Chemotaxonomic patterns of vegetation and soils along altitudinal transects of the Bale Mountains, Ethiopia, and implications for paleovegetation reconstructions – Part 1: stable isotopes and sugar biomarkers

B. Mekonnen, W. Zech, B. Glaser, B. Lemma, Tobias Bromm, S. Nemomissa, T. Bekele, M. Zech
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引用次数: 10

Abstract

Abstract. Today, on the Sanetti Plateau in the Bale Mountains of Ethiopia, only fragmented patches of Erica species can be found at high altitudes (between 3900 and 4200 m a.s.l.). However, it is hypothesized that during the later part of the last glacial period and the early Holocene the plateau was extensively covered by Erica shrubs. Furthermore, it is assumed that the vegetation was later heavily destroyed by human-induced fire and/or climate change phenomena. The objective of this study is to contribute to paleovegetation reconstructions of the Sanetti Plateau by evaluating the potential of stable isotopes (δ13C and δ15N) and sugar biomarkers for distinguishing the dominant plant species, including Erica, and the soils below the plants. In a companion paper (Lemma et al., 2019a) we address the same issue by evaluating lignin-derived phenols and leaf-wax-derived n-alkane biomarkers. The stable carbon (δ13C) and nitrogen (δ15N) isotope values of the plant samples range from −27.5  ‰ to −23.9  ‰ and −4.8  ‰ to 5.1  ‰, respectively. We found no significant δ13C and δ15N differences between the dominant plant species. Mineral topsoils (Ah horizons) yielded more positive values than plant samples and organic layers (O layers), which reflects mineralization processes. Moreover, the δ15N values became generally more negative at higher altitudes. This likely indicates that the N cycle is more closed compared to lower altitudes. δ15N maxima around 4000 m a.s.l. point to fire-induced opening of the N cycle at the chosen study sites. Erica species yielded the lowest overall total sugar concentration (ranging from 58 to 118 mg g−1), dominated by galactose (G) and mannose (M). By contrast, Festuca species revealed much higher total sugar concentrations ranging from 104 to 253 mg g−1, dominated by the pentose sugars arabinose (A) and xylose (X). Although a differentiation between Erica versus Festuca, Alchemilla and Helichrysum is possible based on (G + M) ∕ (A + X) ratios, Erica cannot be unambiguously distinguished from all other plant species occurring on the Sanetti Plateau. In addition, plant-characteristic (G + M) ∕ (A + X) sugar patterns change during soil organic matter formation in the Ah horizons. This can be likely attributed to degradation effects and soil microbial build-up of galactose and mannose. In conclusion, soil degradation processes seem to render sugar biomarker proxies unusable for the reconstruction of the past extent of Erica on the Sanetti Plateau, Bale Mountains, Ethiopia. This finding is of relevance beyond our case study.
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埃塞俄比亚贝尔山脉沿海拔样带植被和土壤的化学分类模式及其对古植被重建的意义。第1部分:稳定同位素和糖生物标志物
摘要今天,在埃塞俄比亚贝尔山脉的萨内蒂高原上,在高海拔地区(海拔高度在3900米至4200米之间)只能找到零星的埃里卡物种。然而,在末次冰期后期和全新世早期,高原被埃里卡灌木广泛覆盖。此外,假定植被后来被人为引起的火灾和/或气候变化现象严重破坏。本研究旨在通过稳定同位素(δ13C和δ15N)和糖生物标记物的潜力来区分包括Erica在内的优势植物物种和植物下的土壤,为Sanetti高原的古植被重建做出贡献。在另一篇论文(Lemma et al., 2019a)中,我们通过评估木质素衍生的酚类和叶蜡衍生的正构烷烃生物标志物来解决同样的问题。植物样品的稳定碳(δ13C)和氮(δ15N)同位素值分别在−27.5‰~−23.9‰和−4.8‰~ 5.1‰之间。不同优势种间δ13C和δ15N无显著差异。矿物表层土(Ah层)比植物样品和有机层(O层)具有更高的正值,反映了矿化过程。δ15N值在海拔越高越负。这可能表明,与较低海拔相比,N周期更封闭。δ15N最大值在4000 m a.s.l左右。指出在选定的研究地点,火灾导致了N循环的打开。Erica种的总糖浓度最低(从58到118 mg g - 1),主要是半乳糖(g)和甘露糖(M)。相比之下,Festuca种的总糖浓度要高得多,从104到253 mg g - 1,主要是戊糖阿拉伯糖(A)和木糖(X)。尽管Erica与Festuca、Alchemilla和helichryum之间的差异可能基于(g + M)∕(A + X)比率,埃里卡不能与萨内蒂高原上的所有其他植物物种明确区分开来。此外,植物特征(G + M)∕(A + X)糖模式在Ah层土壤有机质形成过程中也发生了变化。这可能归因于半乳糖和甘露糖的降解效应和土壤微生物的积累。总之,土壤退化过程似乎使糖生物标志物无法用于重建埃塞俄比亚贝尔山脉Sanetti高原上Erica过去的范围。这一发现的相关性超出了我们的案例研究。
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