Federico Selvi, Isabella Bettarini, Marco Cabrucci, Ilaria Colzi, Andrea Coppi, Lorenzo Lazzaro, Michele Mugnai, Cristina Gonnelli
{"title":"超基性岩土壤上外来入侵植物 Ailanthus altissima 与本地植物 Fraxinus ornus 的金属浓度对比:排除镍的效率更高以及调整镁和钙失衡的证据","authors":"Federico Selvi, Isabella Bettarini, Marco Cabrucci, Ilaria Colzi, Andrea Coppi, Lorenzo Lazzaro, Michele Mugnai, Cristina Gonnelli","doi":"10.1111/1440-1703.12461","DOIUrl":null,"url":null,"abstract":"<p><i>Ailanthus altissima</i> is one of the major invasive trees at a global scale. Despite numerous reports about its invasiveness in different habitats, so far it was not observed on harsh ultramafic soils and to colonize the vegetation of these outcrops. In this paper we show that the species can also spread in these habitats in the Mediterranean region and is able to cope with the severe anomalies of ultramafic soils. We sampled <i>A. altissima</i> in four ultramafic outcrops of central Italy and in control sites to unravel the behavior of this species toward the typically high soil concentrations of trace metals, such as Ni, Cr and Co, as well the imbalance of the Ca:Mg quotient. A similar sampling was performed for the native <i>Fraxinus ornus</i> that occurs naturally on a broad range of soils, including those from ultramafic rocks. Trace metal concentrations in leaves of both species were below toxicity thresholds, but <i>A. altissima</i> showed lower translocation and bioaccumulation factors (TF and BF, respectively) for Ni. Compared with <i>F. ornus</i>, the invasive species displayed higher leaf concentrations of Mg, thus suggesting a higher tolerance of potentially toxic levels of this element. Moreover, the higher TF and BF values for Ca in both control and serpentine populations suggested that <i>A. altissima</i> was more able to extract and accumulate this macronutrient in leaves in respect to <i>F. ornus</i>. Given the inherent deficiency of this element in ultramafic soils, efficient use of Ca could be a key trait contributing to the invasiveness of <i>A. altissima</i> on these soils.</p>","PeriodicalId":11434,"journal":{"name":"Ecological Research","volume":"39 4","pages":"479-491"},"PeriodicalIF":1.7000,"publicationDate":"2024-03-18","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Metal concentrations in invasive Ailanthus altissima vs native Fraxinus ornus on ultramafic soils: Evidence for higher efficiency in Ni exclusion and adjustments to Mg and Ca imbalance\",\"authors\":\"Federico Selvi, Isabella Bettarini, Marco Cabrucci, Ilaria Colzi, Andrea Coppi, Lorenzo Lazzaro, Michele Mugnai, Cristina Gonnelli\",\"doi\":\"10.1111/1440-1703.12461\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><i>Ailanthus altissima</i> is one of the major invasive trees at a global scale. Despite numerous reports about its invasiveness in different habitats, so far it was not observed on harsh ultramafic soils and to colonize the vegetation of these outcrops. In this paper we show that the species can also spread in these habitats in the Mediterranean region and is able to cope with the severe anomalies of ultramafic soils. We sampled <i>A. altissima</i> in four ultramafic outcrops of central Italy and in control sites to unravel the behavior of this species toward the typically high soil concentrations of trace metals, such as Ni, Cr and Co, as well the imbalance of the Ca:Mg quotient. A similar sampling was performed for the native <i>Fraxinus ornus</i> that occurs naturally on a broad range of soils, including those from ultramafic rocks. Trace metal concentrations in leaves of both species were below toxicity thresholds, but <i>A. altissima</i> showed lower translocation and bioaccumulation factors (TF and BF, respectively) for Ni. Compared with <i>F. ornus</i>, the invasive species displayed higher leaf concentrations of Mg, thus suggesting a higher tolerance of potentially toxic levels of this element. Moreover, the higher TF and BF values for Ca in both control and serpentine populations suggested that <i>A. altissima</i> was more able to extract and accumulate this macronutrient in leaves in respect to <i>F. ornus</i>. 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引用次数: 0
摘要
Ailanthus altissima 是全球主要入侵树木之一。尽管有许多关于它在不同生境中的入侵性的报道,但迄今为止,还没有观察到它在严酷的超基性岩土壤中生长,并在这些露头的植被中定居。在本文中,我们发现该物种也能在地中海地区的这些生境中传播,并能应对超基性岩土壤的严重反常现象。我们在意大利中部的四个超基性岩露头和对照地点对 A. altissima 进行了取样,以揭示该物种对土壤中痕量金属(如镍、铬和钴)浓度通常较高以及钙镁商失衡的行为。对自然生长在多种土壤(包括超基性岩)上的本地梣树也进行了类似的取样。两种植物叶片中的痕量金属浓度都低于毒性阈值,但梣树对镍的转位系数和生物累积系数(分别为 TF 和 BF)较低。与 F. ornus 相比,入侵物种叶片中的镁浓度更高,这表明其对潜在毒性元素的耐受性更高。此外,在对照种群和蛇纹石种群中,钙的 TF 值和 BF 值都较高,这表明与 F. ornus 相比,A. altissima 更能在叶片中提取和积累这种宏量营养元素。鉴于超基性土壤中本身就缺乏这种元素,有效利用钙元素可能是阿尔蒂斯玛(A. altissima)在这些土壤上具有入侵性的一个关键特征。
Metal concentrations in invasive Ailanthus altissima vs native Fraxinus ornus on ultramafic soils: Evidence for higher efficiency in Ni exclusion and adjustments to Mg and Ca imbalance
Ailanthus altissima is one of the major invasive trees at a global scale. Despite numerous reports about its invasiveness in different habitats, so far it was not observed on harsh ultramafic soils and to colonize the vegetation of these outcrops. In this paper we show that the species can also spread in these habitats in the Mediterranean region and is able to cope with the severe anomalies of ultramafic soils. We sampled A. altissima in four ultramafic outcrops of central Italy and in control sites to unravel the behavior of this species toward the typically high soil concentrations of trace metals, such as Ni, Cr and Co, as well the imbalance of the Ca:Mg quotient. A similar sampling was performed for the native Fraxinus ornus that occurs naturally on a broad range of soils, including those from ultramafic rocks. Trace metal concentrations in leaves of both species were below toxicity thresholds, but A. altissima showed lower translocation and bioaccumulation factors (TF and BF, respectively) for Ni. Compared with F. ornus, the invasive species displayed higher leaf concentrations of Mg, thus suggesting a higher tolerance of potentially toxic levels of this element. Moreover, the higher TF and BF values for Ca in both control and serpentine populations suggested that A. altissima was more able to extract and accumulate this macronutrient in leaves in respect to F. ornus. Given the inherent deficiency of this element in ultramafic soils, efficient use of Ca could be a key trait contributing to the invasiveness of A. altissima on these soils.
期刊介绍:
Ecological Research has been published in English by the Ecological Society of Japan since 1986. Ecological Research publishes original papers on all aspects of ecology, in both aquatic and terrestrial ecosystems.