Alexander Rudov, Laura de la Puente, Sara Palacio, Arash Sharifi, José Ignacio Querejeta, Juan Pedro Ferrio, Hossein Rahmaninia, Hossein Akhani
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In the poorly studied Irano-Turanian gypsum deserts, knowledge of the ecohydrological strategies of different plant species is essential to understand community complexity in these vulnerable ecosystems.Aim We studied the ecohydrological strategies of five co-existing subshrub members of Caryophyllales, ascertaining if their rooting architecture, gypsum affinity or photosynthetic pathway determined their water uptake, and if gypsum crystallisation water could be a relevant water source for plants in different seasons.Methods We conducted soil and xylem sampling for isotope analyses in spring and summer and extracted water by cryogenic vacuum distillation. Oxygen and hydrogen isotope compositions were determined and compared with visual representation and Bayesian Mixing Models to determine species ecohydrological strategies.Results Species – season interactions were related to differences in xylem sap isotopic composition. Three basic strategies relying on contrasting the use of free topsoil moisture and deep soil water could be detected and were in part explained by rooting architecture. Plant gypsum affinity and photosynthetic pathways did not have a significant effect on the water sources used by the plants.Conclusions Ecohydrological niche segregation was explained partly by rooting architecture and species-specific traits. Gypsum crystallisation water was not used in summer by the studied species.KEYWORDS: Caryophyllalesdesert subshrubsgypsumIranniche segregationstable isotopeswater use AcknowledgmentsThis paper is in part the result of postdoctoral studies of AR and AS in the Halophytes and C4 Plants Research Laboratory, University of Tehran. The authors would like to express their gratitude to Maryam Malekmohammadi (Halophytes and C4 Plants Research Laboratory, University of Tehran) for her participation in fieldwork. Finally, the authors would like to thank three anonymous reviewers and the editor for their immense help and precious feedback to improve this manuscriptDisclosure statementNo potential conflict of interest was reported by the author(s).Author contributionsHA and SP designed the study; AS, HA, AR, IQ, HR and SP performed fieldwork; AR ran water extractions with contributions from IQ, LP and PF; LP and PF analysed data; HR performed the soil gypsum content analysis; LP and AR led manuscript writing with contributions from all authors.Supplementary materialSupplemental data for this article can be accessed online at https://doi.org/10.1080/17550874.2023.2255985Additional informationFundingThe study was supported by grants from the Research Council and International Office, University of Tehran, the European Union’s Horizon 2020 research and innovation programme (Project H2020-MSCA-RISE-GYPWORLD GA No. 777803), the Spanish Ministry of Science and Innovation (MICINN, PID2019-111159GB-C31), and the Spanish Research Council (CSIC, I-COOPB20231). The postdoctoral fellowship of AS was founded by the National Elite Foundation. LdP and SP received funding from FSE (Fondo Social Europeo)-Aragón2014–2020 of the Gobierno de Aragón, Spain, and MICINN (RyC fellowship RYC-2013-14164), respectively. 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Three basic strategies relying on contrasting the use of free topsoil moisture and deep soil water could be detected and were in part explained by rooting architecture. Plant gypsum affinity and photosynthetic pathways did not have a significant effect on the water sources used by the plants.Conclusions Ecohydrological niche segregation was explained partly by rooting architecture and species-specific traits. Gypsum crystallisation water was not used in summer by the studied species.KEYWORDS: Caryophyllalesdesert subshrubsgypsumIranniche segregationstable isotopeswater use AcknowledgmentsThis paper is in part the result of postdoctoral studies of AR and AS in the Halophytes and C4 Plants Research Laboratory, University of Tehran. The authors would like to express their gratitude to Maryam Malekmohammadi (Halophytes and C4 Plants Research Laboratory, University of Tehran) for her participation in fieldwork. 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引用次数: 0
摘要
