Your search keyword '"Burgess ND"' showing total 70 results

1. Scientific foundations for an ecosystem goal, milestones and indicators for the post-2020 global biodiversity framework

Author

Nicholson, Emily, Watermeyer, Katherine, Rowland, Jessica, Sato, Chloe, Stevenson, Simone, Andrade, A, Brooks, TM, Burgess, ND, Cheng, ST, Grantham, HS, Hill, SL, Keith, DA, Maron, M, Metzke, D, Murray, NJ, Nelson, CR, Obura, D, Plumptre, A, Skowno, AL, Watson, JEM, Nicholson, Emily, Watermeyer, Katherine, Rowland, Jessica, Sato, Chloe, Stevenson, Simone, Andrade, A, Brooks, TM, Burgess, ND, Cheng, ST, Grantham, HS, Hill, SL, Keith, DA, Maron, M, Metzke, D, Murray, NJ, Nelson, CR, Obura, D, Plumptre, A, Skowno, AL, and Watson, JEM

Published

2021

2. A spatial overview of the global importance of Indigenous lands for conservation

Author

Garnett, ST, Burgess, ND, Fa, John, Fernández-Llamazares, A, Molnár, Z, Robinson, CJ, Watson, JEM, Zander, KK, Austin, B, Brondizio, ES, Collier, NF, Duncan, T, Ellis, E, Geyle, H, Jackson, MV, Jonas, H, Malmer, P, McGowan, B, Sivongxay, A, Leiper, I, Garnett, ST, Burgess, ND, Fa, John, Fernández-Llamazares, A, Molnár, Z, Robinson, CJ, Watson, JEM, Zander, KK, Austin, B, Brondizio, ES, Collier, NF, Duncan, T, Ellis, E, Geyle, H, Jackson, MV, Jonas, H, Malmer, P, McGowan, B, Sivongxay, A, and Leiper, I

Abstract

Understanding the scale, location and nature conservation values of the lands over which Indigenous Peoples exercise tradi- tional rights is central to implementation of several global conservation and climate agreements. However, spatial information on Indigenous lands has never been aggregated globally. Here, using publicly available geospatial resources, we show that Indigenous Peoples manage or have tenure rights over at least ~38 million km2 in 87 countries or politically distinct areas on all inhabited continents. This represents over a quarter of the world’s land surface, and intersects about 40% of all terrestrial protected areas and ecologically intact landscapes (for example, boreal and tropical primary forests, savannas and marshes). Our results add to growing evidence that recognizing Indigenous Peoples’ rights to land, benefit sharing and institutions is essential to meeting local and global conservation goals. The geospatial analysis presented here indicates that collaborative partnerships involving conservation practitioners, Indigenous Peoples and governments would yield significant benefits for conservation of ecologically valuable landscapes, ecosystems and genes for future generations.

Published

2018

3. Biodiversity and ecosystem services: Not all positive

Author

Sandbrook, CG, Burgess, ND, Sandbrook, Chris [0000-0002-9938-4934], and Apollo - University of Cambridge Repository

Subjects

3103 Ecology, 4104 Environmental Management, 4102 Ecological Applications, 41 Environmental Sciences, 31 Biological Sciences

Published

2017

4. New insights on above ground biomass and forest attributes in tropical montane forests

Author

Cuni-Sanchez, A, Pfeifer, M, Marchant, R, Calders, K, Sørensen, CL, Pompeu, PV, Lewis, SL, and Burgess, ND

Abstract

Despite the potential of tropical montane forests to store and sequester substantial amounts of carbon, little is known about the above ground biomass (AGB) and the factors affecting it in these ecosystems, especially in Africa. We investigated the height-diameter allometry, AGB, and related differences in AGB to taxonomic and structural forest attributes in three distinct forest types (dry, mixed species and elfin) in three mountains of northern Kenya. We established 24 permanent plots (20 m × 100 m) and sampled all trees ≥10 cm diameter following standard Rainfor protocols. We identified that different height-diameter allometric models could be used for different forests types, with the exception of the Michaelis–Menten model. In our study area, model choice had little effects on AGB estimates. In general, mixed forests had greater AGB than other forest types: in Mt Nyiro AGB estimates were 611, 408 and 241 Mg ha−1 for mixed, elfin and dry forests respectively. Forests in Mt Nyiro, the highest mountain had greater AGB than in the other mountains. In our study area, differences in AGB were related to forest structure attributes, with little influence of taxonomic attributes. The mixed and elfin forests in Mt Nyiro, dominated by Podocarpus latifolius and Faurea saligna contained comparable AGB to lowland rainforests, highlighting the importance of tropical montane forests as large carbon stock, which could be released if converted to another land cover type.

Published

2017

5. BIG DATA AND BIODIVERSITY. Filling in biodiversity threat gaps

Author

Joppa, LN, O'Connor, B, Visconti, P, Smith, C, Geldmann, J, Hoffmann, M, Watson, JEM, Butchart, SHM, Virah-Sawmy, M, Halpern, BS, Ahmed, SE, Balmford, A, Sutherland, WJ, Harfoot, M, Hilton-Taylor, C, Foden, W, Di Minin, E, Pagad, S, Genovesi, P, Hutton, J, Burgess, ND, Geldmann, Jonas [0000-0002-1191-7610], Balmford, Andrew [0000-0002-0144-3589], Sutherland, William [0000-0002-6498-0437], and Apollo - University of Cambridge Repository

Subjects

Endangered Species, Animals, Datasets as Topic, Humans, Human Activities, Biodiversity

Abstract

Only 5% of global threat data sets meet a “gold standard”

Published

2016

6. Global Goals Mapping: The Environment-human Landscape

Author

Scharlemann, Jorn P W, Mant RC, N, Balfour, Brown C, Burgess ND, Guth M, DJ, Ingram, R, Lane, J, Martin, Wicander S, and Kapos V

Published

2016

7. Reconciling biodiversity indicators to guide understanding and action

Author

Hill, SLL, Harfoot, M, Purvis, A, Purves, DW, Collen, B, Newbold, T, Burgess, ND, Mace, GM, The Royal Society, and Natural Environment Research Council (NERC)

Subjects

Science & Technology, ANTHROPOCENE, LAND-USE, Ecology, INCREASES, Madingley model, Biodiversity & Conservation, CONSERVATION, PREDICTS model, biodiversity metrics, TIME, biodiversity trends, FUTURE, TARGETS, MD Multidisciplinary, Biodiversity Conservation, Global biodiversity indicators, Aichi targets, LOCAL DIVERSITY, Life Sciences & Biomedicine

Abstract

Many metrics can be used to capture trends in biodiversity and, in turn, these metrics inform biodiversity indicators. Sampling biases, genuine differences between metrics, or both, can often cause indicators to appear to be in conflict. This lack of congruence confuses policy makers and the general public, hindering effective responses to the biodiversity crisis. We show how different and seemingly inconsistent metrics of biodiversity can, in fact, emerge from the same scenario of biodiversity change. We develop a simple, evidence-based narrative of biodiversity change and implement it in a simulation model. The model demonstrates how, for example, species richness can remain stable in a given landscape, whereas other measures (e.g. compositional similarity) can be in sharp decline. We suggest that linking biodiversity metrics in a simple model will support more robust indicator development, enable stronger predictions of biodiversity change, and provide policy-relevant advice at a range of scales.

Published

2016

8. Participatory forest management for more than a decade in Tanzania: does it live up to its Goals?

Author

Ngaga, YM, Treue, T, Meilby, H, Lund, JF, Kajembe, GC, Chamshama, SAO, Theilade, I, Njana, MA, Ngowi, SE, Mwakalukwa, EE, Isango, JAK, and Burgess, ND

Abstract

In Tanzania, Participatory Forest Management (PFM) was introduced in order to address the challenge of deforestation which continues at alarming rate. Equally, PFM aimed to involve communities adjacent to forests in management of forest resources while at the same time accrue economic benefits. PFM consists of Community Based Forest Management (CBFM) and Joint Forest Management (JFM). CBFM takes place on village land, in forests that are owned by the village while JFM takes place in Central or Local Government forest reserves (FRs) whereby owner of the FR and adjacent communities jointly manage and share benefits accrued from the FR. This study aimed to assess the role of PFM in sustainable exploitation of forest resources, equitable economic benefits and good forest governance. Generally, the study concludes that PFM can and does contribute to sustainable utilisation of forest resources and that, households across wealth categories benefit economically from PFM. However, there is a slight tendency that the rich benefit more than the poor. Similarly, the study concludes that, while CBFM and JFM have formally established appropriate institutions for PFM, this has not promoted enfranchisement and inclusiveness. The problem of elite capture in PFM should be addressed through information and education.Key words: Participatory Forest management, bio-physical sustainability, socio-economics, governance, Tanzania.

