Showing total 41,395 results

1. Modelling the Temperature Inside a Greenhouse Tunnel.

Author

Hull, Keegan, van Schalkwyk, Pieter Daniel, Mabitsela, Mosima, Phiri, Ethel Emmarantia, and Booysen, Marthinus Johannes

Subjects

GREENHOUSES, STANDARD deviations, DIGITAL twins, ELECTRONIC paper, CLIMATE change, AGRICULTURAL productivity, TEMPERATURE control

Abstract

Climate-change-induced unpredictable weather patterns are adversely affecting global agricultural productivity, posing a significant threat to sustainability and food security, particularly in developing regions. Wealthier nations can invest substantially in measures to mitigate climate change's impact on food production, but economically disadvantaged countries face challenges due to limited resources and heightened susceptibility to climate change. To enhance climate resilience in agriculture, technological solutions such as the Internet of Things (IoT) are being explored. This paper introduces a digital twin as a technological solution for monitoring and controlling temperatures in a greenhouse tunnel situated in Stellenbosch, South Africa. The study incorporates an aeroponics trial within the tunnel, analysing temperature variations caused by the fan and wet wall temperature regulatory systems. The research develops an analytical model and employs a support vector regression algorithm as an empirical model, successfully achieving accurate predictions. The analytical model demonstrated a root mean square error (RMSE) of 2.93 °C and an R 2 value of 0.8, while the empirical model outperformed it with an RMSE of 1.76 °C and an R 2 value of 0.9 for a one-hour-ahead simulation. Potential applications and future work using these modelling techniques are then discussed. [ABSTRACT FROM AUTHOR]

Published

2024

2. Feature Papers in Landscape Ecology: An Editorial Overview.

Author

Pearson, Diane, Martínez-López, Javier, Rescia, Alejandro J., Baldwin, Robert, and Martínez Pastur, Guillermo J.

Subjects

LANDSCAPE ecology, URBANIZATION, ECOLOGICAL modernization, CLIMATE change, TRADITIONAL ecological knowledge

Abstract

This document provides an overview of a special issue on landscape ecology, which explores the relationships between ecological and environmental processes in various types of landscapes. The issue includes articles from researchers worldwide, covering topics such as landscape design, climate change interactions, sustainability, and the impact of human activities. The research utilizes tools like remote sensing and GIS to analyze landscape patterns and changes. The articles emphasize the importance of optimizing landscape patterns to reduce environmental degradation and maintain ecosystem services, particularly in the context of urbanization and climate change. The special issue also highlights the interdisciplinary nature of landscape ecology and the significance of cultural perspectives in landscape management. [Extracted from the article]

Published

2024

3. Ninety-Nine Percent? Re-Examining the Consensus on the Anthropogenic Contribution to Climate Change.

Author

Dentelski, David, Damari, Ran, Marmor, Yanir, Niv, Avner, Roses, Mor, and Dubi, Yonatan

Subjects

EFFECT of human beings on climate change, SCIENTIFIC literature

Abstract

Anthropogenic activity is considered a central driver of current climate change. A recent paper, studying the consensus regarding the hypothesis that the recent increase in global temperature is predominantly human-made via the emission of greenhouse gasses (see text for reference), argued that the scientific consensus in the peer-reviewed scientific literature pertaining to this hypothesis exceeds 99%. This conclusion was reached after the authors scanned the abstracts and titles of some 3000 papers and mapped them according to their (abstract) statements regarding the above hypothesis. Here, we point out some major flaws in the methodology, analysis, and conclusions of the study. Using the data provided in the study, we show that the 99% consensus, as defined by the authors, is actually an upper limit evaluation because of the large number of "neutral" papers which were counted as pro-consensus in the paper and probably does not reflect the true situation. We further analyze these results by evaluating how so-called "skeptic" papers fit the consensus and find that biases in the literature, which were not accounted for in the aforementioned study, may place the consensus on the low side. Finally, we show that the rating method used in the study suffers from a subjective bias which is reflected in large variations between ratings of the same paper by different raters. All these lead to the conclusion that the conclusions of the study does not follow from the data. [ABSTRACT FROM AUTHOR]

