Examinando por Autor "Coronel Bustamante, David"

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Sustainable rice–fish farming systems: a systematic review and meta‐analysis
(John Wiley & Sons Ltd., 2025-06-12) Fernández Zatrate, Franklin Hitler; Pérez Delgado, Luis Jhoseph; Coronel Bustamante, David; Huanca Silva, Leisy; Taboada Mitma, Víctor Hugo; Quispe Carhuapoma, Mariela Judith; Oliva Alvarez, Yashira Steffani; Ramirez Antaurco, Maximo Fabricio; Anchayhua Torres, Janella Jelyn; Huaccha Castillo, Annick Estefany; Seminario Cunya, Alejandro; Tineo Flores, Daniel; Gomez Fernandez, Darwin; Goñas Goñas, Malluri; Cruz Luis, Juancarlos Alejandro
The rice–fish farming system is an efficient ecological model with economic, ecological, and social benefits, reduces environmental impacts and optimizes the use of resources. The objective of the research was to explore and analyze scientific publications through a systematic review and meta-analysis related to rice–fish intercropping. A review of publications hosted in the Scopus and PubMed database from January 2000 to April 2025 was conducted. Research articles were selected, excluding review articles, com-mentaries, book chapters, and letters, and only documents published in English were analyzed. The analysis shows that the countries with the highest number of publications were China and Bangladesh, with a proportion of 48% and 24% respectively, followed by Thailand with 10% and Pakistan, Indonesia, Malaysia, and India with 5% each. The fish species used in rice–fish systems were reported to be Cyprinus carpio (37%), Oreochromis niloticus (29%), Barbonymus gonionotus, Micropterus salmoides and Pelteobagrus fulvidraco (8%), Amblypharyngodon mola (5%), and Labeo rohita and Monopterus albus (3%). On average, fish settle in the rice–fish system 27 days after rice planting, with a density of 13,390 fish/ha. Between rice planting and harvesting 132 days pass, obtaining an average yield of 4397 kg of rice/ha and 1383 kg of fish/ha. It is recommended to prioritize integrated research on unstudied fish species, optimal densities, fertilization, culture models, and emerging technologies in rice–fish systems, considering regional variations to improve sustainability, productivity, and food security at a global level.
Where are we with respect to research in support of sustainable development goal 13? bibliometric analysis
(International Information and Engineering Technology Association (IIETA), 2024-12-30) Fernandez Zarate, Franklin Hitler; Pérez Delgado, Luis; Coronel Bustamante, David; Huanca Silva, Leisy; Taboada Mitma, Victor H.; Quispe Carhuapoma, Mariela; Oliva Alvarez, Yashira; Huaccha Castillo, Annick Estefany; Seminario Cunya, Alejandro; Quiñones Huatangari, Lenin; Ocaña Zuñiga, Candy Lisbeth; Morales Rojas, Eli; Vaca Marquina, Segundo; Miguel Miguel, Hugo; Cruz Luis, Juancarlos Alejandro
Climate change is one of the main global challenges, addressed in the United Nations Sustainable Development Goal (SDG) 13, which seeks to "take urgent action to combat climate change and its impacts". The objective of the research was to analyze scientific articles that directly relate to SDG 13 through a bibliometric analysis for the period 2015 to 2024 of the Scopus database using the search term “SDG 13” OR “Sustainable Development Goal 13”. The research identified prolific authors, articles, sources with the highest impact in the area of study, leading institutions and countries in publications along with a detailed keyword analysis. The results show that interest in the study of SDG 13 has grown significantly with a focus on areas such as mitigation and adaptation, low carbon economy and public policy. This analysis provides an overview of advances in SDG 13 research, helps to identify knowledge gaps and emerging areas, and contributes to the formulation of effective policies and the drive for global climate action.