Phytoliths in bamboos from eastern and north-eastern India: Implications in distinguishing different ecoclimatic conditions and in deciphering Late Holocene climate variability

Oindrila Biswas, Madhab Naskar, Korobi Saikia, Badal Kumar Datta, Ashish Kumar Chowdhury, Dipak Kumar Paruya, Manjuree Karmakar, Ranita Biswas, Ruby Ghosh, Subir Bera
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Abstract

To develop a phytolith (biogenic silica) reference and to understand the eco-climatic indicative values of some grass silica short cells (GSSCs) occurring in the bamboos (Bambusoideae grasses), one of the chief floral components of eastern and north-eastern parts of India, we studied 44 modern bambusoid grasses and 26 surface soils from different eco-climatic zones covering both the plains and mountainous regions. Of the diverse phytoliths retrieved from the bamboos, Saddle tall and Saddle collapsed were the most abundant types (except in Yushania maling) and these types were also common in surface soil phytolith assemblages of the eastern and north-eastern parts of India. To assess the environmental sensitivity of most consistent morphotypes, we categorized two commonly occurring GSSC morphotypes namely Saddle tall into three groups based on their length and Saddle collapsed into two groups based on their length to width ratio respectively. Pearson’s correlation analysis, principal component analysis (PCA), and redundancy analysis (RDA) were used to understand if these morphotypes could distinguish different eco-climatic conditions. Variability of Saddle tall and Saddle collapsed types (both morphometric and abundance) in bamboos growing in these parts of India is a function of mean precipitation of the wettest quarter (MPWeQ) and mean temperature of the driest quarter (MTDQ). The present results served as a baseline for reevaluating the interpretations of a Late-Holocene fossil phytolith record from the eastern Himalaya further validating the potential of Saddle tall and Saddle collapsed types in reconstructing past climate variability in a wide geographical region.
印度东部和东北部竹子中的植金石:区分不同生态气候条件和解读全新世晚期气候变异性的意义
印度东部和东北部的主要花卉成分之一是竹子(Bambusoideae 禾本科植物),为了开发植物岩石(生物硅石)参考资料并了解竹子(Bambusoideae 禾本科植物)中出现的一些禾本科硅短胞(GSSCs)的生态气候指示值,我们研究了 44 种现代禾本科植物和 26 种表层土壤,它们来自不同的生态气候区,涵盖平原和山区。在从竹子中提取的各种植物残片中,鞍高和鞍塌是最丰富的类型(除Yushania maling外),这些类型在印度东部和东北部的表层土壤植物残片组合中也很常见。为了评估最为一致的形态类型对环境的敏感性,我们将两种常见的 GSSC 形态类型(即高鞍型)根据其长度分为三组,而塌鞍型则根据其长宽比分别分为两组。通过皮尔逊相关分析、主成分分析(PCA)和冗余分析(RDA)来了解这些形态是否能区分不同的生态气候条件。生长在印度这些地区的竹子的鞍高型和鞍塌型的变异性(形态和丰度)是最潮湿季度的平均降水量(MPWeQ)和最干旱季度的平均气温(MTDQ)的函数。本研究结果为重新评估喜马拉雅山东部晚全新世植物化石记录的解释提供了基线,进一步验证了鞍高型和鞍塌型在重建广阔地理区域过去气候变异性方面的潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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