Your search keyword '"Juffe-Bignoli D"' showing total 13 results

1. Developing a framework to improve global estimates of conservation area coverage

Author

Sykes, R.E., O'Neill, H.M.K., Juffe-Bignoli, D., Metcalfe, K., Stephenson, P.J., Struebig, M.J., Visconti, P., Burgess, N.D., Kingston, N., Davies, Z.G., Smith, R.J., Sykes, R.E., O'Neill, H.M.K., Juffe-Bignoli, D., Metcalfe, K., Stephenson, P.J., Struebig, M.J., Visconti, P., Burgess, N.D., Kingston, N., Davies, Z.G., and Smith, R.J.

Abstract

Area-based conservation is a widely used approach for maintaining biodiversity, and there are ongoing discussions over what is an appropriate global conservation area coverage target. To inform such debates, it is necessary to know the extent and ecological representativeness of the current conservation area network, but this is hampered by gaps in existing global datasets. In particular, although data on privately and community-governed protected areas and other effective area-based conservation measures are often available at the national level, it can take many years to incorporate these into official datasets. This suggests a complementary approach is needed based on selecting a sample of countries and using their national-scale datasets to produce more accurate metrics. However, every country added to the sample increases the costs of data collection, collation and analysis. To address this, here we present a data collection framework underpinned by a spatial prioritization algorithm, which identifies a minimum set of countries that are also representative of 10 factors that influence conservation area establishment and biodiversity patterns. We then illustrate this approach by identifying a representative set of sampling units that cover 10% of the terrestrial realm, which included areas in only 25 countries. In contrast, selecting 10% of the terrestrial realm at random included areas across a mean of 162 countries. These sampling units could be the focus of future data collation on different types of conservation area. Analysing these data could produce more rapid and accurate estimates of global conservation area coverage and ecological representativeness, complementing existing international reporting systems.

Published

2023

2. Maintaining a Global Data Set on Protected Areas

Author

Milam, A., primary, Kenney, S., additional, Juffe-Bignoli, D., additional, Bertzky, B., additional, Corrigan, C., additional, MacSharry, B., additional, Burgess, N. D., additional, and Kingston, N., additional

Published

2016

3. Ecosystem indices to support global biodiversity conservation

Author

Rowland, JA, Bland, LM, Keith, DA, Juffe-Bignoli, D, Burgman, MA, Etter, A, Ferrer-Paris, JR, Miller, RM, Skowno, AL, Nicholson, E, Rowland, JA, Bland, LM, Keith, DA, Juffe-Bignoli, D, Burgman, MA, Etter, A, Ferrer-Paris, JR, Miller, RM, Skowno, AL, and Nicholson, E

Abstract

Governments have committed to global targets to slow biodiversity loss and sustain ecosystem services. Biodiversity state indicators that measure progress toward these targets mostly focus on species, while indicators synthesizing ecosystem change are largely lacking. We fill this gap with three indices quantifying past and projected changes in ecosystems using data from the International Union for Conservation of Nature (IUCN) Red List of Ecosystems. Our indices quantify changes in risk of ecosystem collapse, ecosystem area and ecological processes, and capture variation in underlying patterns among ecosystems. We apply the indices to three case studies of regional and national assessments (American/Caribbean forests, terrestrial ecosystems of Colombia, and terrestrial ecosystems of South Africa) to illustrate the indices’ complementarity and versatility in revealing patterns of interest for users across sectors. Our indices have the potential to fill the recognized need for ecosystem indicators to inform conservation targets, guide policy, and prioritize management actions.

Published

2019

4. Quantifying the relative irreplaceability of important bird and biodiversity areas

Author

Di Marco, M., Brooks, T., Cuttelod, A., Fishpool, L.D.C., Rondinini, C., Smith, R.J., Bennun, L., Butchart, S.H.M., Ferrier, S., Foppen, R.P.B., Joppa, L., Juffe-Bignoli, D., Knight, A.T., Lamoreux, J.F., Langhammer, P.F., May, I., Possingham, H.P., Visconti, P., Watson, J.E.M., and Woodley, S.

