SOLUCIONES BASADAS EN LA NATURALEZA: UN ANÁLISIS BIBLIOMÉTRICO DE TENDENCIAS PASADAS, PRESENTES Y FUTURAS

Miguel Angel  Quevedo Beltrán; Diego A. Sotomayor

doi:10.21704/rea.v22i2.2095

Autores/as

Miguel Angel Quevedo Beltrán Universidad Nacional Agraria La Molina (UNALM). Departamento Académico de Ingeniería Ambiental. Lima, Perú. https://orcid.org/0000-0001-9067-5623
Diego A. Sotomayor Universidad Nacional Agraria La Molina (UNALM). Departamento Académico de Ingeniería Ambiental. Lima, Perú. https://orcid.org/0000-0003-0534-5625

DOI:

https://doi.org/10.21704/rea.v22i2.2095

Palabras clave:

soluciones basadas en la naturaleza, infraestructura verde, infraestructura azul, ingeniería ecológica, adaptación basada en ecosistemas, mitigación basada en ecosistemas, bibliometría

Resumen

Las soluciones basadas en la naturaleza (SbN) son un tema de investigación que últimamente está adquiriendo mayor interés debido a sus iniciativas internacionales. Aquí, desarrollamos un análisis bibliométrico utilizando software de código abierto para comprender mejor las tendencias temáticas dentro de la producción de investigación internacional. Se buscó en la literatura utilizando la base de datos Scopus desde 2016 (año de definición oficial de SbN por parte de la Unión Internacional para la Conservación de la Naturaleza), hasta 2023 y se encontraron 293 documentos que comprenden artículos, capítulos de libros, reseñas, ponencias de congresos y notas científicas, entre otros. El proceso de revisión de documentos se realizó mediante el uso de un software de código abierto para obtener tendencias y gráficos de mapeo científico. Se analizó la producción científica relacionada con autores, palabras clave, instituciones y países para descubrir las tendencias en el área de investigación de SbN. Los hallazgos indicaron que entre 2016 y 2023, la investigación de SbN tuvo una tasa de aumento anual del 777.2 %, un promedio de 11.43 citas por documento y una tasa de colaboración internacional del 43.69 %. El cambio climático, los servicios ecosistémicos y la biodiversidad fueron temas amplios y transversales, mientras que otros temas, como la gestión del agua, el uso de la tierra y la participación de las partes interesadas, evolucionaron para volverse más especializados e integradores de nuevos enfoques y métodos, junto con estos temas transversales. Finalmente, las posibles brechas o direcciones podrían cubrirse con el uso de nuevas tecnologías como la inteligencia artificial y la evolución en temas específicos como la seguridad hídrica y los peligros hidrometeorológicos de maneras más integradoras.

Descargas

Los datos de descarga aún no están disponibles.

Referencias

Acosta E.A., Cho S.-J., Klemz C., Reapple J., Barreto S., Ciasca B.S., León J., Rogéliz-Prada C.A. & Bracale H. 2023. Biophysical Benefits Simulation Modeling Framework for Investments in Nature-Based Solutions in São Paulo, Brazil. Water Supply System. Water, 15(4): 681. DOI: 10.3390/w15040681.

Akoumianaki I. & Pakeman R. 2023. Scoping review: what is the state of knowledge on the role of biodiversity in the design, delivery and benefits of Nature-Based Solutions? Biodiversa+: The European Biodiversity Partnership. The James Hutton Institute & The European Union. https://www.biodiversa.eu/wp-content/uploads/2023/05/D4.2-Desk-study-NBS.pdf.

Anderson V. & Gough W.A. 2022. A Typology of Nature- Based Solutions for Sustainable Development: An Analysis of Form, Function, Nomenclature, and Associated Applications. Land, 11(7): 1072. DOI: 10.3390/land11071072.

Aria M. & Cuccurullo C. 2017. Bibliometrix: An R-tool for comprehensive science mapping analysis. Journal of Informetrics, 11(4): 959-975. DOI: 10.1016/j.joi.2017.08.007.

Ascenso A., Gama C., Roebeling P. & Miranda A.I. 2021. How effective are Nature-based Solutions in different Environments? In: Casares-Long J.J., Longhurst J. & Barnes J. (Eds) 29th International Conference on Modelling, Monitoring and Management of Air Pollution (2021). WIT Transactions on Ecology and the Environment, Vol 252: Air Pollution XXIX: 3-14. DOI: 10.2495/AIR210011.

