Long-term frequent fires do not decrease topsoil carbon and nitrogen in an Afromontane grassland

IF 1.4 4区环境科学与生态学 Q3 ECOLOGY

African Journal of Range & Forage Science Pub Date : 2022-01-02 DOI:10.2989/10220119.2021.2016966

Nicola Findlay, A. Manson, J. P. Cromsigt, P. Gordijn, Cathy Nixon, M. Rietkerk, G. Thibaud, M.J.infoeu-repo Wassen, M. Beest

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引用次数: 5

Abstract

Fire has been an integral evolutionary force shaping and maintaining grassy biomes, such as the Afromontane grasslands of South Africa. Afromontane grasslands represent a large carbon reservoir, but it is uncertain how fire affects their long-term C storage. We investigated the effect of fire regime on soil organic C and N (SOC; SON) in a long-term (39-year) burning experiment in the Maloti-Drakensberg Park, South Africa. We compared SOC and SON sampled in 2004 and 2019 from six treatments differing in fire frequency (annual, biennial, five-year, infrequent) and season (spring, autumn). Average SOC increased significantly between 2004 and 2019. Average SON increased slightly, resulting in a significant increase in C:N ratio, indicating that soil organic matter is becoming less N-eutrophic. Importantly, burning annually in spring increased SOC and SON. This unexpected response is attributed to the aluandic (acidic, high organic matter) properties of Drakensberg soils. Burning in autumn did not increase SOC and SON. The lowest C stocks were observed in infrequently burnt plots. Average C sequestration across all fire treatments was 0.30 Mg ha−1 y−1. The observed increase in SOC under frequent fires is contrary to many findings from other studies in grassy ecosystems and notably driven by fire season.

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长期频繁的火灾并没有降低非洲山地草地表层土壤的碳氮含量

火一直是形成和维持草类生物群落的一种不可或缺的进化力量，例如南非的非洲山地草原。非洲山地草原代表着一个巨大的碳库，但不确定火如何影响它们的长期碳储存。研究了不同火种对土壤有机碳、氮(SOC)的影响;SON)在南非的Maloti-Drakensberg公园进行了一项长期(39年)燃烧实验。我们比较了2004年和2019年6个不同火灾频率(一年生、两年生、五年、不常见)和季节(春季、秋季)处理的SOC和SON样本。2004年至2019年间，平均SOC显著增加。平均SON略有增加，导致C:N比值显著增加，表明土壤有机质富营养化程度降低。重要的是，每年春季的燃烧增加了SOC和SON。这种意想不到的反应归因于德拉肯斯堡土壤的酸性(酸性，高有机质)特性。秋季燃烧对土壤的SOC和SON没有增加作用。碳储量最低的是不常烧毁的地块。所有五个处理的平均碳固存量为0.30 Mg ha - 1 y - 1。观察到的频繁火灾下有机碳的增加与其他草地生态系统研究的许多结果相反，主要是由火灾季节驱动的。

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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来源期刊

African Journal of Range & Forage Science ECOLOGY-ENVIRONMENTAL SCIENCES

CiteScore

4.00

自引率

14.30%

发文量

审稿时长

>12 weeks

期刊介绍： The African Journal of Range & Forage Science is the leading rangeland and pastoral journal in Africa. The Journal is dedicated to publishing quality original material that advances rangeland ecology and pasture management. The journal aims to publish research of international importance from any region, but as an African journal, we are particularly interested in research from Africa and relevant to the continent. The Journal promotes both science and its application and authors are encouraged to explicitly identify the practical implications of their work. Peer-reviewed research papers and research notes deal primarily with all aspects of rangeland and pasture ecology and management, including the ecophysiology and biogeochemistry of rangelands and pastures, terrestrial plant–herbivore interactions (both domestic and wild), rangeland assessment and monitoring, effects of climate change on rangelands, rangeland and pasture management, rangeland rehabilitation, ecosystem services in support of production, conservation and biodiversity goals, and the identification and development of intensive and semi-intensive pasture and forage resources to meet livestock production needs. Articles highlighting transdisciplinary linkages among biophysical and social sciences that support management, policy and societal values are particularly encouraged. The Journal includes relevant book reviews and invited perspectives that contribute to the development of range and forage science. Letters to the editor that debate issues raised in the Journal are acceptable. The African Journal of Range & Forage Science is the official journal of the Grassland Society of Southern Africa.