Subjects

Animal Ecology and Physiology

Abstract

Contains fulltext : 163410.pdf (Publisher’s version ) (Closed access)

Published

2016

5. Blueprints of Effective Biodiversity and Conservation Knowledge Products That Support Marine Policy

Author

Weatherdon, LV, Appeltans, W, Bowles-Newark, N, Brooks, TM, Davis, FE, Despot-Belmonte, K, Fletcher, S, Garilao, C, Hilton-Taylor, C, Hirsch, T, Juffe-Bignoli, D, Kaschner, K, Kingston, N, Malsch, K, Regan, EC, Kesner-Reyes, K, Rose, DC, Wetzel, FT, Wilkinson, T, and Martin, CS

Subjects

knowledge products, 13. Climate action, marine policy, knowledge exchange, evidence-based conservation, 14. Life underwater, 15. Life on land, biodiversity informatics, science-policy interface

Abstract

Biodiversity and conservation data are generally costly to collect, particularly in the marine realm. Hence, data collected for a given—often scientific—purpose are occasionally contributed toward secondary needs, such as policy implementation or other types of decision-making. However, while the quality and accessibility of marine biodiversity and conservation data have improved over the past decade, the ways in which these data can be used to develop and implement relevant management and conservation measures and actions are not always explicit. For this reason, there are a number of scientifically-sound datasets that are not used systematically to inform policy and decisions. Transforming these marine biodiversity and conservation datasets into knowledge products that convey the information required by policy- and decision-makers is an important step in strengthening knowledge exchange across the science-policy interface. Here, we identify seven characteristics of a selection of online biodiversity and conservation knowledge products that contribute to their ability to support policy- and decision-making in the marine realm (as measured by e.g., mentions in policy resolutions/decisions, or use for reporting under selected policy instruments; use in high-level screening for areas of biodiversity importance). These characteristics include: a clear policy mandate; established networks of collaborators; iterative co-design of a user-friendly interface; standardized, comprehensive and documented methods with quality assurance; consistent capacity and succession planning; accessible data and value-added products that are fit-for-purpose; and metrics of use collated and reported. The outcomes of this review are intended to: (a) support data creators/owners/providers in designing and curating biodiversity and conservation knowledge products that have greater influence, and hence impact, in policy- and decision-making, and (b) provide recommendations for how decision- and policy-makers can support the development, implementation, and sustainability of robust biodiversity and conservation knowledge products through the framing of marine policy and decision-making frameworks.

6. The environmental impacts of palm oil in context.

Author

Meijaard E, Brooks TM, Carlson KM, Slade EM, Garcia-Ulloa J, Gaveau DLA, Lee JSH, Santika T, Juffe-Bignoli D, Struebig MJ, Wich SA, Ancrenaz M, Koh LP, Zamira N, Abrams JF, Prins HHT, Sendashonga CN, Murdiyarso D, Furumo PR, Macfarlane N, Hoffmann R, Persio M, Descals A, Szantoi Z, and Sheil D

Subjects

Agriculture statistics & numerical data, Forecasting, Agriculture trends, Arecaceae growth & development, Biodiversity, Conservation of Natural Resources trends, Crops, Agricultural growth & development, Palm Oil, Sustainable Growth