Baihao L., Cunkuan Z. & Hua L. 2018. Study on the development trend and practice of sponge cities with Chinese Characteristics. 3rd International Conference on Energy Equipment Science and Engineering (ICEESE 2017). IOP Conference Series: Earth and Environmental. Science. Vol (128) 012134. DOI: 10.1088/1755- 1315/128/1/012134.

Biswas A.K. & Hartley K. 2017. China’s ‘Sponge Cities’ Aim to Re-Use 70% of Rainwater—Here’s How. The Conversation, Published: September 5, 2017 12.47pm BST. [webpage]. https://theconversation.com/chinas-sponge-cities-aim-to-re-use-70-of-rainwater-heres-how-83327.

Bogatinoska B., Lansu A., Hugé J. & Dekker S.C. 2022. Participatory Design of Nature-Based Solutions: Usability of Tools for Water Professionals. Sustainability, 14(9): 5562. DOI: 10.3390/su14095562.

Bradfer-Lawrence T., Finch T., Bradbury R.B., Buchanan G.M., Midgley A. & Field R.H. 2021. The potential contribution of terrestrial nature-based solutions to a national ‘net zero’ climate target. Journal of Applied Ecology, 58(11): 2349–2360. DOI: 10.1111/1365-2664.14003.

Bureau de Recherches Géologiques et Minières. 2020. Web- based tool – module 2 (Existing web-based platforms for NBS analysis) in Work Package 7 – Product innovation to develop an evidence-base and data platform. European Union’s Horizon 2020 research and innovation programme. 13th November of 2023. https://www.phusicos.eu/globalassets/bilder/eksterneprosjektsider/phusicos/publications/deliverable-d7-2.pdf

Calliari E., Castellari S., Davis M., Linnerooth-Bayer J., Martin J., Mysiak J., Pastor T., Ramieri E., Scolobig A., Sterk M., Veerkamp C., Wendling L. & Zandersen M. 2022. Building climate resilience through nature-based solutions in Europe: A review of enabling knowledge, finance and governance frameworks. Climate Risk Management, 37: 100450. DOI: 10.1016/j.crm.2022.100450.

Castaldo A.G., Mahmoud I. & Morello E. 2021. Ecosystem- Based Adaptation Approach and Adaptation Planning Support Tools: Potential Implementation for the Urban Context. In: La Rosa D. & Privitera R. (eds) Innovation in Urban and Regional Planning. 23–32. Proceedings of the 11th INPUT - Volume 1. Conference of the International Conference on Innovation in Urban and Regional Planning. INPUT 2021 of Book Series “Lecture Notes in Civil Engineering”, vol 146. Conference Proceedings. Springer, Cham. DOI: 10.1007/978-3-030- 68824-0_3.

Ciasca B.S., Klemz C., Raepple J., Kroeger T., Acosta E.A.P., Cho S.J., Barreto S., Bracale H. & Cesário F. 2023. Economic Cost of Drought and Potential Benefits of Investing in Nature-Based Solutions: A Case Study in São Paulo, Brazil. Water, 15(3): 466. DOI: 10.3390/w15030466.

Cobo M.J., López-Herrera A.G., Herrera-Viedma E. & Herrera F. 2011. An approach for detecting, quantifying, and visualizing the evolution of a research field: A practical application to the Fuzzy Sets Theory field. Journal of Informetrics, 5(1): 146-166. DOI: 10.1016/j.joi.2010.10.002.

Coenen J., Bager S., Meyfroidt P., Newig J. & Challies E. 2021. Environmental Governance of China’s Belt and Road Initiative. Environmental Policy and Governance, 31(1): 3–17. DOI: 10.1002/eet.1901.

Croeser T., Garrard G., Sharma R., Ossola A. & Bekessy S. 2021. Choosing the right nature-based solutions to meet diverse urban challenges. Urban Forestry & Urban Greening, 65: 127337. DOI: 10.1016/j.ufug.2021.127337.

Cui M., Ferreira F., Fung T. & Matos S. 2021. Tale of Two Cities: How Nature-Based Solutions help create Adaptive and Resilient Urban Water Management Practices in Singapore and Lisbon. Sustainability, 13(18): 10427. DOI: 10.3390/su131810427.

