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ArticleGrowth and physiological acclimation to shade in young plants of Adesmia bijuga Phil., critically endangered species in central Chile
XV World Forestry Congress, 2-6 May 2022
2022Also available in:
No results found.Adesmia bijuga Phil. is an endemic and endangered shrub species of central Chile. Its potential shade intolerance is one of the leading hypotheses for its vigor loss when the species grows beneath closed canopies. In this study we aimed to assess growth and physiological acclimation to shade in young of A. bijuga plants. A nursery experiment was established with three light levels based on the interception of photosynthetic active radiation (PAR) (TRT0: control at full sun, TRT60: 60% shaded, and TRT90: 90% shaded), and maintained for 71 days during the summer season. Growth and leaf morpho-physiological responses were evaluated at the beginning, at the middle, and at the end of the experiment. The shading treatment increased plant height (H) and live crown percentage (Lcrown) compared to the control treatment at full sun. However, light-saturated photosynthetic rate (Amax), dark respiration rate (Rd), and light compensation point (Gi) were higher in TRT60 than in the other treatments.No differences were found among treatments for the apparent quantum yield (α). At this stage of plant development, our results suggest high acclimation plasticity of A. bijuga to light levels; however, a semi-shade environment (i.e., TRT60) favored a better performance of the species. Keywords: Shade tolerance, photosynthesis, light acclimation, forest restoration. ID: 3624055 -
ArticlePost-fire regeneration of the critically endangered Nothofagus alessandrii Espinosa in the Maule region of central Chile
XV World Forestry Congress, 2-6 May 2022
2022Also available in:
No results found.The ruil (Nothofagus alessandrii Espinosa) forest is one of the most endangered forest ecosystems in central Chile whose regeneration is critically threatened. In this study, we sampled 36 plots (625 m2 each) in the distribution range of N. alessandrii and quantified regeneration of the species from seed after a catastrophic large-scale fire event occurred in 2017. By means of logistic regression and contingency tables, we related ruil’s seedling regeneration with vegetative cover, number of ruil individuals, richness of native species, density of Pinus radiata D. Don seedlings, and fire severity. Results indicate that fire severity was the most important variable explaining the probability of regeneration of N. alessandrii. Seedling recruitment was high in sites with low fire severity, but the opposite was true for sites severely burned by fire. Our results suggests that after a severe fire the restoration efforts of N. alessandrii should be concentrated on reforestation activities, but in low burned areas, efforts must be focused on the management and protection of the new recruits. Keywords: Ruil, fire severity, seedling regeneration, endangered species recovery ID: 3624046 -
ArticleEstablishment of seed zones based on native plant species
XV World Forestry Congress, 2-6 May 2022
2022Also available in:
No results found.Since forest ecosystems constitute a complex ecosystem, the health of the ecosystem must be maintained. Seed zones are areas of relative climatic similarity, and movement of seeds within them should help minimize maladaptation. This study intends to build Korean seed zones by applying the US seed zone construction method.In the United States, winter minimum temperature and annual heat: moisture index (AH:M; aridity) were used to construct seed zones. Climate data for the entire Korean Peninsula was provided by Worldclim. Winter minimum temperature was determined as the minimum value per cell from December through February and was classified into 5°F (2.2°C) bands ranging from <-15° to >35°F (-26.1 to 1.6°C). The AH:M data is average temperature (°C) plus 15°C (to obtain positive values) divided by precipitation in meters. The AH:M map was divided into six discrete classes (<–16, 16–19, 19–21, 21–24, 24–27, >27). Korean provisional seed zones of 65 climatic zones were formed by overlapping both maps. Five native plant species were selected to test correspondence with the provisional seed zones. For Pine(Pinus Densiflora), Oak(Quercus acutissima), Oyster oak(Quercus variabilis), the winter minimum temperature of 15– 20°F and the AH:M of 19–21 and 21–24°C/m accounted for 37%, 43%, and 34%, respectively. Due to the latent habitat area of fern wood(Acer pictum subsp. mono), the Maxent AUC was 0.844, showing a high fit. The winter minimum temperature of 20–25°F and AH:M of 16–19°C/m accounted for 42%. Due to the latent habitat of hornbeam(Carpinus tschonoskii), Maxent AUC was 0.930, showing high accuracy. The winter minimum temperature of 25–30°F and AH:M of <16°C/m occupied 33%. In this study, provisional Korean seed zones were established and their association with five native plant species was identified. This study will be used to define initial seed zones and identify seed zones inhabiting similar climatic zones. Keywords: Provisional seed zones; Climate variables; Ecosystem; MaxEnt; Korean Peninsula ID: 3623161
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