Published

2023

4. The Impact of Climate on the Energetics of Overwintering Paper Wasp Gynes (Polistes dominula and Polistes gallicus).

Author

Kovac, Helmut, Käfer, Helmut, Petrocelli, Iacopo, Amstrup, Astrid B., and Stabentheiner, Anton

Subjects

WINTER, WASPS, LOW temperatures, ACCLIMATIZATION, WEATHER, GLOBAL warming, CLIMATE change

Abstract

Simple Summary: During overwintering diapause, the gynes of paper wasps (Polistes sp.) are mainly dormant in sheltered hibernacles, protecting them against predators and adverse weather conditions but hardly against low temperatures. By measuring the temperature inside hibernacles occupied by species from both Mediterranean (Italian; P. dominula, P. gallicus) and temperate (Austrian; P. dominula) climates (mean hibernacle temperatures: 8.5 °C and 3.2 °C, respectively), we were able to calculate the energetic demand of overwintering. The cumulative energetic costs differed between the populations. Costs were lowest for the P. dominula population from the cooler Austrian winter climate and significantly higher in P. dominula and P. gallicus from the warmer Italian climate. The lower costs of the temperate species were a result of the lower winter temperature and physiological acclimation processes. Energetic calculations with an assumed temperature increase of up to 3 °C due to climate change predict a dramatic increase of up to 40% in overwintering costs in all species. Gynes of paper wasps (Polistes sp.) spend the cold season in sheltered hibernacles. These hibernacles protect against predators and adverse weather conditions but offer only limited protection against low temperatures. During overwintering diapause, wasps live on the energy they store. We investigated the hibernacles' microclimate conditions of species from the Mediterranean (Italy, P. dominula, P. gallicus) and temperate (Austria, P. dominula) climates in order to describe the environmental conditions and calculate the energetic demand of overwintering according to standard metabolic rate functions. The temperatures at the hibernacles differed significantly between the Mediterranean and temperate habitats (average in Austria: 3.2 ± 5.71 °C, in Italy: 8.5 ± 5.29 °C). In both habitats, the hibernacle temperatures showed variance, but the mean hibernacle temperature corresponded closely to the meteorological climate data. Cumulative mass-specific energetic costs over the studied period were the lowest for the temperate P. dominula population compared with both Mediterranean species. The lower costs of the temperate species were a result of the lower hibernacle temperature and acclimation to lower environmental temperatures. Model calculations with an increased mean temperature of up to 3 °C due to climate change indicate a dramatic increase of up to 40% in additional costs. [ABSTRACT FROM AUTHOR]

Published

2023

5. From Data to Insights: A Bibliometric Assessment of Agent-Based Modeling Applications in Transportation.

Author

Domenteanu, Adrian, Delcea, Camelia, Chiriță, Nora, and Ioanăș, Corina

Subjects

BIBLIOMETRICS, AIR travel, SCIENCE databases, WEB databases, CLIMATE change

Abstract

This paper presents a bibliometric analysis within the research domain dedicated to the utilization of agent-based modeling (ABM) in the field of transportation. By employing specific keywords related to both agent-based modeling and transportation, we have identified and extracted 1016 scholarly papers from the ISI Web of Science database, spanning the period from 2002 to 2023. Through the application of bibliometric methods, we have systematically examined key contributors, affiliations of academic institutions, influential publications, and renowned journals within this domain. Our analysis reveals a consistent and robust growth in scholarly interest pertaining to agent-based modeling in the field of transportation throughout the considered period. Notably, within approximately four decades of ABM's application in transportation, a distinct upward trajectory began in 2008, culminating in the year 2021. The entire considered period witnessed a remarkable surge in paper production, characterized by an annual growth rate of 21.67%. Furthermore, employing an n-gram analysis, we have delineated and discussed the principal areas within transportation that have progressively benefited from the advancements in agent-based modeling. Prominently, the domains of air transport and road transport have exhibited substantial development over time, while the implications of climate change have emerged as a persistent concern throughout the entire study period. [ABSTRACT FROM AUTHOR]