Eggermont H., Balian E., Azevedo J.M.N., Beumer V., Brodin T., Claudet J., Fady B., Grube M., Keune H., Lamarque P., Reuter K., Smith M., van Ham C., Weisser

W.W. & Le Roux X. 2015. Nature-based Solutions: New Influence for Environmental Management and Research in Europe. GAIA – Ecological Perspectives for Science and Society, 24(4): 243–248. DOI: 10.14512/gaia.24.4.9.

European Commission. 2015. Towards an EU research and innovation policy agenda for nature-based solutions & re- naturing cities. Final report of the Horizon 2020 expert group on ‘Nature-based solutions and re-naturing Cities’. Publications Office of the European Union. Luxembourg. https://op.europa.eu/s/yYuB.

European Commission. 2017. Horizon 2020 – Work Programme 2016–2017. 12- Climate action, environment, resource efficiency and raw materials. European Commission. Brussels, Belgium. https://ec.europa.eu/research/participants/data/ref/h2020/wp/2016_2017/main/h2020-wp1617-climate_en.pdf.

European Commission. 2019. Horizon 2020 Work – Programme 2018–2020. 19- General Annexes. European Commission. Brussels, Belgium. https://ec.europa.eu/research/participants/data/ref/h2020/other/wp/2018-2020/annexes/h2020-wp1820-annex-ga_en.pdf.

European Commission. 2021. EU Biodiversity Strategy for 2030 - Bridging Nature Back into Our Lives. European Commission. Brussels, Belgium. DOI:10.10.2779/677548.

Folke C., Jansson A., Rockström J., Olsson P., Carpenter SR, Chapin III FS., Crépin AS., Daily G., Danell K., Ebbesson J., Elmqvist T., Galaz V., Moberg F., Nilsson M., Osterblom H., Ostrom E., Persson A., Peterson G., Polasky S., Steffen W., Walker B. & Westley F. 2011. Reconnecting to the biosphere. Ambio, 40(7): 719-738. DOI: 10.1007/s13280-011-0184-y.

Frantzeskaki M., Vandergert P., Connop S., Schipper K., Zwierzchowska I., Collier M. & Lodder M. 2020. Examining the policy needs for implementing nature- based solutions in cities: Findings from city-wide transdisciplinary experiences in Glasgow (UK), Genk (Belgium) and Poznań (Poland). Land Use Policy, 96: 104688. DOI: 10.1016/j.landusepol.2020.104688.

Gao J., Wang Y., Zou C., Xu D., Lin N., Wang L. & Zhang K. 2020. China’s ecological conservation redline: A solution for future nature conservation. Ambio, 49: 1519– 1529. DOI: 10.1007/s13280-019-01307-6.

Hai R. & Shaolin P. 2003. The Practice of Ecological Restoration in China: A Brief History and Conference Report. Ecological Restorarion, 21(2): 122–125. DOI: 10.3368/er.21.2.122.

Hale S.E., von der Tann L., Rebelo A.J., Esler K.J., de Lima A.P.M., Rodrigues A.F., Latawiec A.E., Ramírez- Agudelo N.A., Roca E., Suleiman L., Singh N. & Oen A. 2023. Evaluating Nature-Based Solutions for Water Management in Peri-Urban Areas. Water, 15(5): 893. DOI: 10.3390/w15050893.

Harrak M. & Lemaitre F. 2023. European Roadmap to 2030 for Research and Innovation on Nature-based Solutions. NetworkNature. Accessed November 13, 2023 from: https://networknature.eu/sites/default/files/uploads/eu-ri-roadmapweb.pdf.

Hekrle M. 2022. What benefits are the most important to you, your community, and society? Perception of ecosystem services provided by nature-based solutions. WIREs Water, 9(6): e1612. DOI : 10.1002/wat2.1612.

IUCN. 2016.WCC-2016-Res-069-EN-Defining Nature- based Solutions. Accessed on July 30 2023 from: https://portals.iucn.org/library/sites/library/files/resrecfiles/WCC_2016_RES_069_EN.pdf.

Kalantari Z., Seifollahi-Aghmiuni S., Von Platen H., Gustafsson M., Rahmati O & Santos C . 2022. Using Landscape Connectivity to Identify Suitable Locations for Nature-Based Solutions to Reduce Flood Risk. In: Ferreira C.S.S., Kalantari Z., Hartmann T. & Pereira P. (Eds) Nature-Based Solutions for Flood Mitigation: Environmental and Socio-Economic Aspects. 339–354. Handbook of Environmental Chemistry (HEC) book series, volume 107. Springer Cham. DOI: 10.1007/698_2021_771.

