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Aneela Batool
and
Malik Ghulam Behlol

Abstract

This study aims to examine the climate change education (CCE) provision in grade 5 textbooks (science and social studies) and the competence of teachers in teaching CCE in a primary girls’ schools in Skardu, Baltistan, Pakistan. It employs mixed-method research that uses both qualitative and quantitative approaches to gather data. The first phase of the study involved collecting qualitative data to examine the provision of CCE content in selected textbooks taught in grade 5. The researcher adapted an interview questionnaire to assess the competence of teachers teaching in 38 schools. The provision of themes and topics based on the seven principles of climate literacy given by the U.S. Global Change Research Program was identified by using latent content analysis (LCA). The study concludes that science and social studies textbooks lack the incorporation of CCE content of principles 1, 4, 6, and 7. Furthermore, the majority of teachers have not received training to use digital media and apply activity-based methods to engage campus and community support for CCE. The study also found that the selected schools lack school planting campaigns, CCE committees, and CCE walks. Above all, the respondents possess conflicting views about whether climate change is a natural or human-contributed phenomenon.

Significance Statement

Like other countries around the globe, Pakistan is the victim of climatic disasters which have disastrous effects on the economy, agriculture, healthcare, and weather conditions. These effects are exacerbated by lacking awareness, attitudinal issues, and poor pro-climate-supported practices at the academic and societal levels (Asian Development Bank 2022). Awareness, knowledge, and a supportive environment during childhood form attitudes and promote practices that have lasting impacts throughout the life of the individual (Gulraiz and Ali 2021). Therefore, children need to learn and adopt proclimate lifestyles, such as observing cleanliness, practicing planting, and judicious use of energy resources. With this background, we assessed the textbooks based on seven principles of climate literacy given by the U.S. Global Change Research Program (USGCRP 2009) and observed that principles 1, 4, 6, and 7 are not adequately addressed in science and social studies textbooks taught in public schools. Moreover, teachers have not received training to use digital media and gather campus and community support, and they have a stereotypical understanding of climate change. The study possesses significant implications for curriculum revisions and elementary education management to address the gaps relating to climate change education (CCE).

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Jase Bernhardt
,
Kathleen Fallon
, and
Gregory Dusek

Abstract

Rip currents are poorly understood by the public and thus a leading cause of weather-related fatalities in the United States. Individuals who speak languages other than English, such as Spanish-speaking communities, have been historically underserved by communication efforts for natural hazards and thus are at additional risk from rip currents. In response, the National Weather Service (NWS) has developed rip current outreach tools translated into Spanish in recent years, though their efficacy has not been systematically tested. We therefore surveyed members of the Spanish-speaking community in the New York City area to gain insights into how the NWS two-page rip current informational brochure is working and possible improvements to be made. The English version of the brochure was also tested, and the results from the two languages were compared. Quantitative survey results indicate that while both brochures are generally effective, several changes could be made to improve clarity, especially for Spanish speakers, who found more issues with the Spanish version. For example, the translation of the term rip current itself used by the NWS, “corrientes de resaca,” was determined to be confusing by some Spanish speakers, as were other pieces of text with complex scientific terms. Moreover, certain graphics contained in the brochure were difficult to understand for users in both languages. The results of this work can be used by the NWS and other agencies to improve their Spanish risk communication tools and can also be used as a guide when translating scientific information into other languages.

Significance Statement

Rip currents, narrow channels of fast-moving water that can pull swimmers away from the shore, are among the leading weather-related killers in the United States yet are poorly understood by the public. Recent efforts to reduce society’s vulnerability to rip currents include the translation of outreach materials from English to Spanish. This study evaluated a new National Weather Service Spanish rip current informational brochure and compared it to the English version. The results show that while both the English and Spanish brochures were generally effective at communicating risk, the Spanish version had more issues, primarily surrounding the translation of scientific terms and phrases. Findings from this research can help guide scientists in designing improved non-English severe weather outreach products.

