The third dimension: How fire-related research can advance ecology and evolutionary biology

IF 0.2 Q4 EVOLUTIONARY BIOLOGY

Ideas in Ecology and Evolution Pub Date : 2020-12-21 DOI:10.24908/iee.2020.13.4.c

B. Lamont, Tianhua He

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引用次数: 1

Abstract

Most of the Earth’s vegetated surface is fireprone but the relevance of fire in understanding how nature works is not always recognized. We aim to show that, by adding the fire dimension to observations on biological phenomena, interpretations can be im-proved; how fire-related research can be used to answer ‘fundamental’ questions in ecology; and how theories/models developed for fireprone ecosystems can be applied to advancing disturbance ecology, biogeography and evolutionary biology more generally. We compiled lists from the world-wide web of the most highly cited papers in fire ecology, and examined papers that had been approached from multiple viewpoints, including fire. We show that great advances over the last 20 years have been made in our understanding of the pivotal role of fire as a driver of many ecological processes and a powerful selective agent/evolutionary trigger among biota. We document 21 sets of observations originally interpreted in the context of the two traditional dimensions, prevailing environment and biotic interactions, but can also be shown to have a strong, if not dominant, historical link to fire. We note that fire-related research is able to address 55 of the 100 questions considered ‘fundamental’ in ecology and that many have already received some attention in fireprone ecosystems. We show how theories/ models that had their origins in fireprone systems can be applied to other disturbance-prone systems and thus have wide application in ecology and evolutionary biology. Fire and other disturbances should be included as variables in research about possible critical environmental and biotic constraints controlling ecosystem function in general. Adding this third dimension to research endeavours greatly enriches our understanding of how nature works at the global scale in an era where ecosystems are changing rapidly and novel species-environmental interactions are emerging.

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第三个维度：火灾相关研究如何推进生态学和进化生物学

地球上大部分植被表面都容易发生火灾，但火灾在理解自然如何运作方面的相关性并不总是得到认可。我们的目的是表明，通过将火维度添加到对生物现象的观察中，可以改进解释；如何利用火灾相关研究来回答生态学中的“基本”问题；以及为易发生火灾的生态系统开发的理论/模型如何应用于更广泛地推进扰动生态学、生物地理学和进化生物学。我们从全球网络上汇编了火灾生态学中被引用率最高的论文列表，并检查了从包括火灾在内的多个角度处理的论文。我们表明，在过去20年中，我们对火作为许多生态过程的驱动因素和生物群中强大的选择性因子/进化触发器的关键作用的理解取得了巨大进展。我们记录了21组观测结果，这些观测结果最初是在两个传统维度（主流环境和生物相互作用）的背景下解释的，但也可以证明与火灾有着强烈的历史联系，如果不是主导的话。我们注意到，与火灾相关的研究能够解决生态学中被认为是“基础”的100个问题中的55个，许多问题在易发生火灾的生态系统中已经得到了一些关注。我们展示了起源于易发火灾系统的理论/模型如何应用于其他易受干扰的系统，从而在生态学和进化生物学中有广泛的应用。火灾和其他干扰应作为变量纳入控制生态系统功能的可能关键环境和生物约束的研究中。在生态系统快速变化、新物种与环境相互作用不断出现的时代，将这一第三个维度添加到研究工作中，极大地丰富了我们对自然如何在全球范围内发挥作用的理解。

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来源期刊

Ideas in Ecology and Evolution EVOLUTIONARY BIOLOGY-

自引率

0.00%

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审稿时长

36 weeks