Y. Lopes, L. F. C. Chaves, F.B.F. Souza, J. W. D. L. Pereira, R. R. C. Carvalho, J. L. S. C. Carvalho Filho
{"title":"温度、基质和光照对毛茛种子休眠的影响","authors":"Y. Lopes, L. F. C. Chaves, F.B.F. Souza, J. W. D. L. Pereira, R. R. C. Carvalho, J. L. S. C. Carvalho Filho","doi":"10.1590/2179-8087-floram-2020-0049","DOIUrl":null,"url":null,"abstract":"The subjugation of global ecosystems by human beings has increased the rates of extinction, threatening not just the well-being of people, but also affecting the natural ecosystems services (Johnson et al., 2017). In Brazil, several forest ecosystems are degraded as a result from the anthropic activities. For this reason, restoring and expanding these environments turned into an important task, which is beneficial for biodiversity, climate, water quality, as well as for providing other ecosystem services (Bright et al., 2017; Houghton & Nassikas, 2018). Due to the forest restoration expansion and the increasing demand for seedlings production, studies focused on the ecophysiology of seed germination in native forest species are on the rise due to their environmental and economic potential use. Moreover, it contributes to the rational exploitation and use of these species (Rodrigues Filho et al., 2019; Santos et al., 2019; Oliveira et al., 2020a). Among the species that may be used on forest restoration is Colubrina glandulosa Perkins (Rhamnaceae). This native species is a pioneer that occurs from the eastern coast of Brazil to Paraguay and Peru. It grows quickly, facilitating the establishment of other species that require shading areas, thus being important for the ecological succession. In addition, it has a huge using potential in carbon compensation projects and its seeds present physical dormancy, which allows them to remain inactive in the seed bank, an important strategy for the population dynamics (Silva et al., 2015; Marcos Filho, 2015; Camara et al., 2017; Morais Júnior et al., 2018; Melo Júnior et al., 2018). However, there is no methodology available in the Rules for Seed Analysis (Brasil, 2009) that determines procedures to be applied for germination tests in this species (Melo Júnior et al., 2018). Abstract This study aimed to define a methodology that, when combined with temperature, can overcome the dormancy and also to determine the adequate substrate and light conditions for germination of Colubrina glandulosa Perkins, contributing to seed analysis and restoration projects. In the experiment of dormancy and temperature, seeds were immersed in sulfuric acid for 30, 60, 90, 120 and 150 minutes and set to germinate at temperatures of 20-30 °C, 25 °C and 30 °C. The used substrates were sand, vermiculite, Tropstrato® substrate, coconut powder, blotting paper and paper towel. As for the light supplied, the seeds were subjected to four luminosity regimes: white light, far-red light, red light and light absence. Temperatures of 20-30 °C and 30 °C achieved better results, with exposure in sulfuric acid for 120 and 150 minutes. The substrates sand and vermiculite were the most suitable. The species germinated in all light regimes treatments used.","PeriodicalId":46895,"journal":{"name":"Floresta e Ambiente","volume":"5 1","pages":""},"PeriodicalIF":0.5000,"publicationDate":"2021-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"1","resultStr":"{\"title\":\"Dormancy Breaking and the Influence of Temperature, Substrate and Light on Germination of Colubrina glandulosa Seeds\",\"authors\":\"Y. Lopes, L. F. C. Chaves, F.B.F. Souza, J. W. D. L. Pereira, R. R. C. Carvalho, J. L. S. C. Carvalho Filho\",\"doi\":\"10.1590/2179-8087-floram-2020-0049\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"The subjugation of global ecosystems by human beings has increased the rates of extinction, threatening not just the well-being of people, but also affecting the natural ecosystems services (Johnson et al., 2017). In Brazil, several forest ecosystems are degraded as a result from the anthropic activities. For this reason, restoring and expanding these environments turned into an important task, which is beneficial for biodiversity, climate, water quality, as well as for providing other ecosystem services (Bright et al., 2017; Houghton & Nassikas, 2018). Due to the forest restoration expansion and the increasing demand for seedlings production, studies focused on the ecophysiology of seed germination in native forest species are on the rise due to their environmental and economic potential use. Moreover, it contributes to the rational exploitation and use of these species (Rodrigues Filho et al., 2019; Santos et al., 2019; Oliveira et al., 2020a). Among the species that may be used on forest restoration is Colubrina glandulosa Perkins (Rhamnaceae). This native species is a pioneer that occurs from the eastern coast of Brazil to Paraguay and Peru. It grows quickly, facilitating the establishment of other species that require shading areas, thus being important for the ecological succession. In addition, it has a huge using potential in carbon compensation projects and its seeds present physical dormancy, which allows them to remain inactive in the seed