Kay J.J., Regier H.A. & Boyle F.G. 1999. An ecosystem approach for sustainability: addressing the challenge of complexity. Futures, 31(7): 721–742. DOI: 10.1016/S0016-3287(99)00029-4.

Krivtsov V., Birkinshaw S., Yahr R. & Olive V. 2021. Comparative ecosystem analysis of Urban Ponds: implications for synergistic benefits and potential trade- offs resulting from retrofitting of Green Roofs in their catchments. International Journal of Environmental Impacts, 4(4): 323–339. DOI: 10.2495/EI-V4-N4-323-

Kumar P., Debele S., Sahani J., Aragão L., Barisani F., Basu B., Bucchignani E., Charizopoulos N., Di Sabatino S., Domeneghetti A., Sorolla A., Finér L., Gallotti G., Juch S., Leo L., Loupis M, Mickovski S., Panga D., Pavlova I., Pilla F., Prats A., Renaud F., Rutzinger M., Basu A., Shah M., Soini K., Stefanopoulou M., Toth E., Ukonmaanaho L., Vranic S. & Zieher T. 2020. Towards an operationalisation of nature-based solutions for natural hazards. Science of The Total Environment, 731: 138855. DOI: 10.1016/j.scitotenv.2020.138855.

Kuriqi A. & Hysa A. 2021. Multidimensional Aspects of Floods: Nature-Based Mitigation Measures from Basin to River Reach Scale. In: Ferreira C.S.S., Kalantari Z., Hartmann T. & Pereira P. (Eds) Nature-Based Solutions for Flood Mitigation: Environmental and Socio- Economic Aspects. 11-33. Handbook of Environmental Chemistry (HEC) book series, volume 107. Springer Cham. DOI: 10.1007/698_2021_773.

Langergraber G., Regelsberger M., Eregno F.E. & Heistad A. 2020. Design approach for treatment wetlands (Chapter 3). In: Langergraber G., Dotro G., Nivala J., Rizzo A. & Stein O (eds.). Wetland Technology Practical Information on the Design and Application of Treatment Wetlands. Scientific and Technical Report No. 27. IWA Publishing. DOI: 10.2166/9781789060171_0011.

Larrey-Lassalle P., Decker S., Perfido D., Naneci S. & Rugani B. 2022. Life Cycle Assessment Applied to Nature-Based Solutions: Learnings, Methodological Challenges, and Perspectives from a Critical Analysis of the Literature. Land, 11(5): 649. DOI: 10.3390/land11050649.

Liu H.-Y., Jay M. & Chen X. 2021. The Role of Nature-Based Solutions for Improving Environmental Quality, Health and Well-Being. Sustainability, 13(19): 10950. DOI: 10.3390/su131910950.

Liu J., Tan J., Zhang S., Zhong C., Lv L. & Tara A. 2023. Suitability Assessment of Small Dams’ Location as Nature-Based Solutions to Reduce Flood Risk in Mataniko Catchment, Honiara, Solomon Islands. Sustainability, 15(4): 3313. DOI: 10.3390/su15043313.

Longato D., Cortinovis Ch., Balzan M. & Geneletti D. 2023. A method to prioritize and allocate nature-based solutions in urban areas based on ecosystem service demand. Landscape and Urban Planning, 235: 104743. DOI : 10.1016/j.landurbplan.2023.104743.

Mabrouk M., Han H., Fan C., Abdrabo K.I., Shen G., Saber M., Kantoush S.A. & Sumi T. 2023. Assessing the effectiveness of nature-based solutions-strengthened urban planning mechanisms in forming flood-resilient cities. Journal of Environmental Management, 344: 118260. DOI: 10.1016/j.jenvman.2023.118260.

Martínez M., Cobo M., Herrera M. & Herrera-Viedma E. 2015. Analyzing the Scientific Evolution of Social Work Using Science Mapping. Research on Social Work Practice, 25(2): 257-277. DOI: 10.1177/1049731514522101.

Moreau C., Cottet M., Rivière-Honegger A., François A. & Evette A. 2022. Nature-based solutions (NbS): A management paradigm shift in practitioners’ perspectives on riverbank soil bioengineering. Journal of Environmental Management, 308: 114638. DOI: 10.1016/j.jenvman.2022.114638.