Published

2013

9. Establishing IUCN Red List Criteria for Threatened Ecosystems

Author

Paul Rodriguez, J, Rodriguez-Clark, KM, Baillie, JEM, Ash, N, Benson, J, Boucher, T, Brown, C, Burgess, ND, Collen, B, Jennings, M, Keith, DA, Nicholson, E, Revenga, C, Reyers, B, Rouget, M, Smith, T, Spalding, M, Taber, A, Walpole, M, Zager, I, Zamin, T, Paul Rodriguez, J, Rodriguez-Clark, KM, Baillie, JEM, Ash, N, Benson, J, Boucher, T, Brown, C, Burgess, ND, Collen, B, Jennings, M, Keith, DA, Nicholson, E, Revenga, C, Reyers, B, Rouget, M, Smith, T, Spalding, M, Taber, A, Walpole, M, Zager, I, and Zamin, T

Abstract

The potential for conservation of individual species has been greatly advanced by the International Union for Conservation of Nature's (IUCN) development of objective, repeatable, and transparent criteria for assessing extinction risk that explicitly separate risk assessment from priority setting. At the IV World Conservation Congress in 2008, the process began to develop and implement comparable global standards for ecosystems. A working group established by the IUCN has begun formulating a system of quantitative categories and criteria, analogous to those used for species, for assigning levels of threat to ecosystems at local, regional, and global levels. A final system will require definitions of ecosystems; quantification of ecosystem status; identification of the stages of degradation and loss of ecosystems; proxy measures of risk (criteria); classification thresholds for these criteria; and standardized methods for performing assessments. The system will need to reflect the degree and rate of change in an ecosystem's extent, composition, structure, and function, and have its conceptual roots in ecological theory and empirical research. On the basis of these requirements and the hypothesis that ecosystem risk is a function of the risk of its component species, we propose a set of four criteria: recent declines in distribution or ecological function, historical total loss in distribution or ecological function, small distribution combined with decline, or very small distribution. Most work has focused on terrestrial ecosystems, but comparable thresholds and criteria for freshwater and marine ecosystems are also needed. These are the first steps in an international consultation process that will lead to a unified proposal to be presented at the next World Conservation Congress in 2012.

Published

2011

10. Performance of sub-Saharan vertebrates as indicator groups for identifying priority areas for conservation

Author

Moore, JL, Balmford, A, Brooks, T, Burgess, ND, Hansen, LA, Rahbek, C, Williams, PH, Moore, JL, Balmford, A, Brooks, T, Burgess, ND, Hansen, LA, Rahbek, C, and Williams, PH

Abstract

The aim of continental and global identification of priority areas for conservation is to identify particularly valuable areas for conservation on which to focus more‐detailed effort. Often, these sets of important areas, referred to as priority sets, have been identified through use of data on a single taxon (e.g., birds), which is assumed to act as an indicator for all biodiversity. Using a database of the distributions of 3882 vertebrate species in sub‐Saharan Africa, we conducted one of very few large‐scale tests of this assumption. We used six potential indicator groups—birds, mammals, amphibians, snakes, threatened birds, and threatened mammals—to find priority sets of 200 areas that best represent the species in that group. Priority sets of grid cells designed to maximize representation of a single indicator group captured 83–93% of species in the other groups. This high degree of representation is consistent with observed high levels of overlap in the patterns of distribution of species in different groups. Those species of highest conservation interest were more poorly represented, however, with only 75–88% of other groups' threatened species and 63–76% of other groups' narrow‐range species represented in the priority sets. We conclude that existing priority sets based on indicator groups provide a pragmatic basis for the immediate assessment of priorities for conservation at a continental scale. However, complete and efficient representation—especially of narrow‐range species—will not be achieved through indicator groups alone. Therefore, priority‐setting procedures must remain flexible so that new areas important for other taxa can be incorporated as data become available.

Published

2003

11. A global analysis of management capacity and ecological outcomes in terrestrial protected areas

Author

Geldmann, J, Coad, L, Barnes, MD, Craigie, ID, Woodley, S, Balmford, A, Brooks, TM, Hockings, M, Knights, K, Mascia, MB, McRae, L, and Burgess, ND

Subjects

management effectiveness tracking tool (METT), vertebrate population trends, protected area management effectiveness (PAME), world database on protected areas (WDPA), 15. Life on land, living planet database

Abstract

Protecting important sites is a key strategy for halting the loss of biodiversity. However, our understanding of the relationship between management inputs and biodiversity outcomes in protected areas (PAs) remains weak. Here, we examine biodiversity outcomes using species population trends in PAs derived from the Living Planet Database in relation to management data derived from the Management Effectiveness Tracking Tool (METT) database for 217 population time-series from 73 PAs. We found a positive relationship between our METT-based scores for Capacity and Resources and changes in vertebrate abundance, consistent with the hypothesis that PAs require adequate resourcing to halt biodiversity loss. Additionally, PA age was negatively correlated with trends for the mammal subsets and PA size negatively correlated with population trends in the global subset. Our study highlights the paucity of appropriate data for rigorous testing of the role of management in maintaining species populations across multiple sites, and describes ways to improve our understanding of PA performance.

12. Widespread shortfalls in protected area resourcing undermine efforts to conserve biodiversity

Author

Coad, L, Watson, JEM, Geldmann, J, Burgess, ND, Leverington, F, Hockings, M, Knights, K, and Di Marco, M

Subjects

15 Life on Land, 4101 Climate Change Impacts and Adaptation, 15. Life on land, 41 Environmental Sciences, 31 Biological Sciences

Abstract

© 2019 The Authors. Frontiers in Ecology and the Environment published by Wiley Periodicals Inc. on behalf of the Ecological Society of America. Protected areas (PAs) are a key tool in efforts to safeguard biodiversity against increasing anthropogenic threats. As signatories to the 2011–2020 Strategic Plan for Biodiversity, 196 nations pledged support for expansion in the extent of the global PA estate and the quality of PA management. While this has resulted in substantial increases in PA designations, many sites lack the resources needed to guarantee effective biodiversity conservation. Using management reports from 2167 PAs (with an area representing 23% of the global terrestrial PA estate), we demonstrate that less than a quarter of these PAs report having adequate resources in terms of staffing and budget. Using data on the geographic ranges of the 11,919 terrestrial vertebrate species overlapping our sample of PAs, we estimate that only 4–9% of terrestrial amphibians, birds, and mammals are sufficiently represented within the existing global PA estate, when only adequately resourced PAs are considered. While continued expansion of the world's PAs is necessary, a shift in emphasis from quantity to quality is critical to effectively respond to the current biodiversity crisis.

13. Probabilistic description of vegetation ecotones using remote sensing

Author

De Klerk, Helen, Burgess, ND, and Visser, V

Published

2018

14. Status and trends in the international wildlife trade in Chameleons with a focus on Tanzania.

Author

Isaac MC, Burgess ND, Tallowin OJS, Pavitt AT, Kadigi RMJ, and Ract C

Subjects

Animals, Tanzania, Endangered Species statistics & numerical data, Endangered Species trends, Biodiversity, Wildlife Trade, Commerce, Animals, Wild, Lizards, Conservation of Natural Resources

Abstract

Chameleons (family Chamaeleonidae) are a distinctive group of reptiles, mainly found in Africa, which have high local endemism and face significant threats from the international wildlife trade. We review the scale and structure of international chameleon trade, with a focus on collection in and exports from Tanzania; a hotspot of chameleon diversity. Analysis used data from the CITES Trade Database 2000-2019, combined with assessment of online trade, and on-the-ground surveys in Tanzania in 2019. Between 2000 and 2019, 1,128,776 live chameleons from 108 species were reported as exported globally, with 193,093 of these (from 32 species) exported by Tanzania. Both global and Tanzanian chameleon exports declined across the study period, driven by decreased trade in generalist genera. Whilst the proportion of captive-bred individuals increased across time for the generalist taxa, the majority of range-restricted taxa in trade remained largely wild-sourced. For Tanzanian exports, 41% of chameleons were from one of the 23 endemic species, and 10 of the 12 Tanzanian endemic species in trade are categorised as threatened with extinction by IUCN. In terms of online trade, of the 42 Tanzanian species assessed, there was evidence of online sale for 83.3% species, and 69% were actively for sale with prices listed. Prices were on average highest for Trioceros species, followed by Kinyongia, Rieppeleon, Rhampholeon, and Chameleo. Field work in Tanzania provided evidence that the historic harvest of endemic chameleon species has been higher than the quantities of these species reported as exported by Tanzania in their annual trade reports to CITES. However, we found no field evidence for trade in 2020 and 2021, in line with Tanzanian regulations that applied a blanket ban on all exports of live wild animals. Literature evidence, however, suggests that illegal trade continued to Europe from seizures of Tanzanian chameleon species in Austria in 2021., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2024 Isaac et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2024

15. National commitments to Aichi Targets and their implications for monitoring the Kunming-Montreal Global Biodiversity Framework.

Author

Maney C, Guaras D, Harrison J, Guizar-Coutiño A, Harfoot MBJ, Hill SLL, Burgess ND, and Sutherland W

Abstract

The Convention on Biological Biodiversity (CBD) exists as a major multilateral environmental agreement to safeguard biodiversity and "live in harmony with nature". To deliver it, strategies and frameworks are set out in regular agreements that are then implemented at the national scale. However, we are not on track to achieve overall goals, and frameworks so far have not been successful. This could be due to unambitious targets, low follow-through on commitments, or desired outcomes for nature not being achieved when action is taken. Here, we focus on national planning and reporting documents from a set of 30% of Parties to the CBD. We found that nearly half of the commitments mentioned in national planning documents did not appear in the Sixth National Reports and that further losses emerged due to measures reported as incomplete or ineffective. There were differences between commitments to each of the Aichi Targets, with more losses in high-profile and "institutionally challenging" Targets. Commitments from Parties in different Human Development Index categories had different outcomes among Targets, and Parties self-identifying as "megadiverse countries" had overall higher rates of reported success. Our results are important for informing the monitoring of commitment implementation in the Kunming-Montreal "global biodiversity package"., (© 2024. The Author(s).)

