Volcanic Ash Weathering and Pedogenesis in Mount Penanjakan: Soil Evolution Supporting Pioneer Vegetation

Melati Julia Rahma; Jati Batoro; Danniary Ismail Faronny; Rivandi Pranandita Putra; Avanza Iqbal Ar Rafi; Muhammad Zaky Gymnastiar Putra; Eka Prasetyo Nugroho; Roy Juan Akbar; Ahmad Habibi; Erisa Rahmawati; Novi Silvia

doi:10.1051/e3sconf/202565209003

All issues

Volume 652 (2025)

E3S Web Conf., 652 (2025) 09003

Abstract

Open Access

Issue		E3S Web Conf. Volume 652, 2025 2^nd International Conference on Sustainable Environment and Disaster Management (2^nd SUSTAIN 2025)


Article Number		09003
Number of page(s)		13
Section		SLU (Sustainable Land Use) – Agroforestry & Soil/Watershed
DOI		https://doi.org/10.1051/e3sconf/202565209003
Published online		15 October 2025

E3S Web of Conferences 652, 09003 (2025)

Volcanic Ash Weathering and Pedogenesis in Mount Penanjakan: Soil Evolution Supporting Pioneer Vegetation

Melati Julia Rahma¹^*, Jati Batoro¹, Danniary Ismail Faronny¹, Rivandi Pranandita Putra¹, Avanza Iqbal Ar Rafi¹, Muhammad Zaky Gymnastiar Putra¹, Eka Prasetyo Nugroho¹, Roy Juan Akbar¹, Ahmad Habibi¹, Erisa Rahmawati¹ and Novi Silvia¹

¹ Geography Department, Faculty of Social Science, State University of Malang
² Biology Department, Faculty of Mathematic and Science, Universitas Brawijaya
³ Doctoral Program of Environmental Studies, Graduate School, Universitas Brawijaya

^* Corresponding author: melatijuliarahma.fis@um.ac.id

Abstract

Volcanic ash deposits play a fundamental role in soil formation processes and the establishment of pioneer vegetation in highland ecosystems. This study investigates soil evolution and pedogenesis derived from volcanic ash in Mount Penanjakan, Bromo Tengger Semeru National Park, East Java, Indonesia, focusing on its role in supporting Edelweiss (Anaphalis spp.) as a pioneer species. Field surveys were conducted at three sites—Lemah Pasar, Bukit Prau, and Tikungan S using transect-based soil profile observations up to 2 m depth. Soil samples were analyzed for organic carbon (Walkley and Black), texture (pipette method), soil pH (pH meter), and porosity, bulk density, and aggregate stability. Results indicated that soils were predominantly silty clay loam, with moderately acidic to neutral pH (5.5–7.5) and organic carbon content ranging from 1.2% to 2.1%. Taxonomic classification using USDA Soil Taxonomy (2014) identified variations from Mollic Hapludands (Andisols) at Lemah Pasar, Typic Dystrudepts (Inceptisols) at Bukit Prau, to Typic Hapludands (Andisols) at Tikungan S. These findings reflect a pedogenic gradient from weakly developed Inceptisols to more advanced Andisols influenced by volcanic ash weathering. The edaphic conditions, particularly high porosity, moderate organic matter, and andic properties, provide favorable habitats for Edelweiss species, each occupying different soil development stages. This study highlights the importance of volcanic ash pedogenesis in shaping soil-vegetation interactions and provides a scientific basis for designing ex-situ conservation strategies that mimic natural soil conditions.

This is an Open Access article distributed under the terms of the Creative Commons Attribution License 4.0, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

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