Abstract

Delivering the Sustainable Development Goals (SDGs) requires balancing demands on land between agriculture (SDG 2) and biodiversity (SDG 15). The production of vegetable oils and, in particular, palm oil, illustrates these competing demands and trade-offs. Palm oil accounts for ~40% of the current global annual demand for vegetable oil as food, animal feed and fuel (210 Mt), but planted oil palm covers less than 5-5.5% of the total global oil crop area (approximately 425 Mha) due to oil palm's relatively high yields. Recent oil palm expansion in forested regions of Borneo, Sumatra and the Malay Peninsula, where >90% of global palm oil is produced, has led to substantial concern around oil palm's role in deforestation. Oil palm expansion's direct contribution to regional tropical deforestation varies widely, ranging from an estimated 3% in West Africa to 50% in Malaysian Borneo. Oil palm is also implicated in peatland draining and burning in Southeast Asia. Documented negative environmental impacts from such expansion include biodiversity declines, greenhouse gas emissions and air pollution. However, oil palm generally produces more oil per area than other oil crops, is often economically viable in sites unsuitable for most other crops and generates considerable wealth for at least some actors. Global demand for vegetable oils is projected to increase by 46% by 2050. Meeting this demand through additional expansion of oil palm versus other vegetable oil crops will lead to substantial differential effects on biodiversity, food security, climate change, land degradation and livelihoods. Our Review highlights that although substantial gaps remain in our understanding of the relationship between the environmental, socio-cultural and economic impacts of oil palm, and the scope, stringency and effectiveness of initiatives to address these, there has been little research into the impacts and trade-offs of other vegetable oil crops. Greater research attention needs to be given to investigating the impacts of palm oil production compared to alternatives for the trade-offs to be assessed at a global scale.

Published

2020

7. Coconut oil, conservation and the conscientious consumer.

Author

Meijaard E, Abrams JF, Juffe-Bignoli D, Voigt M, and Sheil D

Published

2020

8. 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

9. 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

10. Measuring the extent of overlaps in protected area designations.

Author

Deguignet M, Arnell A, Juffe-Bignoli D, Shi Y, Bingham H, MacSharry B, and Kingston N

Subjects

Argentina, Geography, Internationality, Spain, Statistics as Topic, Conservation of Natural Resources, Ecosystem

Abstract

Over the past decades, a number of national policies and international conventions have been implemented to promote the expansion of the world's protected area network, leading to a diversification of protected area strategies, types and designations. As a result, many areas are protected by more than one convention, legal instrument, or other effective means which may result in a lack of clarity around the governance and management regimes of particular locations. We assess the degree to which different designations overlap at global, regional and national levels to understand the extent of this phenomenon at different scales. We then compare the distribution and coverage of these multi-designated areas in the terrestrial and marine realms at the global level and among different regions, and we present the percentage of each county's protected area extent that is under more than one designation. Our findings show that almost a quarter of the world's protected area network is protected through more than one designation. In fact, we have documented up to eight overlapping designations. These overlaps in protected area designations occur in every region of the world, both in the terrestrial and marine realms, but are more common in the terrestrial realm and in some regions, notably Europe. In the terrestrial realm, the most common overlap is between one national and one international designation. In the marine realm, the most common overlap is between any two national designations. Multi-designations are therefore a widespread phenomenon but its implications are not well understood. This analysis identifies, for the first time, multi-designated areas across all designation types. This is a key step to understand how these areas are managed and governed to then move towards integrated and collaborative approaches that consider the different management and conservation objectives of each designation.

Published

2017

11. Assessing the Cost of Global Biodiversity and Conservation Knowledge.

Author

Juffe-Bignoli D, Brooks TM, Butchart SH, Jenkins RB, Boe K, Hoffmann M, Angulo A, Bachman S, Böhm M, Brummitt N, Carpenter KE, Comer PJ, Cox N, Cuttelod A, Darwall WR, Di Marco M, Fishpool LD, Goettsch B, Heath M, Hilton-Taylor C, Hutton J, Johnson T, Joolia A, Keith DA, Langhammer PF, Luedtke J, Nic Lughadha E, Lutz M, May I, Miller RM, Oliveira-Miranda MA, Parr M, Pollock CM, Ralph G, Rodríguez JP, Rondinini C, Smart J, Stuart S, Symes A, Tordoff AW, Woodley S, Young B, and Kingston N