【摘要】背景喜旱亚灌木具有多种功能类型,并经常出现水文生态位分离。在研究较少的伊朗-图兰石膏沙漠中,了解不同植物物种的生态水文策略对于了解这些脆弱生态系统中的群落复杂性至关重要。目的研究5种石竹属亚灌丛植物的生态水文策略,确定它们的根系结构、石膏亲和力或光合途径是否决定了它们的吸水性,以及石膏结晶水是否可能是不同季节植物的相关水源。方法春季和夏季采集土壤和木质部样品进行同位素分析,采用低温真空蒸馏法提取水分。测定氧和氢同位素组成,并与视觉表示和贝叶斯混合模型进行比较,以确定物种生态水文策略。结果种季交互作用与木质部汁液同位素组成差异有关。通过对比表层土壤水分和深层土壤水分的利用,可以检测到三种基本策略,并在一定程度上解释了生根结构。植物石膏亲和力和光合途径对植物对水源的利用没有显著影响。结论根构型和种特异性状可部分解释生态水文位分离。石膏结晶水在夏季不被研究物种使用。本文是德黑兰大学盐生植物和C4植物研究实验室博士后研究AR和AS的部分成果。作者要感谢Maryam Malekmohammadi(德黑兰大学盐生植物和C4植物研究实验室)参与实地工作。最后,作者要感谢三位匿名审稿人和编辑为改进本文提供的巨大帮助和宝贵反馈。披露声明作者未报告潜在的利益冲突。作者贡献sha和SP设计了本研究;AS, HA, AR, IQ, HR和SP进行了现场工作;IQ、LP和PF贡献的AR水提物;LP和PF分析数据;HR进行土壤石膏含量分析;LP和AR领导手稿写作与所有作者的贡献。本研究得到了研究委员会和国际办公室,德黑兰大学,欧盟地平线2020研究和创新计划(项目H2020-MSCA-RISE-GYPWORLD GA No. 777803),西班牙科学和创新部(MICINN, PID2019-111159GB-C31)的资助。和西班牙研究委员会(CSIC, I-COOPB20231)。中科院博士后由国家精英基金会设立。LdP和SP分别获得了西班牙Gobierno de Aragón的FSE (Fondo Social Europeo) -Aragón2014-2020和MICINN (RyC fellowship RyC -2013-14164)的资助。JPF得到了参考小组H09_20R (Gobierno de Aragón,西班牙)的支持。
Ecohydrological niche segregation among desert shrubs in a gypsum-calcareous formation, north-western Iran
ABSTRACTBackground Xerophilic subshrubs exhibit multiple functional types and frequently show hydrological niche segregation. In the poorly studied Irano-Turanian gypsum deserts, knowledge of the ecohydrological strategies of different plant species is essential to understand community complexity in these vulnerable ecosystems.Aim We studied the ecohydrological strategies of five co-existing subshrub members of Caryophyllales, ascertaining if their rooting architecture, gypsum affinity or photosynthetic pathway determined their water uptake, and if gypsum crystallisation water could be a relevant water source for plants in different seasons.Methods We conducted soil and xylem sampling for isotope analyses in spring and summer and extracted water by cryogenic vacuum distillation. Oxygen and hydrogen isotope compositions were determined and compared with visual representation and Bayesian Mixing Models to determine species ecohydrological strategies.Results Species – season interactions were related to differences in xylem sap isotopic composition. Three basic strategies relying on contrasting the use of free topsoil moisture and deep soil water could be detected and were in part explained by rooting architecture. Plant gypsum affinity and photosynthetic pathways did not have a significant effect on the water sources used by the plants.Conclusions Ecohydrological niche segregation was explained partly by rooting architecture and species-specific traits. Gypsum crystallisation water was not used in summer by the studied species.KEYWORDS: Caryophyllalesdesert subshrubsgypsumIranniche segregationstable isotopeswater use AcknowledgmentsThis paper is in part the result of postdoctoral studies of AR and AS in the Halophytes and C4 Plants Research Laboratory, University of Tehran. The authors would like to express their gratitude to Maryam Malekmohammadi (Halophytes and C4 Plants Research Laboratory, University of Tehran) for her participation in fieldwork. Finally, the authors would like to thank three anonymous reviewers and the editor for their immense help and precious feedback to improve this manuscriptDisclosure statementNo potential conflict of interest was reported by the author(s).Author contributionsHA and SP designed the study; AS, HA, AR, IQ, HR and SP performed fieldwork; AR ran water extractions with contributions from IQ, LP and PF; LP and PF analysed data; HR performed the soil gypsum content analysis; LP and AR led manuscript writing with contributions from all authors.Supplementary materialSupplemental data for this article can be accessed online at https://doi.org/10.1080/17550874.2023.2255985Additional informationFundingThe study was supported by grants from the Research Council and International Office, University of Tehran, the European Union’s Horizon 2020 research and innovation programme (Project H2020-MSCA-RISE-GYPWORLD GA No. 777803), the Spanish Ministry of Science and Innovation (MICINN, PID2019-111159GB-C31), and the Spanish Research Council (CSIC, I-COOPB20231). The postdoctoral fellowship of AS was founded by the National Elite Foundation. LdP and SP received funding from FSE (Fondo Social Europeo)-Aragón2014–2020 of the Gobierno de Aragón, Spain, and MICINN (RyC fellowship RYC-2013-14164), respectively. JPF was supported by the Reference Group H09_20R (Gobierno de Aragón, Spain).
期刊介绍:
Accounts of Chemical Research presents short, concise and critical articles offering easy-to-read overviews of basic research and applications in all areas of chemistry and biochemistry. These short reviews focus on research from the author’s own laboratory and are designed to teach the reader about a research project. In addition, Accounts of Chemical Research publishes commentaries that give an informed opinion on a current research problem. Special Issues online are devoted to a single topic of unusual activity and significance.
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