Your search keyword '"Sofía López-Cubillos"' showing total 12 results

1. Optimal restoration for pollination services increases forest cover while doubling agricultural profits.

Author

Sofía López-Cubillos, Eve McDonald-Madden, Margaret M Mayfield, and Rebecca K Runting

Subjects

Biology (General), QH301-705.5

Abstract

Pollinators are currently facing dramatic declines in abundance and richness across the globe. This can have profound impacts on agriculture, as 75% of globally common food crops benefit from pollination services. As many native bee species require natural areas for nesting, restoration efforts within croplands may be beneficial to support pollinators and enhance agricultural yields. Yet, restoration can be challenging to implement due to large upfront costs and the removal of land from production. Designing sustainable landscapes will require planning approaches that include the complex spatiotemporal dynamics of pollination services flowing from (restored) vegetation into crops. We present a novel planning framework to determine the best spatial arrangement for restoration in agricultural landscapes while accounting for yield improvements over 40 years following restoration. We explored a range of production and conservation goals using a coffee production landscape in Costa Rica as a case study. Our results show that strategic restoration can increase forest cover by approximately 20% while doubling collective landholder profits over 40 years, even when accounting for land taken out of production. We show that restoration can provide immense economic benefits in the long run, which may be pivotal to motivating local landholders to undertake conservation endeavours in pollinator-dependent croplands.

Published

2023

2. The landmark Escazú Agreement: An opportunity to integrate democracy, human rights, and transboundary conservation

Author

Sofía López‐Cubillos, Lina Muñoz‐Ávila, Leslie A. Roberson, Andrés F. Suárez‐Castro, Jose Manuel Ochoa‐Quintero, Renato Crouzeilles, Eduardo Gallo‐Cajiao, Jonathan Rhodes, Wolfram Dressler, María José Martinez‐Harms, and Rebecca K. Runting

Subjects

access to information, big data, capacity building, cooperation, environmental defenders, environmental legislation, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Abstract Latin America and the Caribbean (LAC) is one of the world's most biodiverse regions, but this diversity is threatened by the overexploitation of natural resources and internal social conflicts. In 2018, 33 LAC countries were invited to sign and ratify the landmark Escazú Agreement, which is the first legally binding environmental agreement to explicitly integrate human rights with environmental matters. The agreement outlines an approach to enhance the protection of environmental defenders, increase public participation in environmental decision‐making, and foster cooperation among countries for biodiversity conservation. However, clear mechanisms to implement the ideals of the Agreement are currently lacking. We identify the key provisions of the Agreement and link these to tangible mechanisms which aim to integrate human rights and nature conservation. These mechanisms include technological (e.g., free online data), human‐based (e.g., legal advice from multidisciplinary teams), and nature‐based solutions (e.g., transboundary species management). As environmental assets––and threats to them––span national boundaries, the collaborative and participatory provisions of the agreement could catalyze coordinated transboundary environmental management. Because of the importance of this Agreement for the LAC region, we added a Spanish version of this manuscript in the Supplementary Material (versión del artículo en español en el material suplementario).

Published

2022

3. Catalytic potential of pollination services to reconcile conservation and agricultural production: a spatial optimization framework

Author

Sofía López-Cubillos, Rebecca K Runting, Margaret M Mayfield, and Eve Mcdonald-Madden

Subjects

pollinators, crop yields, agricultural landscapes, spatial optimization, small landholders, trade-offs, Environmental technology. Sanitary engineering, TD1-1066, Environmental sciences, GE1-350, Science, Physics, QC1-999

Abstract

With a global pollinator crisis brewing, it is urgent that we preserve forests supporting wild bees and the services they provide, even in context where agricultural expansion is unavoidable. Though the maintenance of pollination services are known to be synergistic with biodiversity conservation and agricultural economic development, there are few decision support tools that explicitly show how to balance these competing objectives. We developed a novel, spatially explicit method that includes pollination supply, flow, demand, and benefits into an agricultural expansion context to improve land use decisions for agricultural outcomes that minimize environmental impacts. We provide the first study showing the trade-offs between yields and forest retention that uses all the components of pollination services across five planning scenarios (i.e. (a) baseline, (b) absence of pollinators, (c) pollinators present, (d) pollination and non-aggregated forest, (e) pollination and aggregated forest) using data on coffee from Costa Rica. The scenario that showed the highest trade-offs was when pollination services are considered unimportant, which led to a decrease on average yields (∼−23% compared to baseline), whilst also decimating remaining forest (−100% compared to baseline). Better forest retention was achieved in a scenario where pollination services were considered and more forest aggregation was required. In this case, total production incremented by ∼29% while ∼74% of forest patches were preserved. The flexibility of our framework allows adaptation to any crop that benefit from pollination services in different landscape contexts.