Published

2024

16. Nature Forest Reserves in Tanzania and their importance for conservation.

Author

Ract C, Burgess ND, Dinesen L, Sumbi P, Malugu I, Latham J, Anderson L, Gereau RE, Gonçalves de Lima M, Akida A, Nashanda E, Shabani Z, Tango Y, Mteleka S, Santos Silayo D, Mwangi J, Lyatuu G, Platts PJ, and Rovero F

Subjects

Animals, Tanzania, Ecosystem, Biodiversity, Mammals, Conservation of Natural Resources methods, Forests

Abstract

Since 1997 Tanzania has undertaken a process to identify and declare a network of Nature Forest Reserves (NFRs) with high biodiversity values, from within its existing portfolio of national Forest Reserves, with 16 new NFRs declared since 2015. The current network of 22 gazetted NFRs covered 948,871 hectares in 2023. NFRs now cover a range of Tanzanian habitat types, including all main forest types-wet, seasonal, and dry-as well as wetlands and grasslands. NFRs contain at least 178 of Tanzania's 242 endemic vertebrate species, of which at least 50% are threatened with extinction, and 553 Tanzanian endemic plant taxa (species, subspecies, and varieties), of which at least 50% are threatened. NFRs also support 41 single-site endemic vertebrate species and 76 single-site endemic plant taxa. Time series analysis of management effectiveness tracking tool (METT) data shows that NFR management effectiveness is increasing, especially where donor funds have been available. Improved management and investment have resulted in measurable reductions of some critical threats in NFRs. Still, ongoing challenges remain to fully contain issues of illegal logging, charcoal production, firewood, pole-cutting, illegal hunting and snaring of birds and mammals, fire, wildlife trade, and the unpredictable impacts of climate change. Increased tourism, diversified revenue generation and investment schemes, involving communities in management, and stepping up control measures for remaining threats are all required to create a network of economically self-sustaining NFRs able to conserve critical biodiversity values., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2024 Ract et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2024

17. Protected areas reduce deforestation and degradation and enhance woody growth across African woodlands.

Author

McNicol IM, Keane A, Burgess ND, Bowers SJ, Mitchard ETA, and Ryan CM

Abstract

Protected areas are increasingly promoted for their capacity to sequester carbon, alongside biodiversity benefits. However, we have limited understanding of whether they are effective at reducing deforestation and degradation, or promoting vegetation growth, and the impact that this has on changes to aboveground woody carbon stocks. Here we present a new satellite radar-based map of vegetation carbon change across southern Africa's woodlands and combine this with a matching approach to assess the effect of protected areas on carbon dynamics. We show that protection has a positive effect on aboveground carbon, with stocks increasing faster in protected areas (+0.53% per year) compared to comparable lands not under protection (+0.08% per year). The positive effect of protection reflects lower rates of deforestation (-39%) and degradation (-25%), as well as a greater prevalence of vegetation growth (+12%) inside protected lands. Areas under strict protection had similar outcomes to other types of protection after controlling for differences in location, with effect scores instead varying more by country, and the level of threat. These results highlight the potential for protected areas to sequester aboveground carbon, although we caution that in some areas this may have negative impacts on biodiversity, and human wellbeing., Competing Interests: Competing interestsThe authors declare no competing interests., (© The Author(s) 2023.)

Published

2023

18. Policy responses to the Ukraine crisis threaten European biodiversity.

Author

Strange N, Geldmann J, Burgess ND, and Bull JW

Subjects

Ukraine, Biodiversity, Policy

Published

2022

19. Prevalence of sustainable and unsustainable use of wild species inferred from the IUCN Red List of Threatened Species.

Author

Marsh SME, Hoffmann M, Burgess ND, Brooks TM, Challender DWS, Cremona PJ, Hilton-Taylor C, de Micheaux FL, Lichtenstein G, Roe D, and Böhm M

Subjects

Animals, Biodiversity, Commerce, Conservation of Natural Resources, Internationality, Prevalence, Ecosystem, Endangered Species

Abstract

Unsustainable exploitation of wild species represents a serious threat to biodiversity and to the livelihoods of local communities and Indigenous peoples. However, managed, sustainable use has the potential to forestall extinctions, aid recovery, and meet human needs. We analyzed species-level data for 30,923 species from 13 taxonomic groups on the International Union for Conservation of Nature Red List of Threatened Species to investigate patterns of intentional biological resource use. Forty percent of species (10,098 of 25,009 species from 10 data-sufficient taxonomic groups) were used. The main purposes of use were pets, display animals, horticulture, and human consumption. Intentional use is currently contributing to elevated extinction risk for 28-29% of threatened or near threatened (NT) species (2752-2848 of 9753 species). Intentional use also affected 16% of all species used (1597-1631 of 10,098). However, 72% of used species (7291 of 10,098) were least concern, of which nearly half (3469) also had stable or improving population trends. The remainder were not documented as threatened by biological resource use, including at least 172 threatened or NT species with stable or improving populations. About one-third of species that had use documented as a threat had no targeted species management actions to directly address this threat. To improve use-related red-list data, we suggest small amendments to the relevant classification schemes and required supporting documentation. Our findings on the prevalence of sustainable and unsustainable use, and variation across taxa, can inform international policy making, including the Intergovernmental Science-Policy Platform on Biodiversity and Ecosystem Services, the Convention on Biological Diversity, and the Convention on International Trade in Endangered Species., (© 2021 The Authors. Conservation Biology published by Wiley Periodicals LLC on behalf of Society for Conservation Biology.)

Published

2022

20. Post COVID-19: a solution scan of options for preventing future zoonotic epidemics.

Author

Petrovan SO, Aldridge DC, Bartlett H, Bladon AJ, Booth H, Broad S, Broom DM, Burgess ND, Cleaveland S, Cunningham AA, Ferri M, Hinsley A, Hua F, Hughes AC, Jones K, Kelly M, Mayes G, Radakovic M, Ugwu CA, Uddin N, Veríssimo D, Walzer C, White TB, Wood JL, and Sutherland WJ

Subjects

Animals, Animals, Wild, Humans, Pandemics, SARS-CoV-2, Zoonoses epidemiology, COVID-19

Abstract

The crisis generated by the emergence and pandemic spread of COVID-19 has thrown into the global spotlight the dangers associated with novel diseases, as well as the key role of animals, especially wild animals, as potential sources of pathogens to humans. There is a widespread demand for a new relationship with wild and domestic animals, including suggested bans on hunting, wildlife trade, wet markets or consumption of wild animals. However, such policies risk ignoring essential elements of the problem as well as alienating and increasing hardship for local communities across the world, and might be unachievable at scale. There is thus a need for a more complex package of policy and practical responses. We undertook a solution scan to identify and collate 161 possible options for reducing the risks of further epidemic disease transmission from animals to humans, including potential further SARS-CoV-2 transmission (original or variants). We include all categories of animals in our responses (i.e. wildlife, captive, unmanaged/feral and domestic livestock and pets) and focus on pathogens (especially viruses) that, once transmitted from animals to humans, could acquire epidemic potential through high rates of human-to-human transmission. This excludes measures to prevent well-known zoonotic diseases, such as rabies, that cannot readily transmit between humans. We focused solutions on societal measures, excluding the development of vaccines and other preventive therapeutic medicine and veterinary medicine options that are discussed elsewhere. We derived our solutions through reading the scientific literature, NGO position papers, and industry guidelines, collating our own experiences, and consulting experts in different fields. Herein, we review the major zoonotic transmission pathways and present an extensive list of options. The potential solutions are organised according to the key stages of the trade chain and encompass solutions that can be applied at the local, regional and international scales. This is a set of options targeted at practitioners and policy makers to encourage careful examination of possible courses of action, validating their impact and documenting outcomes., (© 2021 The Authors. Biological Reviews published by John Wiley & Sons Ltd on behalf of Cambridge Philosophical Society.)

Published

2021

21. Using the IUCN Red List to map threats to terrestrial vertebrates at global scale.

Author

Harfoot MBJ, Johnston A, Balmford A, Burgess ND, Butchart SHM, Dias MP, Hazin C, Hilton-Taylor C, Hoffmann M, Isaac NJB, Iversen LL, Outhwaite CL, Visconti P, and Geldmann J

Subjects

Animals, Anthropogenic Effects, Humans, Hunting, Vertebrates, Conservation of Natural Resources, Endangered Species

Abstract

The Anthropocene is characterized by unparalleled human impact on other species, potentially ushering in the sixth mass extinction. Yet mitigation efforts remain hampered by limited information on the spatial patterns and intensity of the threats driving global biodiversity loss. Here we use expert-derived information from the International Union for Conservation of Nature Red List on threats to 23,271 species, representing all terrestrial amphibians, birds and mammals, to generate global maps of the six major threats to these groups: agriculture, hunting and trapping, logging, pollution, invasive species, and climate change. Our results show that agriculture and logging are pervasive in the tropics and that hunting and trapping is the most geographically widespread threat to mammals and birds. Additionally, current representations of human pressure underestimate the overall pressure on biodiversity, due to the exclusion of threats such as hunting and climate change. Alarmingly, this is particularly the case in areas of the highest biodiversity importance., (© 2021. The Author(s).)

Published

2021

22. Scientific foundations for an ecosystem goal, milestones and indicators for the post-2020 global biodiversity framework.

Author

Nicholson E, Watermeyer KE, Rowland JA, Sato CF, Stevenson SL, Andrade A, Brooks TM, Burgess ND, Cheng ST, Grantham HS, Hill SL, Keith DA, Maron M, Metzke D, Murray NJ, Nelson CR, Obura D, Plumptre A, Skowno AL, and Watson JEM

Subjects

Biodiversity, Climate Change, Conservation of Natural Resources, Humans, Ecosystem, Goals

Abstract

Despite substantial conservation efforts, the loss of ecosystems continues globally, along with related declines in species and nature's contributions to people. An effective ecosystem goal, supported by clear milestones, targets and indicators, is urgently needed for the post-2020 global biodiversity framework and beyond to support biodiversity conservation, the UN Sustainable Development Goals and efforts to abate climate change. Here, we describe the scientific foundations for an ecosystem goal and milestones, founded on a theory of change, and review available indicators to measure progress. An ecosystem goal should include three core components: area, integrity and risk of collapse. Targets-the actions that are necessary for the goals to be met-should address the pathways to ecosystem loss and recovery, including safeguarding remnants of threatened ecosystems, restoring their area and integrity to reduce risk of collapse and retaining intact areas. Multiple indicators are needed to capture the different dimensions of ecosystem area, integrity and risk of collapse across all ecosystem types, and should be selected for their fitness for purpose and relevance to goal components. Science-based goals, supported by well-formulated action targets and fit-for-purpose indicators, will provide the best foundation for reversing biodiversity loss and sustaining human well-being., (© 2021. Springer Nature Limited.)

