影响València(西班牙)扁豆黄连木叶片精油成分的土壤参数和生物气候特征

IF 2 Q3 SOIL SCIENCE
Josep Vicent Llinares Palacios, J. Llorens-Molina, Jaume Mulet, S. Vacas
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引用次数: 0

摘要

在一个地区发现的土壤的变异性以及生物气候参数的多样性将影响植物物种的化学特征,在我们的案例中是小黄连木。这项工作的目的是分析影响生长在València(西班牙)的小黄连木叶叶精油(EO)组成的生物气候特征和土壤参数。采用GC(MS)和GD(FID)分析了5个土壤和气候特征差异显著的采样点的黄连木干叶的EO组成。还确定了主要的生物气候和土壤参数,以便将它们与石油成分联系起来。α-蒎烯(2.8-39.2%)、月桂烯(0.6-59.3%)、β-黄烯(0.0-42.8%)、锗烯-D(3.9-20.4%)和萜品烯-4-醇(0.2-19.0%)是表现出高变异性的主要化合物。五个采样点具有明确的生物气候和土壤特征,这些特征可能与特定的EO剖面有关。结果表明,扁豆的EO组成更多地取决于与生物气候条件相互作用的土壤因素,而不是地理来源本身。根据这些结果可以确定一些总体趋势:具有高蒸散指数的Calcaric Arenosol(Saler)与高倍半萜组分(主要是germacrene-D和b-石竹烯)有关。Luvisol(Borrell和L'Ull)含有大量的a+b-蒎烯,被发现与亚湿润的生物气候条件以及粘性和肥沃的土壤(高CEC和OM水平)有关。最后一个要求也被观察到与月桂烯含量有关,但气候条件干燥,石灰性土壤(Haplic Calcisol)含有大量碳酸盐和活性石灰(Lliria)。其余的碳氢化合物单萜烯和含氧单萜烯(主要是萜品烯-4-醇)组分可能与干燥气候和非钙质低肥力土壤有关(Eutric Regosol,Segart)。考虑到与特定和有用的生物活性相关的最合适的成分,应该对受控的环境因素(土壤特征和生物气候条件)进行新的研究,以确定管理扁豆工业作物的最佳条件。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Soil parameters and bioclimatic characteristics affecting essential oil composition of leaves of Pistacia lentiscus L. from València (Spain)
The variability of the soils found in an area together with the diversity of the bioclimatic parameters will affect the chemical profile of plant species, in our case Pistacia lentiscus L. The aim of this work is to analyse the bioclimatic characteristics and soil parameters affecting the essential oil (EO) composition of the leaves of the Pistacia lentiscus L. growing in València (Spain). The EO compositions of dried leaves of Pistacia lentiscus L. from five sampling sites with noticeable differences in soil and climate features were analysed by GC(MS) and GD(FID). The main bioclimatic and soil parameters were also determined in order to relate them to oil composition. a-pinene (2.8-39.2%), myrcene (0.6-59.3%), b-phellandrene (0.0-42.8%), germacrene-D (3.9-20.4%) and terpinen-4-ol (0.2-19.0%) were found to be the major compounds showing a high variability. The five sampling sites presented well-defined bioclimatic and edaphic characteristics that could be related to specific EO profiles. The results suggested that the EO composition of P. lentiscus L. depends more on the edaphic factors interacting with bioclimate conditions than on the geographical origin itself. Some general trends could be established based on the results: the Calcaric Arenosol (Saler) with a high evapotranspiration index was associated with a high sesquiterpenic fraction, (germacrene-D and b-caryophyllene, mainly). The Luvisol (Borrell and L’Ull), with high amounts of a + b-pinene, were found to be related to sub-humid bioclimatic conditions and clayey and fertile soils (high CEC and OM levels). This last requirement was also observed to be related to the myrcene content, but with drier climatic conditions and calcareous soils (Haplic Calcisol) with high level of carbonates and active lime (Lliria). The rest of hydrocarbon monoterpene and oxygenated monoterpene (terpinen-4-ol, mainly) fractions could be related to a dry climate and non-calcareous and low fertility soils (Eutric Regosol, Segart). Given the most suitable composition related to specific and useful biological activities, new research of controlled environmental factors (soil features and bioclimatic conditions) should be conducted in order to define the best conditions to manage industrial crops of P. lentiscus L.
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来源期刊
CiteScore
2.20
自引率
0.00%
发文量
13
期刊介绍: The Spanish Journal of Soil Science (SJSS) is a peer-reviewed journal with open access for the publication of Soil Science research, which is published every four months. This publication welcomes works from all parts of the world and different geographic areas. It aims to publish original, innovative, and high-quality scientific papers related to field and laboratory research on all basic and applied aspects of Soil Science. The journal is also interested in interdisciplinary studies linked to soil research, short communications presenting new findings and applications, and invited state of art reviews. The journal focuses on all the different areas of Soil Science represented by the Spanish Society of Soil Science: soil genesis, morphology and micromorphology, physics, chemistry, biology, mineralogy, biochemistry and its functions, classification, survey, and soil information systems; soil fertility and plant nutrition, hydrology and geomorphology; soil evaluation and land use planning; soil protection and conservation; soil degradation and remediation; soil quality; soil-plant relationships; soils and land use change; sustainability of ecosystems; soils and environmental quality; methods of soil analysis; pedometrics; new techniques and soil education. Other fields with growing interest include: digital soil mapping, soil nanotechnology, the modelling of biological and biochemical processes, mechanisms and processes responsible for the mobilization and immobilization of nutrients, organic matter stabilization, biogeochemical nutrient cycles, the influence of climatic change on soil processes and soil-plant relationships, carbon sequestration, and the role of soils in climatic change and ecological and environmental processes.
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