Published

2021

4. Beyond ecology: ecosystem restoration as a process for social-ecological transformation

Author

Anazélia M. Tedesco, Sofía López-Cubillos, Robin Chazdon, Jonathan R. Rhodes, Carla L. Archibald, Katharina-Victoria Pérez-Hämmerle, Pedro H.S. Brancalion, Kerrie A. Wilson, Mariana Oliveira, Diego F. Correa, Liz Ota, Tiffany H. Morrison, Hugh P. Possingham, Morena Mills, Fabiane C. Santos, and Angela J. Dean

Subjects

Ecology, Evolution, Behavior and Systematics

Published

2023

5. The landmark Escazú Agreement: An opportunity to integrate democracy, human rights, and transboundary conservation

Author

Andrés F. Suárez-Castro, Maria Jose Martinez-Harms, Wolfram Dressler, Eduardo Gallo-Cajiao, Rebecca K. Runting, Leslie A. Roberson, Sofía López-Cubillos, Lina Marcela Muñoz-Ávila, Renato Crouzeilles, Jose Manuel Ochoa-Quintero, and Jonathan R. Rhodes

Subjects

Ecology, Human rights, Corporate governance, media_common.quotation_subject, access to information, capacity building, environmental defenders, Capacity building, cooperation, General. Including nature conservation, geographical distribution, Public administration, QH1-199.5, Natural resource, Democracy, big data, Public participation, Political science, Sustainability, Social conflict, environmental legislation, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation, media_common

Abstract

Latin America and the Caribbean (LAC) is one of the world's most biodiverse regions, but this diversity is threatened by the overexploitation of natural resources and internal social conflicts. In 2018, 33 LAC countries were invited to sign and ratify the landmark Escazú Agreement, which is the first legally binding environmental agreement to explicitly integrate human rights with environmental matters. The agreement outlines an approach to enhance the protection of environmental defenders, increase public participation in environmental decision‐making, and foster cooperation among countries for biodiversity conservation. However, clear mechanisms to implement the ideals of the Agreement are currently lacking. We identify the key provisions of the Agreement and link these to tangible mechanisms which aim to integrate human rights and nature conservation. These mechanisms include technological (e.g., free online data), human‐based (e.g., legal advice from multidisciplinary teams), and nature‐based solutions (e.g., transboundary species management). As environmental assets––and threats to them––span national boundaries, the collaborative and participatory provisions of the agreement could catalyze coordinated transboundary environmental management. Because of the importance of this Agreement for the LAC region, we added a Spanish version of this manuscript in the Supplementary Material (versión del artículo en español en el material suplementario).

Published

2022

6. Considering landscape-level processes in ecosystem service assessments

Author

Andrés F. Suárez-Castro, Jaramar Villarreal-Rosas, Sofía López-Cubillos, Jean Paul Metzger, Adrian González-Chaves, Rebecca K. Runting, Jonathan R. Rhodes, and Camila Hohlenwerger

Subjects

0106 biological sciences, BIODIVERSIDADE, Conservation of Natural Resources, Environmental Engineering, 010504 meteorology & atmospheric sciences, Ecology (disciplines), 010603 evolutionary biology, 01 natural sciences, Ecosystem services, Supply and demand, Market fragmentation, Type of service, Landscape level, Environmental Chemistry, Ecosystem, Waste Management and Disposal, 0105 earth and related environmental sciences, business.industry, Environmental resource management, 15. Life on land, Pollution, ComputingMilieux_GENERAL, Conceptual framework, 13. Climate action, business