Published

2021

23. High aboveground carbon stock of African tropical montane forests.

Author

Cuni-Sanchez A, Sullivan MJP, Platts PJ, Lewis SL, Marchant R, Imani G, Hubau W, Abiem I, Adhikari H, Albrecht T, Altman J, Amani C, Aneseyee AB, Avitabile V, Banin L, Batumike R, Bauters M, Beeckman H, Begne SK, Bennett AC, Bitariho R, Boeckx P, Bogaert J, Bräuning A, Bulonvu F, Burgess ND, Calders K, Chapman C, Chapman H, Comiskey J, de Haulleville T, Decuyper M, DeVries B, Dolezal J, Droissart V, Ewango C, Feyera S, Gebrekirstos A, Gereau R, Gilpin M, Hakizimana D, Hall J, Hamilton A, Hardy O, Hart T, Heiskanen J, Hemp A, Herold M, Hiltner U, Horak D, Kamdem MN, Kayijamahe C, Kenfack D, Kinyanjui MJ, Klein J, Lisingo J, Lovett J, Lung M, Makana JR, Malhi Y, Marshall A, Martin EH, Mitchard ETA, Morel A, Mukendi JT, Muller T, Nchu F, Nyirambangutse B, Okello J, Peh KS, Pellikka P, Phillips OL, Plumptre A, Qie L, Rovero F, Sainge MN, Schmitt CB, Sedlacek O, Ngute ASK, Sheil D, Sheleme D, Simegn TY, Simo-Droissart M, Sonké B, Soromessa T, Sunderland T, Svoboda M, Taedoumg H, Taplin J, Taylor D, Thomas SC, Timberlake J, Tuagben D, Umunay P, Uzabaho E, Verbeeck H, Vleminckx J, Wallin G, Wheeler C, Willcock S, Woods JT, and Zibera E

Subjects

Africa, Biomass, Climate Change, Conservation of Natural Resources, Datasets as Topic, Geographic Mapping, Attitude, Carbon analysis, Carbon Sequestration, Rainforest, Trees metabolism, Tropical Climate

Abstract

Tropical forests store 40-50 per cent of terrestrial vegetation carbon 1 . However, spatial variations in aboveground live tree biomass carbon (AGC) stocks remain poorly understood, in particular in tropical montane forests 2 . Owing to climatic and soil changes with increasing elevation 3 , AGC stocks are lower in tropical montane forests compared with lowland forests 2 . Here we assemble and analyse a dataset of structurally intact old-growth forests (AfriMont) spanning 44 montane sites in 12 African countries. We find that montane sites in the AfriMont plot network have a mean AGC stock of 149.4 megagrams of carbon per hectare (95% confidence interval 137.1-164.2), which is comparable to lowland forests in the African Tropical Rainforest Observation Network 4 and about 70 per cent and 32 per cent higher than averages from plot networks in montane 2,5,6 and lowland 7 forests in the Neotropics, respectively. Notably, our results are two-thirds higher than the Intergovernmental Panel on Climate Change default values for these forests in Africa 8 . We find that the low stem density and high abundance of large trees of African lowland forests 4 is mirrored in the montane forests sampled. This carbon store is endangered: we estimate that 0.8 million hectares of old-growth African montane forest have been lost since 2000. We provide country-specific montane forest AGC stock estimates modelled from our plot network to help to guide forest conservation and reforestation interventions. Our findings highlight the need for conserving these biodiverse 9,10 and carbon-rich ecosystems., (© 2021. The Author(s), under exclusive licence to Springer Nature Limited.)

Published

2021

24. A metric for spatially explicit contributions to science-based species targets.

Author

Mair L, Bennun LA, Brooks TM, Butchart SHM, Bolam FC, Burgess ND, Ekstrom JMM, Milner-Gulland EJ, Hoffmann M, Ma K, Macfarlane NBW, Raimondo DC, Rodrigues ASL, Shen X, Strassburg BBN, Beatty CR, Gómez-Creutzberg C, Iribarrem A, Irmadhiany M, Lacerda E, Mattos BC, Parakkasi K, Tognelli MF, Bennett EL, Bryan C, Carbone G, Chaudhary A, Eiselin M, da Fonseca GAB, Galt R, Geschke A, Glew L, Goedicke R, Green JMH, Gregory RD, Hill SLL, Hole DG, Hughes J, Hutton J, Keijzer MPW, Navarro LM, Nic Lughadha E, Plumptre AJ, Puydarrieux P, Possingham HP, Rankovic A, Regan EC, Rondinini C, Schneck JD, Siikamäki J, Sendashonga C, Seutin G, Sinclair S, Skowno AL, Soto-Navarro CA, Stuart SN, Temple HJ, Vallier A, Verones F, Viana LR, Watson J, Bezeng S, Böhm M, Burfield IJ, Clausnitzer V, Clubbe C, Cox NA, Freyhof J, Gerber LR, Hilton-Taylor C, Jenkins R, Joolia A, Joppa LN, Koh LP, Lacher TE Jr, Langhammer PF, Long B, Mallon D, Pacifici M, Polidoro BA, Pollock CM, Rivers MC, Roach NS, Rodríguez JP, Smart J, Young BE, Hawkins F, and McGowan PJK

Subjects

Animals, Brazil, Colombia, Indonesia, Madagascar, Mexico, Conservation of Natural Resources

Abstract

The Convention on Biological Diversity's post-2020 Global Biodiversity Framework will probably include a goal to stabilize and restore the status of species. Its delivery would be facilitated by making the actions required to halt and reverse species loss spatially explicit. Here, we develop a species threat abatement and restoration (STAR) metric that is scalable across species, threats and geographies. STAR quantifies the contributions that abating threats and restoring habitats in specific places offer towards reducing extinction risk. While every nation can contribute towards halting biodiversity loss, Indonesia, Colombia, Mexico, Madagascar and Brazil combined have stewardship over 31% of total STAR values for terrestrial amphibians, birds and mammals. Among actions, sustainable crop production and forestry dominate, contributing 41% of total STAR values for these taxonomic groups. Key Biodiversity Areas cover 9% of the terrestrial surface but capture 47% of STAR values. STAR could support governmental and non-state actors in quantifying their contributions to meeting science-based species targets within the framework.

Published

2021

25. The importance of Indigenous Peoples' lands for the conservation of terrestrial mammals.

Author

O'Bryan CJ, Garnett ST, Fa JE, Leiper I, Rehbein JA, Fernández-Llamazares Á, Jackson MV, Jonas HD, Brondizio ES, Burgess ND, Robinson CJ, Zander KK, Molnár Z, Venter O, and Watson JEM

Subjects

Animals, Biodiversity, Endangered Species, Humans, Indigenous Peoples, Mammals, Conservation of Natural Resources, Ecosystem

Abstract

Indigenous Peoples' lands cover over one-quarter of Earth's surface, a significant proportion of which is still free from industrial-level human impacts. As a result, Indigenous Peoples and their lands are crucial for the long-term persistence of Earth's biodiversity and ecosystem services. Yet, information on species composition on these lands globally remains largely unknown. We conducted the first comprehensive analysis of terrestrial mammal composition across mapped Indigenous lands based on data on area of habitat (AOH) for 4460 mammal species assessed by the International Union for Conservation of Nature. We overlaid each species' AOH on a current map of Indigenous lands and found that 2695 species (60% of assessed mammals) had ≥10% of their ranges on Indigenous Peoples' lands and 1009 species (23%) had >50% of their ranges on these lands. For threatened species, 473 (47%) occurred on Indigenous lands with 26% having >50% of their habitat on these lands. We also found that 935 mammal species (131 categorized as threatened) had ≥ 10% of their range on Indigenous Peoples' lands that had low human pressure. Our results show how important Indigenous Peoples' lands are to the successful implementation of conservation and sustainable development agendas worldwide., (© 2020 The Authors. Conservation Biology published by Wiley Periodicals LLC on behalf of Society for Conservation Biology.)

Published

2021

26. The Concept, Practice, Application, and Results of Locally Based Monitoring of the Environment.

Author

Danielsen F, Enghoff M, Poulsen MK, Funder M, Jensen PM, and Burgess ND

Abstract

Locally based monitoring is typically undertaken in areas in which communities have a close attachment to their natural resource base. We present a summary of work to develop a theoretical and practical understanding of locally based monitoring and we outline tests of this approach in research and practice over the past 20 years. Our tests show that locally based monitoring delivers credible data at local scale independent of external experts and can be used to inform local and national decision making within a short timeframe. We believe that monitoring conducted by and anchored in communities will gain in importance where scientist-led monitoring is sparse or too expensive to sustain and for ecosystem attributes in cases in which remote sensing cannot provide credible data. The spread of smartphone technology and online portals will further enhance the importance and usefulness of this discipline., (© The Author(s) 2021. Published by Oxford University Press on behalf of the American Institute of Biological Sciences.)

