{"title":"不断升高的气温为恢复濒临灭绝的特有和濒危的东方甜桉树(Liquidambar orientalis Mill.)提供了机会","authors":"OKAN ÜRKER, NURBAHAR USTA BAYKAL, EREN ADA","doi":"10.55730/1300-008x.2774","DOIUrl":null,"url":null,"abstract":"Evidence suggests that past climatic oscillations caused many species to drastically change their distribution range and had significant impacts on their survival capabilities. There is significant evidence suggesting that today's changing climate threatens many species to face a rapid extinction period in the coming decades and centuries. Understanding the changing range patterns provides significant input on biodiversity and conservation biology studies. However, warming climatic conditions may also present an opportunity for some species to expand their habitats?particularly those adapted to warmer environments. In this study, we asked how near-future climate change will affect the distribution range of the oriental sweetgum tree (Liquidambar orientalis Miller, 1867) which is a deciduous tertiary relict endemic species that forms the riparian forest ecosystems across southwestern Türkiye and Rhodes Island (Greece). Oriental sweetgum is on the verge of extinction due to past climate changes and current anthropogenic pressures such as deforestation and improper farming practices as well as insufficient conservation policies and efforts in place. As a result, sweetgum trees only survive in fragmented forest patches. To understand the species? possible response to globally rising temperatures, we explored the ecological and climatic factors that drive the distribution changes using a species distribution modeling approach. We predicted species' past (Mid-Holocene, approximately 6000 years ago), current, and future (2070) distribution ranges using maximum-entropy (MaxEnt) niche models built with WorldClim Version 1.4 climatic data. We found that regular water and warmer temperatures are particularly crucial for this species. The models showed a past (Mid-Holocene) expansion in suitable habitats in response to warmer conditions followed by a contraction as temperatures cooled down to the current climate. Most importantly, our future predictions showed that the species can possibly expand its distribution range to newly suitable habitats exhibiting a similar past response to the increasing temperatures. In this scenario, however, we suggest that it is extremely important to take necessary restoration and conservation steps for fragmented sweetgum forests to ensure species survival in the next centuries. We also believe that further research must be conducted to better understand species' ecological requirements and to provide crucial knowledge for future conversation approaches.","PeriodicalId":23369,"journal":{"name":"Turkish Journal of Botany","volume":"114 1","pages":"0"},"PeriodicalIF":1.5000,"publicationDate":"2023-09-26","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Increasing temperatures can pose an opportunity to recover endemic and endangered oriental sweetgum tree (Liquidambar orientalis Mill.) from extinction\",\"authors\":\"OKAN ÜRKER, NURBAHAR USTA BAYKAL, EREN ADA\",\"doi\":\"10.55730/1300-008x.2774\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Evidence suggests that past climatic oscillations caused many species to drastically change their distribution range and had significant impacts on their survival capabilities. There is significant evidence suggesting that today's changing climate threatens many species to face a rapid extinction period in the coming decades and centuries. Understanding the changing range patterns provides significant input on biodiversity and conservation biology studies. However, warming climatic conditions may also present an opportunity for some species to expand their habitats?particularly those adapted to warmer environments. In this study, we asked how near-future climate change will affect the distribution range of the oriental sweetgum tree (Liquidambar orientalis Miller, 1867) which is a deciduous tertiary relict endemic species that forms the riparian forest ecosystems across southwestern Türkiye and Rhodes Island (Greece). Oriental sweetgum is on the verge of extinction due to past climate changes and current anthropogenic pressures such as deforestation and improper farming practices as well as insufficient conservation policies and efforts in place. As a result, sweetgum trees only survive in fragmented forest patches. To understand the species? possible response to globally rising temperatures, we explored the ecological and climatic factors that drive the distribution changes using a species distribution modeling approach. We predicted species' past (Mid-Holocene, approximately 6000 years ago), current, and future (2070) distribution ranges using maximum-entropy (MaxEnt) niche models built with WorldClim Version 1.4 climatic data. We found that regular water and warmer temperatures are particularly crucial for this species. The models showed a past (Mid-Holocene) expansion in suitable habitats in response to warmer conditions followed by a contraction as temperatures cooled down to the current climate. Most importantly, our future predictions showed that the species can possibly expand its distribution range to newly suitable habitats exhibiting a similar past response to the increasing temperatures. In this scenario, however, we suggest that it is extremely important to take necessary restoration and conservation steps for fragmented sweetgum forests to ensure species survival in the next centuries. 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引用次数: 0
摘要
有证据表明,过去的气候波动导致许多物种急剧改变其分布范围,并对其生存能力产生重大影响。有重要的证据表明,今天不断变化的气候威胁着许多物种在未来几十年和几个世纪内面临快速灭绝的时期。了解变化的范围模式为生物多样性和保护生物学研究提供了重要的输入。然而,变暖的气候条件也可能为一些物种提供扩大栖息地的机会。尤其是那些适应了温暖环境的动物。在这项研究中,我们询问了近期气候变化将如何影响东方甜桉树(Liquidambar orientalis Miller, 1867)的分布范围。东方甜桉树是一种落叶第三纪的特有物种,形成了希腊基耶岛西南部和罗德岛的河岸森林生态系统。由于过去的气候变化和当前的人为压力,如森林砍伐和不当的耕作方式,以及保护政策和努力的不足,东方甜枫处于灭绝的边缘。因此,甜桉树只能在破碎的森林斑块中生存。为了了解这个物种?对全球气温上升的可能响应,我们使用物种分布建模方法探索了驱动分布变化的生态和气候因素。利用利用WorldClim Version 1.4气候数据建立的最大熵(MaxEnt)生态位模型,预测了物种过去(大约6000年前的全新世中期)、现在和未来(2070年)的分布范围。我们发现正常的水和温暖的温度对这个物种尤其重要。模型显示,在过去(全新世中期),适宜栖息地因气候变暖而出现扩张,随后随着温度降至当前气候而出现收缩。最重要的是,我们对未来的预测表明,该物种可能会扩大其分布范围,以适应新的栖息地,表现出与过去类似的对温度升高的反应。然而,在这种情况下,我们建议采取必要的恢复和保护措施,以确保该物种在未来几个世纪的生存是极其重要的。我们还认为,必须进行进一步的研究,以更好地了解物种的生态需求,并为未来的对话方法提供关键知识。
Increasing temperatures can pose an opportunity to recover endemic and endangered oriental sweetgum tree (Liquidambar orientalis Mill.) from extinction