Nesshöver C., Assmuth T., Irvine K.N., Rusch G.M., Waylen K.A., Delbaere B., Haase D., Jones-Walters L., Keune H., Kovacs E., Krauze K., Kulvik M., Rey F., van Dijk J., Vistad O.I., Wilkinson M.E. & Wittmer H. 2017. The science, policy and practice of nature-based solutions: An interdisciplinary perspective. Science of The Total Environment, 579: 1215–1227. https://doi.org/10.1016/j.scitotenv.2016.11.106.

Ramírez-Agudelo N.A., Porcar R., Villares M. & Roca E. 2020. Nature-Based Solutions for Water Management in Peri-Urban Areas: Barriers and Lessons Learned from Implementation Experiences. Sustainability, 12(23): 9799. DOI: 10.3390/su12239799.

Raymond C.M., Stedman R. & Frantzeskaki N. 2023. The role of nature-based solutions and senses of place in enabling just city transitions. Environmental Science & Policy, 144: 10-19. DOI: 10.1016/j.envsci.2023.02.021.

Sarabi S., Han Q., de Vries B., Romme A.G.L. & Almassy D. 2022. The Nature-Based Solutions Case-Based System: A hybrid expert system. Journal of Environmental Management, 324: 116413. DOI: 10.1016/j.jenvman.2022.116413.

Shen D. 2021. The River and Lake Chief System (Chapter 11). In: Shen D. Water Resources Management of the People’s Republic of China: Framework, Reform and Implementation. 241–252. Global Issues in Water Policy (GLOB) book series, Volume 26. Springer International Publishing: Cham, Switzerland. https://doi.org/10.1007/978-3-030-61931-2_11.

Somarakis G., Stagakis S. & Chrysoulakis N. (Eds.) 2019. ThinkNature Nature-Based Solutions Handbook; European Union: Brussels, Belgium. https://ec.europa.eu/research/participants/documents/downloadPublic?documentIds=080166e5c7061325&appId=PPGMS.

Sowinska-Swierkosz B., Michalik-Sniezek M. & Bieske- Matejak A. 2021. Can Allotment Gardens (AGs) Be Considered an Example of Nature-Based Solutions (NBS) Based on the Use of Historical Green Infrastructure? Sustainability, 13(2): 835. DOI: 10.3390/su13020835.

Spyrou C., Loupis M., Charizopoulos N., Arvanitis P., Mentzafou A., Dimitriou E., Debele S.E., Sahani J. & Kumar P. 2022. Evaluating Nature-Based Solution for Flood Reduction in Spercheios River Basin Part 2: Early Experimental Evidence. Sustainability, 14(16): 10345. DOI: 10.3390/su141610345.

Toxopeus H. & Polzin F. 2021. Reviewing financing barriers and strategies for urban nature-based solutions. Journal of Environmental Management, 289: 112371.

Ullah R., Asghar I. & Griffiths M.G. 2023. An Integrated Methodology for Bibliometric Analysis: A Case Study of Internet of Things in Healthcare Applications. Sensors, 23(1): 67. DOI: 10.3390/s23010067.

Wang H., He M., Ran N., Xie D., Wang Q., Teng M. & Wang P. 2021. China’s Key Forestry Ecological Development Programs: Implementation, Environmental Impact and Challenges. Forests, 12(1): 101. DOI: 10.3390/f12010101.

Wang X., Lu J., Song Z., Zhou Y., Liu T. & Zhang D. 2022. From past to future: Bibliometric analysis of global research productivity on nomogram (2000–2021). Frontiers in PublicHealth, 10: 997713. DOI: 10.3389/fpubh.2022.997713.

Wickenberg B., McCormick K. & Olsson J.A. 2021. Advancing the implementation of nature-based solutions in cities: A review of frameworks. Environmental Science and Policy, 125: 44–53. DOI: 10.1016/j.envsci.2021.08.016.

Yin D., Xu, C., Jia H., Yang Y., Sun C., Wang Q. & Liu S. 2022. Sponge City Practices in China: From Pilot Exploration to Systemic Demonstration. Water, 14(10): 1531. DOI: 10.3390/w14101531.

Zhang Y., Fei X., Liu F., Chen J., You X., Huang S., Wang M. & Dong J. 2022. Advances in Forest Management Research in the Context of Carbon Neutrality: A Bibliometric Analysis. Forests, 13(11): 1810. DOI: 10.3390/f13111810.