Published

2021

27. Perspectives on area-based conservation and its meaning for future biodiversity policy.

Author

Bhola N, Klimmek H, Kingston N, Burgess ND, van Soesbergen A, Corrigan C, Harrison J, and Kok MTJ

Subjects

China, Humans, Policy, Biodiversity, Conservation of Natural Resources

Abstract

During 2021, Parties to the Convention on Biological Diversity (CBD) are expected to meet in Kunming, China, to agree on a new global biodiversity framework aimed at halting and reversing biodiversity loss, encouraging the sustainable use of biodiversity, and ensuring the equitable sharing of its benefits. As the post-2020 global biodiversity framework evolves, parties to the convention are being exposed to a range of perspectives on the conservation and sustainable use of biodiversity, relating to the future framework as a whole or to aspects of it. Area-based conservation measures are one such aspect, and there are diverse perspectives on how new targets might be framed in relation to these measures. These perspectives represent different outlooks on the relationship between human and nonhuman life on Earth. However, in most cases there is a lack of clarity on how they would be implemented in practice, the implications this would have for biodiversity and human well-being, and how they would contribute to achieving the 2050 Vision for Biodiversity of "living in harmony with nature." We sought to clarify these issues by summarizing some of these perspectives in relation to the future of area-based biodiversity conservation. We identified these perspectives through a review of the literature and expert consultation workshops and compiled them into 4 main groups: Aichi+, ambitious area-based conservation perspectives, new conservation, and whole-earth conservation. We found that although the perspectives Aichi+ and whole earth are in some cases at odds with one another, they also have commonalities, and all perspectives have elements that can contribute to developing and implementing the post-2020 global biodiversity framework and achieving the longer term CBD 2050 Vision., (© 2020 The Authors. Conservation Biology published by Wiley Periodicals, Inc. on behalf of Society for Conservation Biology.)

Published

2021

28. Set ambitious goals for biodiversity and sustainability.

Author

Díaz S, Zafra-Calvo N, Purvis A, Verburg PH, Obura D, Leadley P, Chaplin-Kramer R, De Meester L, Dulloo E, Martín-López B, Shaw MR, Visconti P, Broadgate W, Bruford MW, Burgess ND, Cavender-Bares J, DeClerck F, Fernández-Palacios JM, Garibaldi LA, Hill SLL, Isbell F, Khoury CK, Krug CB, Liu J, Maron M, McGowan PJK, Pereira HM, Reyes-García V, Rocha J, Rondinini C, Shannon L, Shin YJ, Snelgrove PVR, Spehn EM, Strassburg B, Subramanian SM, Tewksbury JJ, Watson JEM, and Zanne AE

Subjects

Public Policy, Biodiversity, Conservation of Natural Resources

Published

2020

29. Bending the curve of terrestrial biodiversity needs an integrated strategy.

Author

Leclère D, Obersteiner M, Barrett M, Butchart SHM, Chaudhary A, De Palma A, DeClerck FAJ, Di Marco M, Doelman JC, Dürauer M, Freeman R, Harfoot M, Hasegawa T, Hellweg S, Hilbers JP, Hill SLL, Humpenöder F, Jennings N, Krisztin T, Mace GM, Ohashi H, Popp A, Purvis A, Schipper AM, Tabeau A, Valin H, van Meijl H, van Zeist WJ, Visconti P, Alkemade R, Almond R, Bunting G, Burgess ND, Cornell SE, Di Fulvio F, Ferrier S, Fritz S, Fujimori S, Grooten M, Harwood T, Havlík P, Herrero M, Hoskins AJ, Jung M, Kram T, Lotze-Campen H, Matsui T, Meyer C, Nel D, Newbold T, Schmidt-Traub G, Stehfest E, Strassburg BBN, van Vuuren DP, Ware C, Watson JEM, Wu W, and Young L

Subjects

Diet, Diet, Vegetarian trends, Food Supply, Humans, Sustainable Development trends, Biodiversity, Conservation of Natural Resources methods, Conservation of Natural Resources trends, Environmental Policy trends, Human Activities trends

Abstract

Increased efforts are required to prevent further losses to terrestrial biodiversity and the ecosystem services that it  provides 1,2 . Ambitious targets have been proposed, such as reversing the declining trends in biodiversity 3 ; however, just feeding the growing human population will make this a challenge 4 . Here we use an ensemble of land-use and biodiversity models to assess whether-and how-humanity can reverse the declines in terrestrial biodiversity caused by habitat conversion, which is a major threat to biodiversity 5 . We show that immediate efforts, consistent with the broader sustainability agenda but of unprecedented ambition and coordination, could enable the provision of food for the growing human population while reversing the global terrestrial biodiversity trends caused by habitat conversion. If we decide to increase the extent of land under conservation management, restore degraded land and generalize landscape-level conservation planning, biodiversity trends from habitat conversion could become positive by the mid-twenty-first century on average across models (confidence interval, 2042-2061), but this was not the case for all models. Food prices could increase and, on average across models, almost half (confidence interval, 34-50%) of the future biodiversity losses could not be avoided. However, additionally tackling the drivers of land-use change could avoid conflict with affordable food provision and reduces the environmental effects of the food-provision system. Through further sustainable intensification and trade, reduced food waste and more plant-based human diets, more than two thirds of future biodiversity losses are avoided and the biodiversity trends from habitat conversion are reversed by 2050 for almost all of the models. Although limiting further loss will remain challenging in several biodiversity-rich regions, and other threats-such as climate change-must be addressed to truly reverse the declines in biodiversity, our results show that ambitious conservation efforts and food system transformation are central to an effective post-2020 biodiversity strategy.

Published

2020

30. Mapping co-benefits for carbon storage and biodiversity to inform conservation policy and action.

Author

Soto-Navarro C, Ravilious C, Arnell A, de Lamo X, Harfoot M, Hill SLL, Wearn OR, Santoro M, Bouvet A, Mermoz S, Le Toan T, Xia J, Liu S, Yuan W, Spawn SA, Gibbs HK, Ferrier S, Harwood T, Alkemade R, Schipper AM, Schmidt-Traub G, Strassburg B, Miles L, Burgess ND, and Kapos V

Subjects

Biodiversity, Carbon Sequestration, Climate Change, Conservation of Natural Resources methods, Ecosystem

Abstract

Integrated high-resolution maps of carbon stocks and biodiversity that identify areas of potential co-benefits for climate change mitigation and biodiversity conservation can help facilitate the implementation of global climate and biodiversity commitments at local levels. However, the multi-dimensional nature of biodiversity presents a major challenge for understanding, mapping and communicating where and how biodiversity benefits coincide with climate benefits. A new integrated approach to biodiversity is therefore needed. Here, we (a) present a new high-resolution map of global above- and below-ground carbon stored in biomass and soil, (b) quantify biodiversity values using two complementary indices (BIp and BIr) representing proactive and reactive approaches to conservation, and (c) examine patterns of carbon-biodiversity overlap by identifying 'hotspots' (20% highest values for both aspects). Our indices integrate local diversity and ecosystem intactness, as well as regional ecosystem intactness across the broader area supporting a similar natural assemblage of species to the location of interest. The western Amazon Basin, Central Africa and Southeast Asia capture the last strongholds of highest local biodiversity and ecosystem intactness worldwide, while the last refuges for unique biological communities whose habitats have been greatly reduced are mostly found in the tropical Andes and central Sundaland. There is 38 and 5% overlap in carbon and biodiversity hotspots, for proactive and reactive conservation, respectively. Alarmingly, only around 12 and 21% of these proactive and reactive hotspot areas, respectively, are formally protected. This highlights that a coupled approach is urgently needed to help achieve both climate and biodiversity global targets. This would involve (1) restoring and conserving unprotected, degraded ecosystems, particularly in the Neotropics and Indomalaya, and (2) retaining the remaining strongholds of intactness. This article is part of the theme issue 'Climate change and ecosystems: threats, opportunities and solutions'.

Published

2020

31. Relating characteristics of global biodiversity targets to reported progress.

Author

Green EJ, Buchanan GM, Butchart SHM, Chandler GM, Burgess ND, Hill SLL, and Gregory RD

Subjects

Biodiversity, Conservation of Natural Resources, Ecosystem

Abstract

To inform governmental discussions on the nature of a revised Strategic Plan for Biodiversity of the Convention on Biological Diversity (CBD), we reviewed the relevant literature and assessed the framing of the 20 Aichi Biodiversity Targets in the current strategic plan. We asked international experts from nongovernmental organizations, academia, government agencies, international organizations, research institutes, and the CBD to score the Aichi Targets and their constituent elements against a set of specific, measurable, ambitious, realistic, unambiguous, scalable, and comprehensive criteria (SMART based, excluding time bound because all targets are bound to 2015 or 2020). We then investigated the relationship between these expert scores and reported progress toward the target elements by using the findings from 2 global progress assessments (Global Biodiversity Outlook and the Intergovernmental Science-Policy Platform on Biodiversity and Ecosystem Services). We analyzed the data with ordinal logistic regressions. We found significant positive relationships (p < 0.05) between progress and the extent to which the target elements were perceived to be measurable, realistic, unambiguous, and scalable. There was some evidence of a relationship between progress and specificity of the target elements, but no relationship between progress and ambition. We are the first to show associations between progress and the extent to which the Aichi Targets meet certain SMART criteria. As negotiations around the post-2020 biodiversity framework proceed, decision makers should strive to ensure that new or revised targets are effectively structured and clearly worded to allow the translation of targets into actionable policies that can be successfully implemented nationally, regionally, and globally., (© 2019 The Authors. Conservation Biology published by Wiley Periodicals, Inc. on behalf of Society for Conservation Biology.)