bank, an important strategy for the population dynamics (Silva et al., 2015; Marcos Filho, 2015; Camara et al., 2017; Morais Júnior et al., 2018; Melo Júnior et al., 2018). However, there is no methodology available in the Rules for Seed Analysis (Brasil, 2009) that determines procedures to be applied for germination tests in this species (Melo Júnior et al., 2018). Abstract This study aimed to define a methodology that, when combined with temperature, can overcome the dormancy and also to determine the adequate substrate and light conditions for germination of Colubrina glandulosa Perkins, contributing to seed analysis and restoration projects. In the experiment of dormancy and temperature, seeds were immersed in sulfuric acid for 30, 60, 90, 120 and 150 minutes and set to germinate at temperatures of 20-30 °C, 25 °C and 30 °C. The used substrates were sand, vermiculite, Tropstrato® substrate, coconut powder, blotting paper and paper towel. As for the light supplied, the seeds were subjected to four luminosity regimes: white light, far-red light, red light and light absence. Temperatures of 20-30 °C and 30 °C achieved better results, with exposure in sulfuric acid for 120 and 150 minutes. The substrates sand and vermiculite were the most suitable. 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引用次数: 1
摘要
人类对全球生态系统的征服增加了物种灭绝的速度,不仅威胁到人类的福祉,也影响到自然生态系统的服务(Johnson et al., 2017)。在巴西,一些森林生态系统由于人类活动而退化。因此,恢复和扩大这些环境成为一项重要任务,这有利于生物多样性,气候,水质以及提供其他生态系统服务(Bright et al., 2017;霍顿和纳西卡斯,2018)。随着森林恢复的扩大和对幼苗生产需求的增加,原生森林物种种子萌发的生态生理研究越来越多,因为它们具有潜在的环境和经济价值。此外,它有助于这些物种的合理开发和利用(Rodrigues Filho et al., 2019;Santos等人,2019;Oliveira et al., 2020a)。其中可能用于森林恢复的物种是鼠李科(Rhamnaceae)的Colubrina glandulosa Perkins。这种本地物种是从巴西东海岸到巴拉圭和秘鲁的先驱。它生长迅速,有利于其他需要遮阳区域的物种的建立,因此对生态演替很重要。此外,它在碳补偿项目中具有巨大的利用潜力,其种子存在物理休眠,这使得它们在种子库中保持不活跃,这是种群动态的重要策略(Silva等人,2015;马科斯·菲略,2015;Camara et al., 2017;Morais Júnior et al., 2018;Melo Júnior et al., 2018)。然而,在《种子分析规则》(巴西,2009年)中没有可用的方法来确定该物种发芽试验的应用程序(Melo Júnior et al., 2018)。摘要:本研究旨在确定一种方法,当温度与休眠相结合时,可以克服休眠,并确定合适的萌发基质和光照条件,为种子分析和恢复项目提供依据。在休眠和温度实验中,种子在硫酸中浸泡30、60、90、120和150分钟,并在20-30℃、25℃和30℃的温度下发芽。所用底物为沙子、蛭石、Tropstrato®底物、椰子粉、吸墨纸和纸巾。至于提供的光,种子受到四种光度制度:白光,远红光,红光和无光。20-30°C和30°C的温度下,在硫酸中暴露120和150分钟,效果更好。基质砂和蛭石是最合适的基质。该物种在所有光照条件下都能发芽。
Dormancy Breaking and the Influence of Temperature, Substrate and Light on Germination of Colubrina glandulosa Seeds
The subjugation of global ecosystems by human beings has increased the rates of extinction, threatening not just the well-being of people, but also affecting the natural ecosystems services (Johnson et al., 2017). In Brazil, several forest ecosystems are degraded as a result from the anthropic activities. For this reason, restoring and expanding these environments turned into an important task, which is beneficial for biodiversity, climate, water quality, as well as for providing other ecosystem services (Bright et al., 2017; Houghton & Nassikas, 2018). Due to the forest restoration expansion and the increasing demand for seedlings production, studies focused on the ecophysiology of seed germination in native forest species are on the rise due to their environmental and economic potential use. Moreover, it contributes to the rational exploitation and use of these species (Rodrigues Filho et al., 2019; Santos et al., 2019; Oliveira et al., 2020a). Among the species that may be used on forest restoration is Colubrina glandulosa Perkins (Rhamnaceae). This native species is a pioneer that occurs from the eastern coast of Brazil to Paraguay and Peru. It grows quickly, facilitating the establishment of other species that require shading areas, thus being important for the ecological succession. In addition, it has a huge using potential in carbon compensation projects and its seeds present physical dormancy, which allows them to remain inactive in the seed bank, an important strategy for the population dynamics (Silva et al., 2015; Marcos Filho, 2015; Camara et al., 2017; Morais Júnior et al., 2018; Melo Júnior et al., 2018). However, there is no methodology available in the Rules for Seed Analysis (Brasil, 2009) that determines procedures to be applied for germination tests in this species (Melo Júnior et al., 2018). Abstract This study aimed to define a methodology that, when combined with temperature, can overcome the dormancy and also to determine the adequate substrate and light conditions for germination of Colubrina glandulosa Perkins, contributing to seed analysis and restoration projects. In the experiment of dormancy and temperature, seeds were immersed in sulfuric acid for 30, 60, 90, 120 and 150 minutes and set to germinate at temperatures of 20-30 °C, 25 °C and 30 °C. The used substrates were sand, vermiculite, Tropstrato® substrate, coconut powder, blotting paper and paper towel. As for the light supplied, the seeds were subjected to four luminosity regimes: white light, far-red light, red light and light absence. Temperatures of 20-30 °C and 30 °C achieved better results, with exposure in sulfuric acid for 120 and 150 minutes. The substrates sand and vermiculite were the most suitable. The species germinated in all light regimes treatments used.