Subtopic Deep Dive

← Public Health and Environmental Issues

Climate Change Impact on Public Health
Research Guide

What is Climate Change Impact on Public Health?

Climate Change Impact on Public Health examines how climate variables like temperature extremes, air pollution, and vector-borne diseases affect population health outcomes through epidemiological models, vulnerability assessments, and adaptation strategies.

Researchers analyze rising temperatures, extreme weather, and shifting disease patterns in urban and rural settings. Studies focus on Latin American cases, including dengue surges in Colombia (Castrillón et al., 2015, 58 citations) and climate-driven floods in Bogotá (Sarmiento-Suárez, 2014). Over 20 papers from 2012-2024 address water quality degradation and health risks, with 141 citations for urban adaptation pathways (Tellman et al., 2018).

Curated Papers

Key Challenges

Why It Matters

Climate shifts exacerbate vector-borne diseases like dengue, as tracked over ten years in Colombia (Castrillón et al., 2015), and increase infection risks from contaminated water in Andean springs (Choque-Quispe et al., 2021). Urban flooding from variability, as in Bogotá (Sarmiento-Suárez, 2014), heightens public health emergencies. Adaptation strategies in Mexico City reduce vulnerability via infrastructure (Tellman et al., 2018), guiding resilient policies amid water stress (Ímaz Gispert et al., 2018). These insights inform global health systems facing escalating environmental risks.

Key Research Challenges

Modeling Disease Vector Shifts

Predicting dengue spread under warming relies on historical data but struggles with non-linear climate interactions (Castrillón et al., 2015). Epidemiological models lack integration of urban adaptation pathways (Tellman et al., 2018). Validation against real outbreaks remains inconsistent.

Assessing Urban Water Vulnerabilities

Mexico City's water stress amplifies health risks from poor rainwater quality (Ímaz Gispert et al., 2018). Contaminant tracking in rivers like Bogotá shows multiyear coliform spikes (Castro Fernández et al., 2022). Socioeconomic factors complicate vulnerability mapping.

Evaluating Adaptation Effectiveness

Infrastructure adaptations produce new vulnerabilities over centuries (Tellman et al., 2018). Policy barriers hinder socioecosystem approaches in Mexico (Challenger et al., 2018). Long-term health outcome metrics for strategies like constructed wetlands are underdeveloped (Pérez et al., 2022).

Essential Papers

Adaptive pathways and coupled infrastructure: seven centuries of adaptation to water risk and the production of vulnerability in Mexico City

Beth Tellman, Julia C. Bausch, Hallie Eakin et al. · 2018 · Ecology and Society · 141 citations

Infrastructure development is central to the processes that abate and produce vulnerabilities in cities. Urban actors, especially those with power and authority, perceive and interpret vulnerabilit...

Dengue en Colombia: diez años de evolución

Juan Camilo Castrillón, Jhon Carlos Castaño Osório, Silvio Urcuqui · 2015 · Revista chilena de infectología · 58 citations

Dengue in Colombia: ten years of database recordsIntroduction: Dengue is a worldwide public health problem for which there is still no vaccine, so the knowledge of its temporal behavior could be us...

Biomarcadores para la predicción en urgencias de infección bacteriana, bacteriemia y gravedad

Pere Tudela, Cristina Prat, Alícia Lacoma et al. · 2012 · Emergencias: Revista de la Sociedad Española de Medicina de Urgencias y Emergencias · 29 citations

This paper provides the first data about Culicoides fauna in FYROM, Kosovo, Montenegro and Serbia, as well as new records and an update on the checklists for Bosnia and Herzegovina, Bulgaria and Cr...

Opportunities and obstacles to socioecosystem-based environmental policy in Mexico: expert opinion at the science-policy interface

Antony Challenger, Ana Córdova y Vázquez, Elena Lazos Chavero et al. · 2018 · Ecology and Society · 25 citations

The urgent need to revert the ecological and social equity crises of the current development model and realize the potential of sustainable development has led several disciplines to converge on th...

Rainwater Harvesting as a Drinking Water Option for Mexico City

Mireya Ímaz Gispert, M. A. Armienta, Enrique Lomnitz Climent et al. · 2018 · Sustainability · 24 citations

Mexico City is one of the most water-stressed cities in the world; poor quality water occurs in several parts of the City. The use of rainwater harvesting (RWH) as a source of drinking water is gai...