Published

2023

6. Research on the Automatic Subject-Indexing Method of Academic Papers Based on Climate Change Domain Ontology.

Author

Yang, Heng, Wang, Nan, Yang, Lina, Liu, Wei, and Wang, Sili

Abstract

It is important to classify academic papers in a fine-grained manner to uncover deeper implicit themes and semantics in papers for better semantic retrieval, paper recommendation, research trend prediction, topic analysis, and a series of other functions. Based on the ontology of the climate change domain, this study used an unsupervised approach to combine two methods, syntactic structure and semantic modeling, to build a framework of subject-indexing techniques for academic papers in the climate change domain. The framework automatically indexes a set of conceptual terms as research topics from the domain ontology by inputting the titles, abstracts and keywords of the papers using natural language processing techniques such as syntactic dependencies, text similarity calculation, pre-trained language models, semantic similarity calculation, and weighting factors such as word frequency statistics and graph path calculation. Finally, we evaluated the proposed method using the gold standard of manually annotated articles and demonstrated significant improvements over the other five alternative methods in terms of precision, recall and F1-score. Overall, the method proposed in this study is able to identify the research topics of academic papers more accurately, and also provides useful references for the application of domain ontologies and unsupervised data annotation. [ABSTRACT FROM AUTHOR]

Published

2023

7. Exploring GIS Techniques in Sea Level Change Studies: A Comprehensive Review.

Author

Sarrau, Justine, Alkaabi, Khaula, and Bin Hdhaiba, Saif Obaid

Abstract

Sea level change, a consequence of climate change, poses a global threat with escalating impacts on coastal regions. Since 1880, global mean sea level has risen by 8–9 inches (21–24 cm), reaching a record high in 2021. Projections by NOAA suggest an additional 10–12-inch increase by 2050. This paper explores research methodologies for studying sea level change, focusing on Geographic Information System (GIS) techniques. GIS has become a powerful tool in sea level change research, allowing the integration of spatial data, coastal process modeling, and impact assessment. This paper sets the link with sustainability and reviews key factors influencing sea level change, such as thermal expansion and ice-mass loss, and examines how GIS is applied. It also highlights the importance of using different scenarios, like Representative Concentration Pathways (RCP), for accurate predictions. The paper discusses data sources, index variables like the Coastal Vulnerability Index, and GIS solutions for modeling sea level rise impacts. By synthesizing findings from previous research, it contributes to a better understanding of GIS methodologies in sea level change studies. This knowledge aids policymakers and researchers in developing strategies to address sea level change challenges and enhance coastal resilience. Furthermore, global analysis highlights the pivotal roles of the United States and China in sea level change (SLC) and GIS research. In the Gulf Cooperation Council (GCC) region, rising temperatures have substantial impacts on local sea levels and extreme weather events, particularly affecting vulnerable coastal areas. [ABSTRACT FROM AUTHOR]

Published

2024

8. Progress with the Learning Health System 2.0: a rapid review of Learning Health Systems' responses to pandemics and climate change.

Author

Smith, Carolynn L., Fisher, Georgia, Dharmayani, Putu Novi Arfirsta, Wijekulasuriya, Shalini, Ellis, Louise A., Spanos, Samantha, Dammery, Genevieve, Zurynski, Yvonne, and Braithwaite, Jeffrey