Published

2019

32. Linking global drivers of agricultural trade to on-the-ground impacts on biodiversity.

Author

Green JMH, Croft SA, Durán AP, Balmford AP, Burgess ND, Fick S, Gardner TA, Godar J, Suavet C, Virah-Sawmy M, Young LE, and West CD

Subjects

Animals, Brazil, Internationality, Agriculture, Biodiversity, Commerce, Models, Theoretical, Glycine max

Abstract

Consumption of globally traded agricultural commodities like soy and palm oil is one of the primary causes of deforestation and biodiversity loss in some of the world's most species-rich ecosystems. However, the complexity of global supply chains has confounded efforts to reduce impacts. Companies and governments with sustainability commitments struggle to understand their own sourcing patterns, while the activities of more unscrupulous actors are conveniently masked by the opacity of global trade. We combine state-of-the-art material flow, economic trade, and biodiversity impact models to produce an innovative approach for understanding the impacts of trade on biodiversity loss and the roles of remote markets and actors. We do this for the production of soy in the Brazilian Cerrado, home to more than 5% of the world´s species. Distinct sourcing patterns of consumer countries and trading companies result in substantially different impacts on endemic species. Connections between individual buyers and specific hot spots explain the disproportionate impacts of some actors on endemic species and individual threatened species, such as the particular impact of European Union consumers on the recent habitat losses for the iconic giant anteater ( Myrmecophaga tridactyla ). In making these linkages explicit, our approach enables commodity buyers and investors to target their efforts much more closely to improve the sustainability of their supply chains in their sourcing regions while also transforming our ability to monitor the impact of such commitments over time., Competing Interests: The authors declare no competing interest., (Copyright © 2019 the Author(s). Published by PNAS.)

Published

2019

33. A global-level assessment of the effectiveness of protected areas at resisting anthropogenic pressures.

Author

Geldmann J, Manica A, Burgess ND, Coad L, and Balmford A

Subjects

Humans, Models, Statistical, Conservation of Natural Resources

Abstract

One-sixth of the global terrestrial surface now falls within protected areas (PAs), making it essential to understand how far they mitigate the increasing pressures on nature which characterize the Anthropocene. In by far the largest analysis of this question to date and not restricted to forested PAs, we compiled data from 12,315 PAs across 152 countries to investigate their ability to reduce human pressure and how this varies with socioeconomic and management circumstances. While many PAs show positive outcomes, strikingly we find that compared with matched unprotected areas, PAs have on average not reduced a compound index of pressure change over the past 15 y. Moreover, in tropical regions average pressure change from cropland conversion has increased inside PAs even more than in matched unprotected areas. However, our results also confirm previous studies restricted to forest PAs, where pressures are increasing, but less than in counterfactual areas. Our results also show that countries with high national-level development scores have experienced lower rates of pressure increase over the past 15 y within their PAs compared with a matched outside area. Our results caution against the rapid establishment of new PAs without simultaneously addressing the conditions needed to enable their success., Competing Interests: The authors declare no competing interest.

Published

2019

34. Improving collaboration in the implementation of global biodiversity conventions.

Author

Rogalla von Bieberstein K, Sattout E, Christensen M, Pisupati B, Burgess ND, Harrison J, and Geldmann J

Subjects

Biodiversity, Conservation of Natural Resources

Abstract

Eight conventions make up the biodiversity cluster of multilateral environmental agreements (MEAs) that provide the critical international legal framework for the conservation and sustainable use of nature. However, concerns about the rate of implementation of the conventions at the national level have triggered discussions about the effectiveness of these MEAs in halting the loss of biodiversity. Two main concerns have emerged: lack of capacity and resources and lack of coherence in implementing multiple conventions. We focused on the latter and considered the mechanisms by which international conventions are translated into national policy. Specifically, we examined how the Strategic Plan for Biodiversity 2011-2020 and the associated Aichi Biodiversity Targets have functioned as a unifying grand plan for biodiversity conservation. This strategic plan has been used to coordinate and align targets to promote and enable more effective implementation across all biodiversity-related conventions. Results of a survey of 139 key stakeholders from 88 countries suggests streamlining across ministries and agencies, improved coordination mechanisms with all relevant stakeholders, and better knowledge sharing between conventions could improve cooperation among biodiversity-related conventions. The roadmap for improving synergies among conventions agreed to at the 13th Convention on Biological Diversity's Conference of Parties in 2016 includes actions such as mechanisms to avoid duplication in national reporting and monitoring on conventions and capacity building related to information and knowledge sharing. We suggest the scientific community can actively engage and contribute to the policy process by establishing a science-policy platform to address knowledge gaps; improving data gathering, reporting, and monitoring; developing indicators that adequately support implementation of national plans and strategies; and providing evidence-based recommendations to policy makers. The latter will be particularly important as 2020 approaches and work to develop a new biodiversity agenda for the next decade is beginning., (© 2019 Society for Conservation Biology.)

Published

2019

35. Dynamics in the global protected-area estate since 2004.

Author

Lewis E, MacSharry B, Juffe-Bignoli D, Harris N, Burrows G, Kingston N, and Burgess ND

Subjects

Data Accuracy, Databases, Factual, Research Design, Biodiversity, Conservation of Natural Resources

Abstract

Nations of the world have committed to a number of goals and targets to address global environmental challenges. Protected areas have for centuries been a key strategy in conservation and play a major role in addressing current challenges. The most important tool used to track progress on protected-area commitments is the World Database on Protected Areas (WDPA). Periodic assessments of the world's protected-area estate show steady growth over the last 2 decades. However, the current method, which uses the latest version of the WDPA, does not show the true dynamic nature of protected areas over time and does not provide information on sites removed from the WDPA. In reality, this method can only show growth or remain stable. We used GIS tools in an approach to assess protected-area change over time based on 12 temporally distinct versions of the WDPA that quantify area added and removed from the WDPA annually from 2004 to 2016. Both the narrative of continual growth of protected area and the counter-narrative of protected area removal were overly simplistic. The former because growth was almost entirely in the marine realm and the latter because some areas removed were reprotected in later years. On average 2.5 million km 2 was added to the WDPA annually and 1.1 million km 2 was removed. Reasons for the inclusion and removal of protected areas in the WDPA database were in part due to data-quality issues but also to on-the-ground changes. To meet the 17% protected-area component of Aichi Biodiversity Target 11 by 2020, which stood at 14.7% in 2016, either the rate of protected-area removal must decrease or the rate of protected-area designation and addition to the WDPA must increase., (© 2017 Society for Conservation Biology.)

Published

2019

36. Sixty years of tracking conservation progress using the World Database on Protected Areas.

Author

Bingham HC, Juffe Bignoli D, Lewis E, MacSharry B, Burgess ND, Visconti P, Deguignet M, Misrachi M, Walpole M, Stewart JL, Brooks TM, and Kingston N

Subjects

Conservation of Natural Resources, Databases as Topic

Abstract

The world's protected area network is constantly changing, and the dynamics of this network are tracked using the World Database on Protected Areas (WDPA). This database evolved from a list of protected areas first mandated by the United Nations in 1959, and it now informs the key indicators that track progress toward area-based conservation targets. In this capacity, the WDPA illuminates the role of protected areas in advancing a range of international objectives and agreements, including the Convention on Biological Diversity and the Sustainable Development Goals. Despite ongoing challenges in maintaining such a complex global dataset, the WDPA is continuously improving and taking advantage of new technology, making it widely applicable to diverse users, including those in sectors far from its original intended audience. In the future, the WDPA will expand to include areas that contribute to conservation and sustainable use outside of formal protected areas, and will increasingly link to other key global datasets. These innovations in the way the WDPA is managed and used will deliver vital knowledge to support a sustainable future for biodiversity and people globally.

Published

2019

37. A Global Deal For Nature: Guiding principles, milestones, and targets.

Author

Dinerstein E, Vynne C, Sala E, Joshi AR, Fernando S, Lovejoy TE, Mayorga J, Olson D, Asner GP, Baillie JEM, Burgess ND, Burkart K, Noss RF, Zhang YP, Baccini A, Birch T, Hahn N, Joppa LN, and Wikramanayake E

Subjects

Adaptation, Physiological, Animals, Climate Change, Humans, Biodiversity, Conservation of Natural Resources, Earth, Planet, Ecosystem, Models, Biological

Abstract

The Global Deal for Nature (GDN) is a time-bound, science-driven plan to save the diversity and abundance of life on Earth. Pairing the GDN and the Paris Climate Agreement would avoid catastrophic climate change, conserve species, and secure essential ecosystem services. New findings give urgency to this union: Less than half of the terrestrial realm is intact, yet conserving all native ecosystems-coupled with energy transition measures-will be required to remain below a 1.5°C rise in average global temperature. The GDN targets 30% of Earth to be formally protected and an additional 20% designated as climate stabilization areas, by 2030, to stay below 1.5°C. We highlight the 67% of terrestrial ecoregions that can meet 30% protection, thereby reducing extinction threats and carbon emissions from natural reservoirs. Freshwater and marine targets included here extend the GDN to all realms and provide a pathway to ensuring a more livable biosphere.

Published

2019

38. Identifying global centers of unsustainable commercial harvesting of species.

Author

Di Minin E, Brooks TM, Toivonen T, Butchart SHM, Heikinheimo V, Watson JEM, Burgess ND, Challender DWS, Goettsch B, Jenkins R, and Moilanen A

Subjects

Extinction, Biological, Geography, Biodiversity, Conservation of Natural Resources, Endangered Species

Abstract

Overexploitation is one of the main threats to biodiversity, but the intensity of this threat varies geographically. We identified global concentrations, on land and at sea, of 4543 species threatened by unsustainable commercial harvesting. Regions under high-intensity threat (based on accessibility on land and on fishing catch at sea) cover 4.3% of the land and 6.1% of the seas and contain 82% of all species threatened by unsustainable harvesting and >80% of the ranges of Critically Endangered species threatened by unsustainable harvesting. Currently, only 16% of these regions are covered by protected areas on land and just 6% at sea. Urgent actions are needed in these centers of unsustainable harvesting to ensure that use of species is sustainable and to prevent further species' extinctions.