Subjects

Databases, Factual, Biodiversity, Conservation of Natural Resources economics, Costs and Cost Analysis, Internationality

Abstract

Knowledge products comprise assessments of authoritative information supported by standards, governance, quality control, data, tools, and capacity building mechanisms. Considerable resources are dedicated to developing and maintaining knowledge products for biodiversity conservation, and they are widely used to inform policy and advise decision makers and practitioners. However, the financial cost of delivering this information is largely undocumented. We evaluated the costs and funding sources for developing and maintaining four global biodiversity and conservation knowledge products: The IUCN Red List of Threatened Species, the IUCN Red List of Ecosystems, Protected Planet, and the World Database of Key Biodiversity Areas. These are secondary data sets, built on primary data collected by extensive networks of expert contributors worldwide. We estimate that US$160 million (range: US$116-204 million), plus 293 person-years of volunteer time (range: 278-308 person-years) valued at US$ 14 million (range US$12-16 million), were invested in these four knowledge products between 1979 and 2013. More than half of this financing was provided through philanthropy, and nearly three-quarters was spent on personnel costs. The estimated annual cost of maintaining data and platforms for three of these knowledge products (excluding the IUCN Red List of Ecosystems for which annual costs were not possible to estimate for 2013) is US$6.5 million in total (range: US$6.2-6.7 million). We estimated that an additional US$114 million will be needed to reach pre-defined baselines of data coverage for all the four knowledge products, and that once achieved, annual maintenance costs will be approximately US$12 million. These costs are much lower than those to maintain many other, similarly important, global knowledge products. Ensuring that biodiversity and conservation knowledge products are sufficiently up to date, comprehensive and accurate is fundamental to inform decision-making for biodiversity conservation and sustainable development. Thus, the development and implementation of plans for sustainable long-term financing for them is critical.

Published

2016

12. Quantifying the relative irreplaceability of important bird and biodiversity areas.

Author

Di Marco M, Brooks T, Cuttelod A, Fishpool LD, Rondinini C, Smith RJ, Bennun L, Butchart SH, Ferrier S, Foppen RP, Joppa L, Juffe-Bignoli D, Knight AT, Lamoreux JF, Langhammer PF, May I, Possingham HP, Visconti P, Watson JE, and Woodley S

Subjects

Africa, Southern, Animal Distribution, Animals, Australia, Europe, Biodiversity, Birds physiology, Conservation of Natural Resources methods, Ecosystem

Abstract

World governments have committed to increase the global protected areas coverage by 2020, but the effectiveness of this commitment for protecting biodiversity depends on where new protected areas are located. Threshold- and complementarity-based approaches have been independently used to identify important sites for biodiversity. We brought together these approaches by performing a complementarity-based analysis of irreplaceability in important bird and biodiversity areas (IBAs), which are sites identified using a threshold-based approach. We determined whether irreplaceability values are higher inside than outside IBAs and whether any observed difference depends on known characteristics of the IBAs. We focused on 3 regions with comprehensive IBA inventories and bird distribution atlases: Australia, southern Africa, and Europe. Irreplaceability values were significantly higher inside than outside IBAs, although differences were much smaller in Europe than elsewhere. Higher irreplaceability values in IBAs were associated with the presence and number of restricted-range species; number of criteria under which the site was identified; and mean geographic range size of the species for which the site was identified (trigger species). In addition, IBAs were characterized by higher irreplaceability values when using proportional species representation targets, rather than fixed targets. There were broadly comparable results when measuring irreplaceability for trigger species and when considering all bird species, which indicates a good surrogacy effect of the former. Recently, the International Union for Conservation of Nature has convened a consultation to consolidate global standards for the identification of key biodiversity areas (KBAs), building from existing approaches such as IBAs. Our results informed this consultation, and in particular a proposed irreplaceability criterion that will allow the new KBA standard to draw on the strengths of both threshold- and complementarity-based approaches., (© 2015 Society for Conservation Biology.)

Published

2016

13. 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