Open access
Rattanawan Mungkung
,
Piyatida Jaieim
, and
Panit Chancharoonpong

Abstract

Quantifying the total greenhouse gas (GHG) emissions along the whole value chain is essential for effective greenhouse gas management. Two types of the most popular restaurants in Thailand were included in this study: 1) a restaurant that specialized in northeastern Thai cuisine with an area of 94 m2 and 41 000 clients per year and 2) a restaurant serving Japanese–Thai fusion meals with an area of 284 m2 with 59 000 clients per year. Notably, the scope 3 GHG emissions were the highest (76%–81% of total emissions). The main contributors at both restaurants were raw material acquisition, followed by transportation of raw materials and waste management. It was suggested that the restaurants should not overlook the major sources of scope 3 GHG emissions, especially in food procurement, transportation from suppliers, and waste management. GHG management measures that could be applied include using local food ingredients, buying raw materials from nearby locations, simulating transport routes to minimize the distance of transport, and separating food wastes and sorting recyclable packaging wastes for further use. In addition, the restaurants could flag low-carbon footprint meals on their menus to engage their customers in contributing to GHG reductions.

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Alejandro Jaramillo
and
Christian Dominguez

Abstract

Lightning around the world poses a significant threat to life, infrastructure, and economic sectors. This study evaluates lightning risk at the municipal level in Mexico, recognizing the interplay of hazard and vulnerability in risk estimation. Despite declining lightning-related fatalities, possibly attributed to demographic shifts and improved urban infrastructure, persistent social vulnerability exists, particularly among rural populations engaged in labor-intensive agriculture with lower education levels. We estimate a risk map for lightning-related fatality risk in Mexico, where we identify high-risk regions along the Sierra Madre Occidental, the Pacific coast, and central and southeastern Mexico, marked by elevated lightning days and social vulnerability. The risk map integrates hazard and social vulnerability, capturing the distribution of fatality incidents, and it reveals that 82.1% of incidents occurred in municipalities categorized as “high” or “very high” risk. This result emphasizes the need to consider both physical hazard and social vulnerability for a comprehensive assessment of lightning risk. This study contributes to understanding lightning risk in Mexico, providing crucial insights at the municipality level for informing policymaking and targeting risk mitigation strategies. By highlighting the interrelation of hazard and social vulnerability, this research aligns with broader goals of enhancing local resilience and safety in the face of natural hazards, highlighting the ongoing need for disaster risk reduction efforts.

Significance Statement

This study provides a comprehensive evaluation of the risk of death by lightning at the municipality level in Mexico, considering the intricate interplay between hazard and social vulnerability. By analyzing both the physical hazard of lightning and the social vulnerability of exposed populations, the study provides a map estimating the risk level for each municipality. The risk map, capturing the interrelation of hazard and vulnerability, provides a powerful tool for policymakers and emergency responders. With 82.1% of lightning fatalities concentrated in municipalities with “high” and “very high” risk, this work underscores the need for comprehensive risk assessment strategies. This research contributes knowledge for informed decision-making, targeted interventions, and the ongoing pursuit of enhancing community resilience to lightning-related hazards.

Open access
Jordi Mazon
,
David Pino
, and
Daniel LĂłpez

Abstract

This study explores the correlation between weather and the perception of urban cleanliness across the 47 largest cities in Spain. Utilizing survey data conducted by the national Consumers and Users Organization (OCU) in 2015, 2019, and 2023 to assess cleanliness perceptions, we analyze potential associations with precipitation and temperature recorded by weather stations of the Spanish Meteorological Agency. Additionally, we consider computed values of the De Martonne aridity index. The OCU data reveal regional disparities in perceived cleanliness quality. Higher cleanliness scores are obtained in cities located in the northern and north-central regions of Spain, characterized by humid and superhumid climates according to the De Martonne index. Conversely, lower cleanliness ratings are given to cities in the southern and eastern regions of Spain, where a Mediterranean climate and lower aridity index values prevail. In conducting a statistical analysis on the perception of cleanliness and variables related to precipitation and temperature, the results of the chi-square and linear correlation tests found no strong statistical correlation, although a tendency is observed. Cities with higher annual precipitation and lower values of average annual temperature tend to receive better cleanliness ratings, while drier and warmer cities exhibit the worst values of perceived urban cleanliness. Furthermore, our findings indicate that the Gompertz model effectively captures a strong statistical correlation in the relationship between cleanliness perception and the De Martonne index: As aridity increases, cleanliness perception decreases. These results are relevant for the development of future cleaning methods and systems, particularly in light of the climate change scenarios that are anticipated in the Mediterranean region due to warmer and drier conditions and, consequently, an increase in aridity.