Abstract

Background: Pandemics and climate change each challenge health systems through increasing numbers and new types of patients. To adapt to these challenges, leading health systems have embraced a Learning Health System (LHS) approach, aiming to increase the efficiency with which data is translated into actionable knowledge. This rapid review sought to determine how these health systems have used LHS frameworks to both address the challenges posed by the COVID-19 pandemic and climate change, and to prepare for future disturbances, and thus transition towards the LHS2.0. Methods: Three databases (Embase, Scopus, and PubMed) were searched for peer-reviewed literature published in English in the five years to March 2023. Publications were included if they described a real-world LHS's response to one or more of the following: the COVID-19 pandemic, future pandemics, current climate events, future climate change events. Data were extracted and thematically analyzed using the five dimensions of the Institute of Medicine/Zurynski-Braithwaite's LHS framework: Science and Informatics, Patient-Clinician Partnerships, Continuous Learning Culture, Incentives, and Structure and Governance. Results: The search yielded 182 unique publications, four of which reported on LHSs and climate change. Backward citation tracking yielded 13 additional pandemic-related publications. None of the climate change-related papers met the inclusion criteria. Thirty-two publications were included after full-text review. Most were case studies (n = 12, 38%), narrative descriptions (n = 9, 28%) or empirical studies (n = 9, 28%). Science and Informatics (n = 31, 97%), Continuous Learning Culture (n = 26, 81%), Structure and Governance (n = 23, 72%) were the most frequently discussed LHS dimensions. Incentives (n = 21, 66%) and Patient-Clinician Partnerships (n = 18, 56%) received less attention. Twenty-nine papers (91%) discussed benefits or opportunities created by pandemics to furthering the development of an LHS, compared to 22 papers (69%) that discussed challenges. Conclusions: An LHS 2.0 approach appears well-suited to responding to the rapidly changing and uncertain conditions of a pandemic, and, by extension, to preparing health systems for the effects of climate change. LHSs that embrace a continuous learning culture can inform patient care, public policy, and public messaging, and those that wisely use IT systems for decision-making can more readily enact surveillance systems for future pandemics and climate change-related events. Trial registration: PROSPERO pre-registration: CRD42023408896. [ABSTRACT FROM AUTHOR]

Published

2024

9. Nature‐based Solutions for sustainable flood management in East Africa.

Author

Long'or Lokidor, Pauline, Taka, Miho, Lashford, Craig, and Charlesworth, Susanne

Subjects

PUBLIC spaces, CITIES & towns, ECOSYSTEM services, SCHOLARLY publishing, CLIMATE change, DATABASE searching

Abstract

Africa's population is expected to triple by 2050, owing to rapid urbanisation and overall demographic trends. The combined pressures of urbanisation and climate change impact the ecosystem and the services it provides. As a result, additional dangers such as increased flooding, and environmental disruption have risen. Therefore, devising adaptive solutions to mitigate flood risk impacts while also building community resilience is needed. Evidence suggests that Nature‐based Solutions (NbS) can potentially alleviate floods and mitigate climate change impacts while also delivering other societal benefits. Despite rising NbS popularity following its recognition in the last decade, studies on its recognition in Africa remain limited. For this reason, this paper reviewed NbS studies conducted in East Africa (EA) to evaluate opportunities and barriers surrounding NbS adoption in EA. Academic literature published from January 2012 to May 2022 was reviewed using a comprehensive search of the SCOPUS database. Results show 14 papers have been published during the period, with the majority being post‐2020. In addition, the majority of the articles focused on cities and peri‐urban settlements, while public awareness, clear guidelines on performance monitoring, stakeholder inclusion, and diverse demonstration projects were highlighted as potential success factors for the adoption of NbS in EA. [ABSTRACT FROM AUTHOR]

Published

2024

10. Landscape Design and Drawing as Tools for Understanding Climate Emergency and Sustainability.

Author

Nikologianni, Anastasia

Subjects

CLIMATE change, SUSTAINABILITY, BEHAVIOR modification, STAKEHOLDERS, AWARENESS

Abstract

Acknowledging the importance of climate challenges to our environment, landscape and cities, this review focuses on the exploration of visual methods (e.g., design, drawing, sketches) in relation to a deeper understanding of climate emergency and sustainability on a spatial scale. It provides an overview of existing research and highlights the role design and drawing can play in landscape-led projects, as well as the impact these might have on behavioural change and decision-making. Looking at how design and drawing are perceived in landscape architecture and what their contribution is to the narrative of a project as well as the decisions made, this paper establishes a connection between pictorial forms and landscape. At the same time, this paper explores whether visualisations are used in relation to the climate and environmental challenges we face, sharing some light on the role they can play with regards to climate awareness and sustainability and how important they might be for our communities, cities and regions. This review highlights the need for further research around this topic and explains that there is a minor part of the literature looking at ways in which landscape design can be integrated into the wider climate emergency agenda and how this might influence behavioural change and the decision-making of various stakeholders. [ABSTRACT FROM AUTHOR]

