Indices for ecological condition of native vegetation: A review, and introducing the HH2.0 method

IF 16.4 1区 化学 Q1 CHEMISTRY, MULTIDISCIPLINARY Accounts of Chemical Research Pub Date : 2024-04-05 DOI:10.1111/emr.12601
Graeme S. Lorimer
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Abstract

The concept of using a single index to encapsulate the ‘ecological condition’ or ‘quality’ of native vegetation is reviewed and critiqued, along with the history of the adoption of such indices by governments at the State and Federal levels in Australia. Despite the value judgements inherent in such a concept, these indices provide a currency that is useful for comparing sites for purposes such as to provide a nexus between vegetation proposed to be removed under permit and other vegetation that will be protected or improved as an ‘offset’. The oldest of the reviewed indices – Habitat Hectares, from the Victorian Government – has been the subject of more scrutiny than others but there has been negligible change to it in response to recommendations made. A recommendation of particular significance is for values of the index to respond smoothly to changes in continuously variable observables like foliage cover, rather than discretising the data into broad class intervals. The step-wise jumps in index values that result from discretisation can have the effects of creating false indications of difference between sites or over time and masking actual differences. The index's value for monitoring change is thereby impaired. The Biodiversity Assessment Method of New South Wales is the only index reviewed here that avoids discretisation. However, many of the other recommendations that have been made for changes to Habitat Hectares were adopted in 2003 for a simplified variant of that method – the ‘Land manager self-assessment method’. Therefore, this variant has been used as the basis for a new index – HH2.0 – that retains the simplifications but does not discretise continuous variables or allocate scores in a step-wise manner. The process of translating field observations into scores is automated by a Microsoft Excel workbook, saving time and reducing human error. HH2.0 will suit landowners, land managers, local government and regional authorities, for non-regulatory purposes such as determining what planning protection to apply to an area or prioritising vegetation management among different areas. It requires significantly less gathering of field data than Habitat Hectares, but like that method, it places weight on vegetation's similarity to a long-undisturbed state. No restriction is made on whether it is applied to plots of specified size or shape. A pre-existing set of observational data has been used to retrospectively determine scores under HH2.0 and compare them with Habitat Hectares scores. The data came from 37 sites spanning a range of vegetation types and ecological condition. The root-mean-square difference between the two methods' scores is 5.1 points (out of a theoretical maximum of 100). For reference, Tolsma and Newell (2003) concluded that a difference of 20 points between two Habitat Hectares assessments cannot be relied upon to indicate a genuine difference in ecological condition. A larger data set would be desirable but even if there were no comparison at all between indices (as normal for a new index), that would not invalidate the use of HH2.0 for its intended non-regulatory purposes. HH2.0 is designed for use in Victoria but the changes that have been made compared with Habitat Hectares could be applied to create faster, simpler variants of indices used in other jurisdictions.

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本地植被生态条件指数:综述并介绍 HH2.0 方法
摘要 对使用单一指数来概括本地植被的 "生态条件 "或 "质量 "这一概念,以及澳大利亚州政府和联邦政府采用此类指数的历史进行了回顾和批评。尽管这种概念本身存在价值判断,但这些指数提供了一种有用的货币,可用于比较不同的地点,例如提供根据许可拟议移除的植被与作为 "补偿 "将受到保护或改善的其他植被之间的联系。与其他指数相比,维多利亚州政府的 "栖息地公顷 "是最古老的受审查指数,但根据所提建议对其进行的修改微乎其微。其中一项特别重要的建议是,指数值应平稳地响应叶面覆盖率等连续可变观测指标的变化,而不是将数据划分为宽泛的等级区间。离散化导致的指数值阶跃变化可能会造成不同地点或不同时间段之间差异的假象,并掩盖实际差异。指数监测变化的价值也因此受损。新南威尔士州生物多样性评估方法是本文审查的唯一一个避免离散化的指数。不过,针对生境公顷变化提出的许多其他建议已于 2003 年被该方法的简化变体--"土地管理者自我评估法 "所采用。因此,新指数 HH2.0 以该变体为基础,保留了简化方法,但没有对连续变量进行离散化处理,也没有以阶梯式方式分配分数。将实地观察结果转化为分数的过程由 Microsoft Excel 工作簿自动完成,从而节省了时间并减少了人为错误。HH2.0 适用于土地所有者、土地管理者、地方政府和地区当局,可用于非监管目的,如确定对某一区域实施何种规划保护,或确定不同区域植被管理的优先次序。与 "生境公顷 "法相比,该方法所需的实地数据收集工作要少得多,但与 "生境公顷 "法一样,该方法也重视植被与长期未受干扰状态的相似性。该方法不限制是否适用于特定大小或形状的地块。我们利用一组已有的观测数据来回顾性地确定 HH2.0 的分数,并将其与生境公顷分数进行比较。这些数据来自 37 个不同植被类型和生态条件的地点。两种方法得分的均方根差为 5.1 分(理论最高分 100 分)。作为参考,Tolsma 和 Newell(2003 年)得出结论认为,两个 "生境公顷 "评估之间相差 20 分并不能说明生态状况存在真正的差异。我们希望有一个更大的数据集,但即使指数之间没有任何比较(这对新指数来说是正常的),也不会影响 HH2.0 用于其预期的非监管目的。HH2.0 设计用于维多利亚州,但与 "生境公顷 "相比所做的改动可用于创建更快、更简单的其他辖区所用指数的变体。
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来源期刊
Accounts of Chemical Research
Accounts of Chemical Research 化学-化学综合
CiteScore
31.40
自引率
1.10%
发文量
312
审稿时长
2 months
期刊介绍: Accounts of Chemical Research presents short, concise and critical articles offering easy-to-read overviews of basic research and applications in all areas of chemistry and biochemistry. These short reviews focus on research from the author’s own laboratory and are designed to teach the reader about a research project. In addition, Accounts of Chemical Research publishes commentaries that give an informed opinion on a current research problem. Special Issues online are devoted to a single topic of unusual activity and significance. Accounts of Chemical Research replaces the traditional article abstract with an article "Conspectus." These entries synopsize the research affording the reader a closer look at the content and significance of an article. Through this provision of a more detailed description of the article contents, the Conspectus enhances the article's discoverability by search engines and the exposure for the research.
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