Open access
R. L. Bhardwaj
,
M. P. Verma
,
L. Vyas
,
Anita Sharma
,
D. S. Jakhar
,
Kapil Choudhary
, and
Jaideep Meena

Abstract

An intensive survey was carried out over the past 8 years in tribal-dominated areas of southwestern Rajasthan to document red-wattled lapwing (Vanellus indicus) behavior as a rain forecaster, relevant to farm planning and better crop production. The present study included tribal farmers, agriculture scientists, extension workers, ornithologists, and farm workers. The precision of their observations was compared with a contemporaneous study of 10–15 red-wattled lapwing nests across the 46-ha operational area of the Agricultural Research Sub-Station (ARSS) and Adaptive Trial Center (ATC), Sumerpur, Pali, Rajasthan (25.1526°N latitude, 73.0823°E longitude). Local knowledge was gathered through surveys and focus group discussions with the respondents to discuss lapwing behavior as a rain prediction indicator. Meteorological data were gathered from the ATC farm observatory. The findings revealed that the older tribal farmers have an assortment of knowledge about the behavior of red-wattled lapwing as rain prediction indicators such as nesting sites, egg position, egg arrangement, nesting material, numbers of eggs, and egg-laying patterns. These predictions have a direct correlation with modern meteorological observations. It was also noted that the elder tribal farmers planned their farms using lapwing indicators in order to increase crop production, whereas younger generations overlook the traditional rain prediction indicators and have significant knowledge about meteorological data-based weather forecasting. Both the elder and younger tribal farmers were equally interested in meteorological weather forecast announcements, but due to network connectivity challenges, residents in some remote places were unable to access modern meteorological information. Long-term accurate rain forecasting is needed for better agricultural planning and to secure crop production. Rain forecasting can be improved by blending modern meteorological information with traditional proven indications. Farmers who have considerable traditional knowledge along with modern technological updates are capable of using both sources of information in suitable and successful farm planning for better crop production.

Significance Statement

The purpose of this study is to examine red-wattled lapwing behavior as rain measurements and compare its reliability with modern rain forecasting methods. We also develop a theoretical framework for understanding traditional and modern rain forecasting methods for disaster management in remote and accessible areas, to assist resource management and to minimize costs of cultivation. Our results provide a guideline for blending both types of knowledge and for providing relevant information to remote tribal areas at appropriate times for better farm planning and crop production.

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Francesca Macaluso
,
Amber Vaughn
,
Stefan Wheat
,
Richard F. Hamman
, and
Katherine A. James

Abstract

Acute kidney injury (AKI) and chronic kidney disease (CKD) are serious health conditions with an enormous global health burden. There is evidence to suggest that CKD rates are increasing within the United States despite declines in traditional risk factors for kidney injury and disease, disproportionately impacting certain populations. Changes in meteorological factors because of climate change may be partially responsible for this increase in kidney injury. This study evaluated the association between AKI and meteorological factors controlling for demographic and health factors among adults within the San Luis Valley, Colorado, a rural, biethnic agrarian community at increased risk for health impacts from climate change, over a 15-yr period. Relative humidity was a significant predictor of AKI controlling for age, sex, history of hypertension, and history of diabetes. Changing weather patterns may increase the risk of AKI and the subsequent development of CKD within the United States. These findings may help public health practitioners and medical professionals to identify populations at risk of incurring acute or chronic kidney injury as seasonal weather patterns change. Further research should investigate the role of heat, heat stress, and dehydration in developing CKD in the United States.