Published

2024

11. Who speaks for the university? Social fiction as a lens for reimagining higher education futures.

Author

Mishra, Punya, Oster, Nicole, and Wagner, Phoebe

Abstract

This paper combines social fiction and academic analysis to envision hopeful futures for higher education. At the heart of the exploration is Phoebe Wagner's speculative fiction piece, University, Speaking, which personifies a university grappling with environmental, political, and social change. Phoebe Wagner's first-person narrative highlights the power of collective voice, the importance of centering community, and the urgent need to cultivate resilience and adaptability. Through analysis of key themes, this paper connects Phoebe Wagner's fictional vision to contemporary research on the multi-faceted and complex challenges facing universities today. By integrating artistic and academic perspectives, this paper discusses new possibilities for universities navigating disruption and change. [ABSTRACT FROM AUTHOR]

Published

2024

12. Global Maximum Power Point Tracking of Photovoltaic Module Arrays Based on an Improved Intelligent Bat Algorithm.

Author

Chao, Kuei-Hsiang and Bau, Thi Thanh Truc

Subjects

MAXIMUM power point trackers, ALGORITHMS, CLIMATE change, VOLTAGE

Abstract

In this paper, a method based on an improved intelligent bat algorithm (IIBA) in cooperation with a voltage and current sensor was applied in maximum power point tracking (MPPT) for a photovoltaic module array (PVMA), where the power generation performance of a PVMA was enhanced. Due to the partial shading of the PVMA from climate changes or the surrounding environment, multiple peak values were generated on the power–voltage (P-V) curve, where the conventional MPPT technology could only track the local maximum power point (LMPP), hence the reduction in output power of PVMAs. Therefore, the IIBA-based MPPT was proposed in this paper to solve such issues and to ensure the capability of a PVMA in tracking the global maximum power point (GMPP) and utilization for enhancing the output power of a PVMA. Firstly, the Matlab/Simulink software was used to establish a boost converter model that simulated the actual 4-series–3-parallel PVMA under different shaded conditions, where the P-V curve with 1-peak, 2-peak, 3-peak and 4-peak values were generated. Subsequently, the tracking paces of the conventional bat algorithm (BA) were adjusted according to the gradient of the P-V curve for a PVMA. At the same time, 0.8 times the maximum power point (MPP) voltage Vmp under standard test conditions (STCs) for a PVMA was set as the initial tracking voltage. Lastly, the simulation results proved that under different environmental impacts, the proposed IIBA led to better performances in tracking both dynamic and steady responses. [ABSTRACT FROM AUTHOR]

Published

2024

13. A new approach for configuring modular floating cities: assessing modular floating platforms by means of analytic hierarchy process.

Author

EL-Shihy, Ahmed A.

Subjects

ANALYTIC hierarchy process, CITIES & towns, ANALYTIC network process, LITERATURE reviews, GROUP decision making, DECISION making

Abstract

Floating cities have emerged as an efficient long-term solution over unsustainable practiced solutions to combat the rising seas problem; nevertheless, the world lacks an international, official, and comprehensive framework regarding floating cities. Although previous research approached modular floating city design; however, resulted in configurations with various critical design restrictions mainly regarding interlocking capabilities and space utilization. The purpose of this paper is to offer a new systematic strategy for configuring modular and expandable floating cities without such restrictions. This paper explores Euclidean tilings as a strategy to offer numerous configurations based on regular, semi-regular, and demi-regular tilings. Selecting the ideal configuration is complicated; therefore, both quantitative and qualitative data methods were implemented to attain the objectives. Via an extensive literature review, this research derives key factors for configuring floating cities, then sets a brainstorming session with experts for group decision making before providing findings upon calculations via analytic hierarchy process, one of the most used quantitative data methods of multiple-criteria decision analysis. Through comprehensive literature review: seakeeping, modularity, zoning and circulation, and feasibility have been identified as the most significant criteria in floating city research. It explores the qualities and limitations of triangular, squared, hexagonal, octagonal, and dodecagonal platforms. Regarding criteria, seakeeping was the most significant criterion for platform selection by 53.6%. Regarding platforms, the hexagonal platform scored the highest with 25.31%. Relying on this method and the design considerations presented, numerous dynamic configurations can be offered and assessed through specific contexts without any of the past restrictions. [ABSTRACT FROM AUTHOR]