Published

2019

39. Progress toward Equitably Managed Protected Areas in Aichi Target 11: A Global Survey.

Author

Zafra-Calvo N, Garmendia E, Pascual U, Palomo I, Gross-Camp N, Brockington D, Cortes-Vazquez JA, Coolsaet B, and Burgess ND

Abstract

The Convention on Biological Diversity Aichi Target 11 requires its 193 signatory parties to incorporate social equity into protected area (PA) management by 2020. However, there is limited evidence of progress toward this commitment. We surveyed PA managers, staff, and community representatives involved in the management of 225 PAs worldwide to gather information against 10 equity criteria, including the distribution of benefits and burdens, recognition of rights, diversity of cultural and knowledge systems, and processes of participation in decision-making. Our results show that more than half of the respondents indicated that there are still significant challenges to be addressed in achieving equitably managed PAs, particularly in ensuring effective participation in decision-making, transparent procedures, access to justice in conflicting situations, and the recognition of the rights and diversity of local people. Our findings are a first and fundamental contribution toward a global assessment of equitable management in PAs to report on Aichi Target 11 in 2020 and help define the next set of PA targets from 2020-2030.

Published

2019

40. Global screening for Critical Habitat in the terrestrial realm.

Author

Brauneder KM, Montes C, Blyth S, Bennun L, Butchart SHM, Hoffmann M, Burgess ND, Cuttelod A, Jones MI, Kapos V, Pilgrim J, Tolley MJ, Underwood EC, Weatherdon LV, and Brooks SE

Subjects

Biodiversity, Databases, Factual, Models, Biological, Rainforest

Abstract

Critical Habitat has become an increasingly important concept used by the finance sector and businesses to identify areas of high biodiversity value. The International Finance Corporation (IFC) defines Critical Habitat in their highly influential Performance Standard 6 (PS6), requiring projects in Critical Habitat to achieve a net gain of biodiversity. Here we present a global screening layer of Critical Habitat in the terrestrial realm, derived from global spatial datasets covering the distributions of 12 biodiversity features aligned with guidance provided by the IFC. Each biodiversity feature is categorised as 'likely' or 'potential' Critical Habitat based on: 1. Alignment between the biodiversity feature and the IFC Critical Habitat definition; and 2. Suitability of the spatial resolution for indicating a feature's presence on the ground. Following the initial screening process, Critical Habitat must then be assessed in-situ by a qualified assessor. This analysis indicates that a total of 10% and 5% of the global terrestrial environment can be considered as likely and potential Critical Habitat, respectively, while the remaining 85% did not overlap with any of the biodiversity features assessed and was classified as 'unknown'. Likely Critical Habitat was determined principally by the occurrence of Key Biodiversity Areas and Protected Areas. Potential Critical Habitat was predominantly characterised by data representing highly threatened and unique ecosystems such as ever-wet tropical forests and tropical dry forests. The areas we identified as likely or potential Critical Habitat are based on the best available global-scale data for the terrestrial realm that is aligned with IFC's Critical Habitat definition. Our results can help businesses screen potential development sites at the early project stage based on a range of biodiversity features. However, the study also demonstrates several important data gaps and highlights the need to incorporate new and improved global spatial datasets as they become available.

Published

2018

41. Harvesting fodder trees in montane forests in Kenya: species, techniques used and impacts.

Author

Cuni-Sanchez A, Pfeifer M, Marchant R, Pompeu PV, and Burgess ND

Abstract

There has been an increasing interest in fodder trees and their potential to help the rural poor. However, few studies have addressed the ecological impacts of fodder tree harvesting. We investigated the species harvested and the techniques used, and the effects of fodder harvesting on (1) species' populations and (2) forest carbon stocks in three montane forests in Kenya. Focus-group discussions were organized in 36 villages to determine which species were harvested and with which techniques. Field observations were made on vegetation plots: stem diameter, tree height, species and extent of harvest were recorded. Carbon stocks were calculated using an allometric equation with (1) observed height of harvested trees, and (2) potential height estimated with a power model, and results were compared. Eight tree species were commonly harvested for fodder using different techniques (some branches, main stem, most branches except stem apex). Fodder harvesting (together with other uses for some species) negatively affected one species populations ( Olea europaea ), it did not negatively affect four ( Drypetes gerrardii, Gymnosporia heterophylla, Pavetta gardeniifolia, Xymalos monospora ), and more information is needed for three species ( Olea capensis , Prunus africana, Rinorea convallarioides ). Fodder harvesting did not significantly reduce forest carbon stocks, suggesting that local communities could continue using these fodder trees if a carbon project is established. Among the fodder species studied, X. monospor a could be used in reforestation programs, as it has multiple uses and can withstand severe pruning. Although our study is only a snapshot, it is a baseline which can be used to monitor changes in fodder harvesting and its impacts related to increasing droughts in northern Kenya and increasing human populations.

Published

2018

42. Correction to: Quantifying and understanding carbon storage and sequestration within the Eastern Arc Mountains of Tanzania, a tropical biodiversity hotspot.

Author

Willcock S, Phillips OL, Platts PJ, Balmford A, Burgess ND, Lovett JC, Ahrends A, Bayliss J, Doggart N, Doody K, Fanning E, Green JMH, Hall J, Howell KL, Marchant R, Marshall AR, Mbilinyi B, Munishi PKT, Owen N, Swetnam RD, Topp-Jorgensen EJ, and Lewis SL

Abstract

Upon publication of the original article [1], the authors noticed that the figure labelling for Fig. 4 in the online version was processed wrong. The top left panel should be panel a, with the panels to its right being b and c. d and e should be the panels on the lower row, and f is correct. The graphs themselves are all correct. It is simply the letter labels that are wrong.

Published

2017

43. An Ecoregion-Based Approach to Protecting Half the Terrestrial Realm.

Author

Dinerstein E, Olson D, Joshi A, Vynne C, Burgess ND, Wikramanayake E, Hahn N, Palminteri S, Hedao P, Noss R, Hansen M, Locke H, Ellis EC, Jones B, Barber CV, Hayes R, Kormos C, Martin V, Crist E, Sechrest W, Price L, Baillie JEM, Weeden D, Suckling K, Davis C, Sizer N, Moore R, Thau D, Birch T, Potapov P, Turubanova S, Tyukavina A, de Souza N, Pintea L, Brito JC, Llewellyn OA, Miller AG, Patzelt A, Ghazanfar SA, Timberlake J, Klöser H, Shennan-Farpón Y, Kindt R, Lillesø JB, van Breugel P, Graudal L, Voge M, Al-Shammari KF, and Saleem M

Subjects

Climate, Ecology, Ecosystem, Humans, Biodiversity, Conservation of Natural Resources

Abstract

We assess progress toward the protection of 50% of the terrestrial biosphere to address the species-extinction crisis and conserve a global ecological heritage for future generations. Using a map of Earth's 846 terrestrial ecoregions, we show that 98 ecoregions (12%) exceed Half Protected; 313 ecoregions (37%) fall short of Half Protected but have sufficient unaltered habitat remaining to reach the target; and 207 ecoregions (24%) are in peril, where an average of only 4% of natural habitat remains. We propose a Global Deal for Nature-a companion to the Paris Climate Deal-to promote increased habitat protection and restoration, national- and ecoregion-scale conservation strategies, and the empowerment of indigenous peoples to protect their sovereign lands. The goal of such an accord would be to protect half the terrestrial realm by 2050 to halt the extinction crisis while sustaining human livelihoods.

Published

2017

44. Wildlife population trends in protected areas predicted by national socio-economic metrics and body size.

Author

Barnes MD, Craigie ID, Harrison LB, Geldmann J, Collen B, Whitmee S, Balmford A, Burgess ND, Brooks T, Hockings M, and Woodley S

Subjects

Animals, Biodiversity, Birds, Demography methods, Ecosystem, Mammals, Models, Biological, Animals, Wild, Conservation of Natural Resources methods, Demography trends, Time and Motion Studies

Abstract

Ensuring that protected areas (PAs) maintain the biodiversity within their boundaries is fundamental in achieving global conservation goals. Despite this objective, wildlife abundance changes in PAs are patchily documented and poorly understood. Here, we use linear mixed effect models to explore correlates of population change in 1,902 populations of birds and mammals from 447 PAs globally. On an average, we find PAs are maintaining populations of monitored birds and mammals within their boundaries. Wildlife population trends are more positive in PAs located in countries with higher development scores, and for larger-bodied species. These results suggest that active management can consistently overcome disadvantages of lower reproductive rates and more severe threats experienced by larger species of birds and mammals. The link between wildlife trends and national development shows that the social and economic conditions supporting PAs are critical for the successful maintenance of their wildlife populations.