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Tonya R. Haigh
,
Douglas R. Kluck
,
Dennis P. Todey
, and
Laurie Nowatzke

Abstract

Evaluation of near-term (sub)seasonal climate services’ impact is challenging but necessary for ensuring that society’s needs for actionable information are met. We use a descriptive study of the monthly North Central U.S. Climate and Drought Webinar Series at two time points (2014 and 2021) to examine societal impacts on capacity-building, sensemaking, fact-establishing, communication, decision-making, and social–ecological systems. The North Central U.S. Climate and Drought Webinar Series arose following a 2011 climate disaster and established itself over the next 10 years as a monthly resource for climate and impact information translation and interaction. Survey respondents indicated early benefits related to understanding how to find and use climate information and improved conceptual understanding of climate issues and problems. Many used webinar information to compare with other sources of data or to incorporate into their own communications, uses which can increase overall societal trust in climate information over time. Attendees’ self-reported capacity for using climate information in decision-making and actual use of information in specific decisions or management contexts increased as the webinar series approached the 10-yr mark. Most participants did not note financial or other social–ecological outcomes of their use of the webinars. We conclude by recommending that climate services be evaluated over sufficiently long time periods to capture evolving impacts and that evaluations incorporate impact rubrics that measure subtle yet important societal capacities and decision-making processes related to climate risk management.

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Laura Thomas-Walters
,
Matthew H. Goldberg
,
Sanguk Lee
,
Aidan Lyde
,
Seth A. Rosenthal
, and
Anthony Leiserowitz

Abstract

Extreme weather, including heat waves, poses a significant threat to ecosystems and human health. As global temperatures continue to rise, the frequency and severity of heat waves will increase. Because of this, communicating heat-related risks to the public is increasingly important. One commonly used communication tool is the Climate Shift Index (CSI), which establishes how much more likely an extreme weather event, such as a heat wave, has been made by climate change. To test the impact of the CSI on people’s understanding of the links between climate change and extreme weather, we conducted an experiment informing 3902 American adults that climate change made the July 2023 heat wave in the United States at least 5 times more likely. In addition to this standard CSI wording and two control messages, we also explored the effectiveness of reframing magnitude as a percentage and whether mechanistic and attribution explanations of the relationship between climate change and heat waves further increase understanding. All treatments increased the belief that climate change made the July 2023 heat wave more likely and is making heat waves in general more likely as well. Additionally, we found that expressing the magnitude as a percentage was more effective than the standard CSI framing. We also found that just talking about the heat wave, without mentioning climate change, was enough to change beliefs.

Open access
Zoey Rosen
,
Marilee Long
,
Andrea Schumacher
,
Mark DeMaria
, and
Alan Brammer

Abstract

Map graphics are often used for hazard risk communication, layered with numerical, verbal, and visual information to describe an uncertain threat. In the hurricane context, graphics are used to communicate the probability of different threats over a forecasting period. While hurricane graphics have been studied in the past, they have not been designed with colorblind-friendly accessibility and localization in mind. This study presents the results of a mixed-method study, testing the perceptions of different color schemes and map overlays on a wind exceedance map graphic with samples of experts (emergency managers and meteorologists) and the public. Nineteen experts from Florida and Louisiana were interviewed about their preferences for and risk perceptions of the design elements of the new wind exceedance graphic. The graphic prototypes were also tested using a public sample (n = 624) from Florida and Louisiana to study participants’ design preferences and risk perceptions. Both expert and public samples preferred a yellow-to-red scheme, though experts thought the yellow-to-red scheme presented the hazard as riskier and the public thought the reds-only scheme was riskier. Experts and the public preferred a map graphic with overlays; they scored a map graphic with overlays as riskier than a version without overlays. Understanding the connection between color scheme preference and risk perception for both experts and the public has important implications on risk communication as new graphics are designed. The conclusion of this study provides avenues for future research for experts who want to apply universal design aspects into hurricane graphics.

Significance Statement

This study investigates user preferences and risk perceptions for a new wind exceedance hurricane graphic designed with universal design principles. Experts (emergency managers and meteorologists) and the public from Florida and Louisiana participated in a mixed-method study, capturing qualitatively and quantitatively how a yellow-to-red and reds-only color scheme, as well as interstate or city overlays, impacted their engagement with the graphic. Studying the design features of forecast graphics from a social science perspective before they are operational is important, as the findings from this study reveal how different groups could perceive the graphic.

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