Abstract

The provision of ecosystem services is inherently spatial. Landscape structure affects service provision through multiple landscape-level processes, such as fragmentation, edge and connectivity effects. These processes can affect areas of ecosystem service supply and demand, and the flows linking those areas. Despite the emergence of sophisticated spatial ecosystem service assessments in the last two decades, we show through a literature review that landscape-level processes are still rarely considered in a comprehensive way. Even when they are considered, landscape effects are mostly limited to landscape composition, and configuration effects are underrepresented. Furthermore, most studies infer ecosystem service provision by only evaluating supply, ignoring demand and flows. Here we present a simple conceptual framework that illustrates how to incorporate landscape-level processes in the assessment of the different components of the service provision chain (supply, demand and flows). Using simulations, we evaluated how estimations of ecosystem service provision change when considering different landscape processes and discussed the implications of disregarding landscape effects. However, to fully implement the framework, a series of challenges linked to mapping and quantifying supply and demand, defining adequate scales of analysis, measuring flows, and parameterizing models for different types of services, still need to be overcome. To promote an adequate use and management of ecosystem services, it is essential to better incorporate landscape processes in ecosystem service assessments. This will lead to more quantitatively accurate and spatially precise estimates.

Published

2021

7. Advancing Systematic Conservation Planning for Ecosystem Services

Author

Marie C. Dade, Laura J. Sonter, Rebecca K. Runting, Jonathan R. Rhodes, Sofía López-Cubillos, Hugh P. Possingham, and Jaramar Villarreal-Rosas

Subjects

0106 biological sciences, Decision support system, Conservation of Natural Resources, 010504 meteorology & atmospheric sciences, Process (engineering), Decision theory, 15. Life on land, 010603 evolutionary biology, 01 natural sciences, Ecosystem services, Adaptive management, Conceptual framework, 13. Climate action, Sustainable management, Humans, Business, Environmental planning, Ecology, Evolution, Behavior and Systematics, Spatial planning, Ecosystem, 0105 earth and related environmental sciences

Abstract

Conservation and sustainable management activities are critical for enhancing ecosystem services. Systematic conservation planning (SCP) is a spatial decision support process used to identify the most cost-effective places for intervention and is increasingly incorporating ecosystem services thinking. Yet, there is no clear guidance on how to incorporate ecosystem service components (i.e., supply, demand, and flow) for multiple beneficiaries into the decision problem underpinning SCP. As such, conservation plans may fall short of maximizing benefits for both people and nature. We propose a benefit-based approach to integrate ecosystem service components into SCP that uses the principles of decision theory. Our approach will improve the likelihood that ecosystem service benefits are enhanced in spatial planning applications.

Published

2020

8. Catalytic potential of pollination services to reconcile conservation and agricultural production: a spatial optimization framework

Author

Rebecca K. Runting, Margaret M. Mayfield, Eve McDonald-Madden, and Sofía López-Cubillos

Subjects

Geography, Pollination, Spatial optimization, Renewable Energy, Sustainability and the Environment, Natural resource economics, Public Health, Environmental and Occupational Health, Agricultural productivity, General Environmental Science

Abstract

Abstract With a global pollinator crisis brewing, it is urgent that we preserve forests supporting wild bees and the services they provide, even in context where agricultural expansion is unavoidable. Though the maintenance of pollination services are known to be synergistic with biodiversity conservation and agricultural economic development, there are few decision support tools that explicitly show how to balance these competing objectives. We developed a novel, spatially explicit method that includes pollination supply, flow, demand, and benefits into an agricultural expansion context to improve land use decisions for agricultural outcomes that minimize environmental impacts. We provide the first study showing the trade-offs between yields and forest retention that uses all the components of pollination services across five planning scenarios (i.e. (a) baseline, (b) absence of pollinators, (c) pollinators present, (d) pollination and non-aggregated forest, (e) pollination and aggregated forest) using data on coffee from Costa Rica. The scenario that showed the highest trade-offs was when pollination services are considered unimportant, which led to a decrease on average yields (∼−23% compared to baseline), whilst also decimating remaining forest (−100% compared to baseline). Better forest retention was achieved in a scenario where pollination services were considered and more forest aggregation was required. In this case, total production incremented by ∼29% while ∼74% of forest patches were preserved. The flexibility of our framework allows adaptation to any crop that benefit from pollination services in different landscape contexts.

