P. Rungrojtrakool, Pimonrat Tiansawat, A. Jampeetong, D. Shannon, S. Chairuangsri
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The seed density of RF12y was significantly higher than that of both NF and AA but not significantly different than RF17y (p < 0.01). Although there was no significant relationship between the restoration ages and the seed densities of the soil seed banks, the species composition of standing vegetation was related to the seed bank species. Sorensen’s similarities between the species composition of the soil seed banks and the existing trees in each area were between 0 and 13.79%, suggesting seed dispersal of both within and across study sites. Eight out of fourteen species in the soil seed banks were dispersed into restoration sites without standing vegetation of those species. Seven of those were animal-dispersed species. The selected native trees, framework species, attracted small seed dispersers into the study areas, especially at the restoration sites. This finding suggests that active forest restoration improved natural regeneration in restoration sites as well as neighboring areas via seed dispersal.","PeriodicalId":43213,"journal":{"name":"Forest and Society","volume":null,"pages":null},"PeriodicalIF":1.7000,"publicationDate":"2021-04-25","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"2","resultStr":"{\"title\":\"Soil Seed Banks of Tree Species from Natural Forests, Restoration Sites, and Abandoned Areas in Chiang Mai, Thailand\",\"authors\":\"P. Rungrojtrakool, Pimonrat Tiansawat, A. Jampeetong, D. Shannon, S. Chairuangsri\",\"doi\":\"10.24259/fs.v5i1.11612\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Soil seed banks have been used for investigation of natural regeneration of forests. In this study, we compared seed density and species composition of soil seed banks of trees among natural forests, restored forests of different ages, and abandoned agricultural land. The soil seed banks were collected from a natural forest (NF), 12-year-old and 17-year-old restoration sites (RF12y and RF17y), and 17-year-old abandoned site (AA) at Ban Mae Sa Mai, Chiang Mai, Thailand. A seedling emergence technique was used to assess seed density and species of emerged seedlings was identified. We found 5-8 tree species at each site. Seed densities in the study areas ranged from 43 to 298 seeds/m2. The seed density of RF12y was significantly higher than that of both NF and AA but not significantly different than RF17y (p < 0.01). Although there was no significant relationship between the restoration ages and the seed densities of the soil seed banks, the species composition of standing vegetation was related to the seed bank species. 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引用次数: 2
摘要
土壤种子库已被用于森林自然更新的调查。本研究比较了天然林、不同龄期恢复林和撂荒农用地土壤树种种子库的种子密度和物种组成。土壤种子库收集自泰国清迈Ban Mae Sa Mai的天然林(NF)、12年和17年的恢复点(RF12y和RF17y)和17年的废弃点(AA)。采用出苗技术评价种子密度,鉴定出出苗种类。我们在每个地点发现了5-8种树种。研究区种子密度为43 ~ 298粒/m2。RF12y的种子密度极显著高于NF和AA,但与RF17y差异不显著(p < 0.01)。虽然恢复年龄与种子库种子密度关系不显著,但立地植被的物种组成与种子库物种有关。土壤种子库的物种组成与各地区现有树木的Sorensen相似度在0 ~ 13.79%之间,表明种子在研究点内和研究点间都有传播。土壤种子库中14种植物中有8种被分散到没有植被的恢复地点。其中7种是动物分散物种。所选择的本地树种,框架树种,吸引了小型种子传播者进入研究区域,特别是在恢复地点。这一发现表明,积极的森林恢复通过种子传播促进了恢复地点及其周边地区的自然更新。
Soil Seed Banks of Tree Species from Natural Forests, Restoration Sites, and Abandoned Areas in Chiang Mai, Thailand
Soil seed banks have been used for investigation of natural regeneration of forests. In this study, we compared seed density and species composition of soil seed banks of trees among natural forests, restored forests of different ages, and abandoned agricultural land. The soil seed banks were collected from a natural forest (NF), 12-year-old and 17-year-old restoration sites (RF12y and RF17y), and 17-year-old abandoned site (AA) at Ban Mae Sa Mai, Chiang Mai, Thailand. A seedling emergence technique was used to assess seed density and species of emerged seedlings was identified. We found 5-8 tree species at each site. Seed densities in the study areas ranged from 43 to 298 seeds/m2. The seed density of RF12y was significantly higher than that of both NF and AA but not significantly different than RF17y (p < 0.01). Although there was no significant relationship between the restoration ages and the seed densities of the soil seed banks, the species composition of standing vegetation was related to the seed bank species. Sorensen’s similarities between the species composition of the soil seed banks and the existing trees in each area were between 0 and 13.79%, suggesting seed dispersal of both within and across study sites. Eight out of fourteen species in the soil seed banks were dispersed into restoration sites without standing vegetation of those species. Seven of those were animal-dispersed species. The selected native trees, framework species, attracted small seed dispersers into the study areas, especially at the restoration sites. This finding suggests that active forest restoration improved natural regeneration in restoration sites as well as neighboring areas via seed dispersal.