Calum Maney scite author profile

Assemblages of large mammal species play a disproportionate role in the structure and composition of natural habitats. Loss of these assemblages destabilizes natural systems, while their recovery can restore ecological integrity. Here we take an ecoregion‐based approach to identify landscapes that retain their historically present large mammal assemblages, and map ecoregions where reintroduction of 1–3 species could restore intact assemblages. Intact mammal assemblages occur across more than one‐third of the 730 terrestrial ecoregions where large mammals were historically present, and 22% of these ecoregions retain complete assemblages across > 20% of the ecoregion area. Twenty species, if reintroduced or allowed to recolonize through improved connectivity, can increase the area of the world containing intact large mammal assemblages by 54% (11 116 000 km2). Each of these species have at least two large, intact habitat areas (> 10 000 km2) in a given ecoregion. Timely integration of recovery efforts for large mammals strengthens area‐based targets being considered under the Convention on Biological Diversity.

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Measuring Forest Biodiversity Status and Changes Globally

Hill

Arnell

Maney

et al. 2019

Front. For. Glob. Change

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The world's forests are crucially important for both biodiversity conservation and climate mitigation. New forest status and forest change spatial layers using remotely sensed data have revolutionised forest monitoring globally, and provide fine-scale deforestation alerts that can be actioned in near-real time. However, existing products are restricted to representing tree cover and do not reflect the considerable spatial variation in the biological importance of forests. Here we link modelled biodiversity values to remotely sensed data on tree cover to develop global maps of forest biodiversity significance (based on the rarity-weighted richness of forest mammal, bird, amphibian and conifer species) and forest biodiversity intactness (based on the modelled relationship between anthropogenic pressures and community intactness). The strengths and weaknesses of these products for policy and local decision-making are reviewed and we map out future improvements and developments that are needed to enhance their usefulness.

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Modelling biodiversity responses to land use in areas of cocoa cultivation

Maney

Sassen

Hill

2022

Agriculture, Ecosystems & Environment

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Area‐based conservation beyond 2020: A global survey of conservation scientists

Woodley¹,

Bhola²,

Maney³

et al. 2019

PARKS

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The Ecosystem Integrity Index: a novel measure of terrestrial ecosystem integrity

Hill

Fajardo

Maney

et al. 2022

Preprint

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We present a novel index that represents, in one combined metric, the integrity of terrestrial ecosystems globally at 1km2 resolution: the Ecosystem Integrity Index (EII). The index provides a simple, yet scientifically robust, way of measuring, monitoring and reporting on ecosystem integrity at any geographical scale. It is formed of three components, structure, composition, and function, and measured against a natural (current potential) baseline on a scale of 0 to 1. The index has been developed to help national governments measure and report on various of the goals and targets being developed within the draft post-2020 global biodiversity framework being negotiated under the Convention on Biological Diversity, and for non-state actor contributions to also be recognized. In doing so, it will enable these actors to make informed decisions on the conservation, restoration and sustainable use of ecosystems for which they are wholly or partly responsible. We find that ecosystem integrity is rapidly declining in terrestrial areas globally, with countries, on average, retaining less than half of their natural ecosystem integrity with a mean EII across all countries of 0.45 (SD: 0.20). This poses a challenge for nations and businesses seeking to halt and reverse decades of loss of nature around the world, but one that is not insurmountable. With sufficient effort, values of EII can increase at national and other scales, representing progress towards the vision of living in harmony with nature.

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Calum Maney

An ecoregion‐based approach to restoring the world's intact large mammal assemblages

Measuring Forest Biodiversity Status and Changes Globally

Modelling biodiversity responses to land use in areas of cocoa cultivation

Area‐based conservation beyond 2020: A global survey of conservation scientists

The Ecosystem Integrity Index: a novel measure of terrestrial ecosystem integrity

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