grass sod and plug production as an alternative technique to restore neotropical rupestrian grassland after mining

EMERGENCE, INITIAL GROWTH, AND SEEDLING QUALITY OF Eremanthus incanus: SUBSIDIES FOR GENETIC BREEDING AND CONSERVATION

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