Evidence suggests that past climatic oscillations caused many species to drastically change their distribution range and had significant impacts on their survival capabilities. There is significant evidence suggesting that today's changing climate threatens many species to face a rapid extinction period in the coming decades and centuries. Understanding the changing range patterns provides significant input on biodiversity and conservation biology studies. However, warming climatic conditions may also present an opportunity for some species to expand their habitats?particularly those adapted to warmer environments. In this study, we asked how near-future climate change will affect the distribution range of the oriental sweetgum tree (Liquidambar orientalis Miller, 1867) which is a deciduous tertiary relict endemic species that forms the riparian forest ecosystems across southwestern Türkiye and Rhodes Island (Greece). Oriental sweetgum is on the verge of extinction due to past climate changes and current anthropogenic pressures such as deforestation and improper farming practices as well as insufficient conservation policies and efforts in place. As a result, sweetgum trees only survive in fragmented forest patches. To understand the species? possible response to globally rising temperatures, we explored the ecological and climatic factors that drive the distribution changes using a species distribution modeling approach. We predicted species' past (Mid-Holocene, approximately 6000 years ago), current, and future (2070) distribution ranges using maximum-entropy (MaxEnt) niche models built with WorldClim Version 1.4 climatic data. We found that regular water and warmer temperatures are particularly crucial for this species. The models showed a past (Mid-Holocene) expansion in suitable habitats in response to warmer conditions followed by a contraction as temperatures cooled down to the current climate. Most importantly, our future predictions showed that the species can possibly expand its distribution range to newly suitable habitats exhibiting a similar past response to the increasing temperatures. In this scenario, however, we suggest that it is extremely important to take necessary restoration and conservation steps for fragmented sweetgum forests to ensure species survival in the next centuries. We also believe that further research must be conducted to better understand species' ecological requirements and to provide crucial knowledge for future conversation approaches.
期刊介绍:
The Turkish Journal of Botany is published electronically 6 times a year by the Scientific and Technological Research Council of Turkey (TÜBİTAK) and accepts manuscripts (in English) covering all areas of plant biology (including genetics, evolution, systematics, structure, function, development, diversity, conservation biology, biogeography, paleobotany, ontogeny, functional morphology, ecology, reproductive biology, and pollination biology), all levels of organisation (molecular to ecosystem), and all plant groups and allied organisms (algae, fungi, and lichens). Authors are required to frame their research questions and discuss their results in terms of major questions in plant biology. In general, papers that are too narrowly focused, purely descriptive, or broad surveys, or that contain only preliminary data or natural history, will not be considered (*).
The following types of article will be considered:
1. Research articles: Original research in various fields of botany will be evaluated as research articles.
2. Research notes: These include articles such as preliminary notes on a study or manuscripts on the morphological, anatomical, cytological, physiological, biochemical, and other properties of plant, algae, lichen and fungi species.
3. Reviews: Reviews of recent developments, improvements, discoveries, and ideas in various fields of botany.
4. Letters to the editor: These include opinions, comments relating to the publishing policy of the Turkish Journal of Botany, news, and suggestions. Letters should not exceed one journal page.
(*) 1. Raw floristic lists (of algae, lichens, fungi, or plants), species descriptions, chorological studies, and plant sociology studies without any additional independent approaches.
2. Comparative morphology and anatomy studies (that do not cover a family, tribe, subtribe, genus, subgenus, section, subsection, or species complexes with taxonomical problems) without one or more independent additional approaches such as phylogenetical, micromorphological, chromosomal and anatomical analyses.
3. Revisions of family, tribe, genus, subgenus, section, subsection, or species complexes without any original outputs such as taxonomical status changes, IUCN categories, and phenological and ecological analyses.
4. New taxa of all plants without any additional independent approaches such as phylogenetical, ecological, chromosomal, chorological and correlational analyses in addition to a detailed macro- and micro-morphological descriptions with quality field and microscopic illustrations of taxonomically important structures and identification key in the taxonomic group.
New records of all plants without any additional independent approaches such as phylogenetical, ecological, chromosomal, chorological and correlational analyses in addition to a detailed macro- and micro-morphological descriptions with quality field and microscopic illustrations of taxonomically important structures and identification key in the taxonomic group may be accepted for peer review if they contain 3 or more new records or taxonomical status update, such as lectotypification, new combinations, transfers, revivals and synonyms.
5. New taxa of algae, lichens, and fungi without any additional independent approaches such as phylogenetical, ecological, chromosomal, chorological and correlational analyses in addition to a detailed macro- and micro-morphological descriptions with quality field and microscopic illustrations of taxonomically important structures and identification key in the taxonomic group.
New records of algae, lichens, and fungi without any additional independent approaches such as phylogenetical, ecological, chromosomal, chorological and correlational analyses in addition to a detailed macro- and micro-morphological descriptions with quality field and microscopic illustrations of taxonomically important structures and identification key in the taxonomic group may be accepted for peer review if they contain 5 or more new records or taxonomical status update, such as lectotypification, new combinations, transfers, revivals and synonyms.
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