Published

2021

9. Collaboration across boundaries in the Amazon

Author

Da-Li Lin, April E. Reside, Javier Cortes-Ramirez, Noam Levin, Paula Ribeiro Prist, Thomas J. Lloyd, Isabella Oliveira-Bevan, Romi Castagnino, Sofía López-Cubillos, M D P Costa, Nathalie Butt, Jonathan R. Rhodes, B. Alexander Simmons, Jean Paul Metzger, Helen Mayfield, A. Felipe Suárez-Castro, Salit Kark, Pablo Jose Negret, and Kaline de Mello

Subjects

Multidisciplinary, Geography, Amazon rainforest, MEDLINE, Library science, Social Behavior, Brazil, Fires

Published

2019

10. Effects of elevated carbon dioxide (CO2) on flowering traits of three horticultural plant species

Author

Lesley Hughes and Sofía López-Cubillos

Subjects

0106 biological sciences, Sucrose, biology, Biomass, Plant Science, biology.organism_classification, medicine.disease_cause, 010603 evolutionary biology, 01 natural sciences, Lycopersicon, chemistry.chemical_compound, Cucurbita pepo, Agronomy, chemistry, Pollinator, Pollen, Carbon dioxide, Pepper, medicine, Agronomy and Crop Science, 010606 plant biology & botany

Abstract

Carbon dioxide (CO) has been increasing homogeneously worldwide since industrial revolution. Current CO concentrations are around 400 ppm, which may increase over this century to 430 ppm (best scenario) to > 1000 ppm (worst scenario) (IPCC, 2013). Species-level responses of plant traits to elevated carbon dioxide (eCO), especially those that affect interactions with pollinators, could potentially have flow-on effects to both ecological communities and horticultural industries. The impacts of eCO on flowering traits in pepper (Capsicum annuum - Giant Bell), tomato (Lycopersicon lycopersicum- var. Tomato Roma) and zucchini (Cucurbita pepo - Zucchini Blackjack), all economically important horticultural species, were investigated. Twenty plants of each species were grown under two treatments: 1) two glasshouses with ambient CO (400 ppm), and 2) two with eCO (555 ppm). For both treatments, we measured the number of flowers, flower longevity and dry biomass for all species; pollen diameter and number of pollen grains for tomato and zucchini and the sucrose concentration and nectar production in zucchini. Elevated CO had few significant effects on the measured traits, the main exceptions being in zucchini, which produced more male flowers, fewer pollen grains per plant and fewer female flowers under this treatment. Pepper also produced fewer flowers at eCO while tomato was the least sensitive species. Future studies could be aimed at testing sensitivity of different varieties of these important commercial species to eCO.

Published

2016

11. Colombia short on political will to protect pollinators

Author

Sofía López-Cubillos, Duan Biggs, Guiomar Nates-Parra, Eve McDonald-Madden, Rebecca K. Runting, Catalina Gutierrez-Chacón, and Felipe Suárez-Castro

Subjects

Politics, Multidisciplinary, Pollinator, Ecology, Ecology (disciplines), Gastrointestinal Microbiome, Biology

Published

2019

12. A mandible arresting system in neotropical social wasps (Vespidae; Polistinae): structural diversity within homogeneous functionality

Author

Carlos E. Sarmiento and Sofía López-Cubillos

Subjects

Tropical Climate, biology, Vespidae, Mandible (insect mouthpart), Wasps, Animal Structures, Structural diversity, General Medicine, Anatomy, biology.organism_classification, Apoica albimacula, Scoliidae, Species Specificity, Nest, Homogeneous, Polistinae, Animals, Ecology, Evolution, Behavior and Systematics

Abstract

Microtrichia are epidermal protuberances that may serve as temporary adhesive devices. Several insects possess these structures; however, they have not previously been reported in social wasps. With scanning electron microscopy, we characterize the shape and abundance of microtrichia in ten species of social wasps (Vespidae: Polistinae) and three species of related taxa (Vespidae: Eumeninae, Pompilidae, and Scoliidae). Semi-thin sections of the head of Leipomeles spilogastra and Apoica albimacula were also studied. We found microtrichia on a thin, flexible membrane connected to the mandible in all the Vespidae specimens. The flexible membrane can be divided into three regions: the basal region that covers the mandibular mesial emargination, the medial region located around the height of the mandibular condyles, and the distal region that appears anterior to the apodeme folding. Basal and distal regions of the membrane are extensively covered by microtrichia while the medial region has either less microtrichia or is entirely devoid of them. The shape and density of the microtrichia differed between species, and these traits are unrelated with nest material construction or phylogenetic closeness. We propose that the microtrichial membrane described is a passive mechanism to keep the wasps' mandibles retracted through a mechanical interlocking system. It is possible that this energy-saving mechanism is present in other mandibulate insects.

Published

2013