Aquifers and Groundwater: Challenges and Opportunities in Water Resource Management in Colombia

Yani Aranguren, Nataly J. Galán‐Freyle, Abraham Guerra et al. · 2024 · Water · 23 citations

Water is essential for life on Earth, playing fundamental roles in climate regulation, ecosystem maintenance, and domestic, agricultural, and industrial processes. A total of 70% of the planet is c...

Humedales construidos como alternativa de tratamiento de aguas residuales en zonas urbanas: una revisión

Yvelisse Pérez, Daniel Garcia-Cortes, Ulises Jäuregui‐Haza · 2022 · Ecosistemas · 17 citations

El tratamiento de las aguas residuales urbanas es un problema no resuelto. Las nuevas tecnologías, como los humedales construidos (HC), ayudan a conservar y proteger los cuerpos de aguas. En esta r...

Reading Guide

Foundational Papers

Start with Sarmiento-Suárez (2014) for Bogotá climate-health impacts and Tudela et al. (2012) for infection biomarkers, as they establish baseline epidemiological links to environmental stressors.

Recent Advances

Study Tellman et al. (2018) for adaptation pathways, Castrillón et al. (2015) for dengue trends, and Aranguren et al. (2024) for groundwater challenges amplifying health risks.

Core Methods

Core techniques involve temporal analysis of disease databases (Castrillón et al., 2015), multitemporal coliform monitoring (Castro Fernández et al., 2022), and socioecosystem vulnerability assessments (Tellman et al., 2018).

How PapersFlow Helps You Research Climate Change Impact on Public Health

Discover & Search

Research Agent uses searchPapers and exaSearch to find 50+ papers on dengue-climate links, starting with Castrillón et al. (2015); citationGraph reveals clusters around Tellman et al. (2018) adaptation pathways; findSimilarPapers uncovers related vulnerability studies like Sarmiento-Suárez (2014).

Analyze & Verify

Analysis Agent applies readPaperContent to extract epidemiological data from Castrillón et al. (2015), verifies climate-health correlations via verifyResponse (CoVe), and runs PythonAnalysis with pandas to trend coliform levels from Castro Fernández et al. (2022); GRADE grading scores evidence strength for vector models.

Synthesize & Write

Synthesis Agent detects gaps in dengue adaptation post-2015 via contradiction flagging across Castrillón et al. (2015) and Tellman et al. (2018); Writing Agent uses latexEditText, latexSyncCitations for policy reports, and latexCompile for figures; exportMermaid visualizes vulnerability pathways.

Use Cases

"Trend total coliforms in Bogotá River 2007-2019 and link to flood health risks"

Research Agent → searchPapers → Analysis Agent → runPythonAnalysis (pandas plotting from Castro Fernández et al., 2022 data) → matplotlib time-series graph output with statistical correlations to Sarmiento-Suárez (2014) floods.

"Draft LaTeX review on Mexico City water adaptation for health resilience"

Synthesis Agent → gap detection → Writing Agent → latexEditText + latexSyncCitations (Tellman et al., 2018; Ímaz Gispert et al., 2018) → latexCompile → PDF with embedded diagrams.

"Find code for groundwater climate models in Colombia papers"

Research Agent → paperExtractUrls on Aranguren et al. (2024) → paperFindGithubRepo → githubRepoInspect → verified aquifer simulation scripts for health risk modeling.

Automated Workflows

Deep Research workflow conducts systematic review of 50+ papers on vector diseases, chaining searchPapers → citationGraph → GRADE grading for structured health impact report. DeepScan applies 7-step analysis to Tellman et al. (2018), with CoVe checkpoints verifying adaptation claims. Theorizer generates hypotheses on dengue-climate feedbacks from Castrillón et al. (2015) and Sarmiento-Suárez (2014).

Try Doxa for Climate Change Impact on Public Health Research

Frequently Asked Questions

What defines Climate Change Impact on Public Health?

It examines climate variables like temperature extremes and vector-borne diseases affecting health via epidemiological models and adaptation strategies, as in dengue evolution (Castrillón et al., 2015).

What are key methods used?

Methods include temporal database analysis for dengue (Castrillón et al., 2015), vulnerability mapping via adaptive pathways (Tellman et al., 2018), and coliform trending in rivers (Castro Fernández et al., 2022).

What are prominent papers?

Tellman et al. (2018, 141 citations) on Mexico City adaptations; Castrillón et al. (2015, 58 citations) on Colombian dengue; Sarmiento-Suárez (2014) on Bogotá climate health impacts.

What open problems persist?

Challenges include integrating socioeconomic factors into models (Challenger et al., 2018), long-term validation of water adaptations (Ímaz Gispert et al., 2018), and predicting non-linear disease shifts.