Published

2016

45. Land cover change and carbon emissions over 100 years in an African biodiversity hotspot.

Author

Willcock S, Phillips OL, Platts PJ, Swetnam RD, Balmford A, Burgess ND, Ahrends A, Bayliss J, Doggart N, Doody K, Fanning E, Green JM, Hall J, Howell KL, Lovett JC, Marchant R, Marshall AR, Mbilinyi B, Munishi PK, Owen N, Topp-Jorgensen EJ, and Lewis SL

Subjects

Agriculture, Carbon adverse effects, Forests, Biodiversity, Carbon analysis, Conservation of Natural Resources

Abstract

Agricultural expansion has resulted in both land use and land cover change (LULCC) across the tropics. However, the spatial and temporal patterns of such change and their resulting impacts are poorly understood, particularly for the presatellite era. Here, we quantify the LULCC history across the 33.9 million ha watershed of Tanzania's Eastern Arc Mountains, using geo-referenced and digitized historical land cover maps (dated 1908, 1923, 1949 and 2000). Our time series from this biodiversity hotspot shows that forest and savanna area both declined, by 74% (2.8 million ha) and 10% (2.9 million ha), respectively, between 1908 and 2000. This vegetation was replaced by a fivefold increase in cropland, from 1.2 million ha to 6.7 million ha. This LULCC implies a committed release of 0.9 Pg C (95% CI: 0.4-1.5) across the watershed for the same period, equivalent to 0.3 Mg C ha(-1)  yr(-1) . This is at least threefold higher than previous estimates from global models for the same study area. We then used the LULCC data from before and after protected area creation, as well as from areas where no protection was established, to analyse the effectiveness of legal protection on land cover change despite the underlying spatial variation in protected areas. We found that, between 1949 and 2000, forest expanded within legally protected areas, resulting in carbon uptake of 4.8 (3.8-5.7) Mg C ha(-1) , compared to a committed loss of 11.9 (7.2-16.6) Mg C ha(-1) within areas lacking such protection. Furthermore, for nine protected areas where LULCC data are available prior to and following establishment, we show that protection reduces deforestation rates by 150% relative to unprotected portions of the watershed. Our results highlight that considerable LULCC occurred prior to the satellite era, thus other data sources are required to better understand long-term land cover trends in the tropics., (© 2016 John Wiley & Sons Ltd.)

Published

2016

46. Analysing biodiversity and conservation knowledge products to support regional environmental assessments.

Author

Brooks TM, Akçakaya HR, Burgess ND, Butchart SH, Hilton-Taylor C, Hoffmann M, Juffe-Bignoli D, Kingston N, MacSharry B, Parr M, Perianin L, Regan EC, Rodrigues AS, Rondinini C, Shennan-Farpon Y, and Young BE

Subjects

Amphibians, Animals, Birds, Ecosystem, Endangered Species, Mammals, Biodiversity, Conservation of Natural Resources

Abstract

Two processes for regional environmental assessment are currently underway: the Global Environment Outlook (GEO) and Intergovernmental Platform on Biodiversity and Ecosystem Services (IPBES). Both face constraints of data, time, capacity, and resources. To support these assessments, we disaggregate three global knowledge products according to their regions and subregions. These products are: The IUCN Red List of Threatened Species, Key Biodiversity Areas (specifically Important Bird &Biodiversity Areas [IBAs], and Alliance for Zero Extinction [AZE] sites), and Protected Planet. We present fourteen Data citations: numbers of species occurring and percentages threatened; numbers of endemics and percentages threatened; downscaled Red List Indices for mammals, birds, and amphibians; numbers, mean sizes, and percentage coverages of IBAs and AZE sites; percentage coverage of land and sea by protected areas; and trends in percentages of IBAs and AZE sites wholly covered by protected areas. These data will inform the regional/subregional assessment chapters on the status of biodiversity, drivers of its decline, and institutional responses, and greatly facilitate comparability and consistency between the different regional/subregional assessments.

Published

2016

47. Measuring impact of protected area management interventions: current and future use of the Global Database of Protected Area Management Effectiveness.

Author

Coad L, Leverington F, Knights K, Geldmann J, Eassom A, Kapos V, Kingston N, de Lima M, Zamora C, Cuardros I, Nolte C, Burgess ND, and Hockings M

Subjects

Animals, Biodiversity, Conservation of Natural Resources statistics & numerical data, Conservation of Natural Resources trends, Databases, Factual statistics & numerical data, Ecosystem, Conservation of Natural Resources methods

Abstract

Protected areas (PAs) are at the forefront of conservation efforts, and yet despite considerable progress towards the global target of having 17% of the world's land area within protected areas by 2020, biodiversity continues to decline. The discrepancy between increasing PA coverage and negative biodiversity trends has resulted in renewed efforts to enhance PA effectiveness. The global conservation community has conducted thousands of assessments of protected area management effectiveness (PAME), and interest in the use of these data to help measure the conservation impact of PA management interventions is high. Here, we summarize the status of PAME assessment, review the published evidence for a link between PAME assessment results and the conservation impacts of PAs, and discuss the limitations and future use of PAME data in measuring the impact of PA management interventions on conservation outcomes. We conclude that PAME data, while designed as a tool for local adaptive management, may also help to provide insights into the impact of PA management interventions from the local-to-global scale. However, the subjective and ordinal characteristics of the data present significant limitations for their application in rigorous scientific impact evaluations, a problem that should be recognized and mitigated where possible., (© 2015 The Authors.)

Published

2015

48. Impacts of Community-Based Natural Resource Management on Wealth, Food Security and Child Health in Tanzania.

Author

Pailler S, Naidoo R, Burgess ND, Freeman OE, and Fisher B

Subjects

Child, Child, Preschool, Demography, Forests, Geographic Information Systems, Geography, Health Surveys, Humans, Models, Theoretical, Outcome Assessment, Health Care, Sample Size, Tanzania, Time Factors, Child Health, Conservation of Natural Resources, Food Supply, Natural Resources, Residence Characteristics

Abstract

Community-based natural resource management (CBNRM) is a major global strategy for enhancing conservation outcomes while also seeking to improve rural livelihoods; however, little evidence of socioeconomic outcomes exists. We present a national-level analysis that empirically estimates socioeconomic impacts of CBNRM across Tanzania, while systematically controlling for potential sources of bias. Specifically, we apply a difference-in-differences model to national-scale, cross-sectional data to estimate the impact of three different CBNRM governance regimes on wealth, food security and child health, considering differential impacts of CBNRM on wealthy and poor populations. We also explore whether or not longer-standing CBNRM efforts provide more benefits than recently-established CBNRM areas. Our results show significant improvements in household food security in CBNRM areas compared with non-CBNRM areas, but household wealth and health outcomes in children are generally not significantly different. No one CBNRM governance regime demonstrates consistently different welfare outcomes than the others. Wealthy households benefit more from CBNRM than poor households and CBNRM benefits appear to increase with longer periods of implementation. Perhaps evidence of CBNRM benefits is limited because CBNRM hasn't been around long enough to yield demonstrable outcomes. Nonetheless, achieving demonstrable benefits to rural populations will be crucial for CBNRM's future success in Tanzania.

Published

2015

49. Using Social Media to Measure the Contribution of Red List Species to the Nature-Based Tourism Potential of African Protected Areas.

Author

Willemen L, Cottam AJ, Drakou EG, and Burgess ND

Subjects

Africa, Travel, Wilderness, Endangered Species, Refugium, Social Media

Abstract

Cultural ecosystem services are defined by people's perception of the environment, which make them hard to quantify systematically. Methods to describe cultural benefits from ecosystems typically include resource-demanding survey techniques, which are not suitable to assess cultural ecosystem services for large areas. In this paper we explore a method to quantify cultural benefits through the enjoyment of natured-based tourism, by assessing the potential tourism attractiveness of species for each protected area in Africa using the IUCN's Red List of Threatened Species. We use the number of pictures of wildlife posted on a photo sharing website as a proxy for charisma, popularity, and ease of observation, as these factors combined are assumed to determine how attractive species are for the global wildlife tourist. Based on photo counts of 2473 African animals and plants, species that seem most attractive to nature-based tourism are the Lion, African Elephant and Leopard. Combining the photo counts with species range data, African protected areas with the highest potential to attract wildlife tourists based on attractive species occurrence were Samburu National Reserve in Kenya, Mukogodo Forest Reserve located just north of Mount Kenya, and Addo Elephant National Park in South-Africa. The proposed method requires only three data sources which are freely accessible and available online, which could make the proposed index tractable for large scale quantitative ecosystem service assessments. The index directly links species presence to the tourism potential of protected areas, making the connection between nature and human benefits explicit, but excludes other important contributing factors for tourism, such as accessibility and safety. This social media based index provides a broad understanding of those species that are popular globally; in many cases these are not the species of highest conservation concern.

Published

2015

50. Mapping change in human pressure globally on land and within protected areas.

Author

Geldmann J, Joppa LN, and Burgess ND

Subjects

Biodiversity, Ecosystem, Electric Power Supplies, Human Activities, Humans, Population Density, Conservation of Natural Resources methods, Geographic Mapping

Abstract

It is widely accepted that the main driver of the observed decline in biological diversity is increasing human pressure on Earth's ecosystems. However, the spatial patterns of change in human pressure and their relation to conservation efforts are less well known. We developed a spatially and temporally explicit map of global change in human pressure over 2 decades between 1990 and 2010 at a resolution of 10 km(2) . We evaluated 22 spatial data sets representing different components of human pressure and used them to compile a temporal human pressure index (THPI) based on 3 data sets: human population density, land transformation, and electrical power infrastructure. We investigated how the THPI within protected areas was correlated to International Union for Conservation of Nature (IUCN) management categories and the human development index (HDI) and how the THPI was correlated to cumulative pressure on the basis of the original human footprint index. Since the early 1990s, human pressure increased 64% of the terrestrial areas; the largest increases were in Southeast Asia. Protected areas also exhibited overall increases in human pressure, the degree of which varied with location and IUCN management category. Only wilderness areas and natural monuments (management categories Ib and III) exhibited decreases in pressure. Protected areas not assigned any category exhibited the greatest increases. High HDI values correlated with greater reductions in pressure across protected areas, while increasing age of the protected area correlated with increases in pressure. Our analysis is an initial step toward mapping changes in human pressure on the natural world over time. That only 3 data sets could be included in our spatio-temporal global pressure map highlights the challenge to measuring pressure changes over time., (© 2014 Society for Conservation Biology.)

Published

2014