Published

2024

14. Refocusing on nature: the role of nature reintegration in environmental, mental, and societal wellbeing.

Author

Willis, Royce L., Brymer, Eric, Sharma-Brymer, Vinathe, and Leach, Matthew

Subjects

WELL-being, CLIMATE change, SUSTAINABILITY, URBAN planning, ENVIRONMENTAL degradation

Abstract

This perspective paper investigates the dynamic interplay between wealth, materialism, environmental degradation, and mental health amid escalating challenges of climate change. The paper critically examines how affluence, often a buffer against climate impacts, paradoxically leads to higher consumption and carbon footprints, exacerbating environmental problems. A societal emphasis on materialism contributes to an estrangement from nature, with significant implications for mental health and environmental sustainability. The paper proposes a fundamental shift in addressing these intertwined challenges through reintegration with nature. The paper recommends integrating urban planning, education, mental health, and community engagement strategies to build a sustainable, mentally resilient society more integrated with nature. This approach, supported by future research directions, aims to create a more balanced, environmentally conscious, and mentally healthy world. [ABSTRACT FROM AUTHOR]

Published

2024

15. Interactive effects of armed conflict and climate change on gender vulnerability in Sub-Saharan Africa.

Author

Okoyeuzu, Chinwe Regina, Ujunwa, Angela Ifeanyi, Ujunwa, Augustine, Nkwor, Nelson N., Kalu, Ebere Ume, and Al-Faryan, Mamdouh Abdulaziz Saleh

Subjects

WAR, CLIMATE change, CLIMATE change mitigation, ENVIRONMENTAL degradation, GENDER inequality, GIRLS

Abstract

Purpose: Sub-Saharan Africa (SSA) is regarded as a region with one of the worst cases of armed conflict and climate risk. This paper examines the interactive effect of armed conflict and climate risk on gender vulnerability in SSA. Design/methodology/approach: The difference and system generalised method of movement (GMM) were used to examine the relationship between the variables using annualised data of 35 SSA countries from 1998 to 2019. Findings: The paper found strong evidence that armed conflict and climate change are positive predictors of gender vulnerability. The impact of climate change on gender vulnerability is found to be more direct than indirect. Practical implications: The direct and indirect positive effect of armed conflict and climate change on gender vulnerability implies that climate change drives gender vulnerability through multiple channels. This underscores the need for a multi-disciplinary policy approach to addressing gender vulnerability problem in SSA. Originality/value: The study contributes to the climate action debate by highlighting the need for climate action to incorporate gender inclusive policies such as massive investment in infrastructure and safety nets that offer protection to the most vulnerable girls and women affected by armed conflict and climate change. Societies should as a matter of urgency strive to structural barriers that predispose girls and women to biodiversity loss. Peer review: The peer review history for this article is available at: https://publons.com/publon/10.1108/IJSE-09-2022-0595 [ABSTRACT FROM AUTHOR]

Published

2024

16. The Late Palaeolithic and Mesolithic Settlement of Northern Italy: Problems and Perspectives.

Author

Biagi, Paolo

Subjects

MESOLITHIC Period, PALEOLITHIC Period, CAVES, LAND settlement patterns, CLIMATE change, STONE

Abstract

This paper considers some problems of the Late Palaeolithic and the Mesolithic periods in Northern Italy. More precisely, it deals with chronology, settlement pattern, techno-typological characteristics of knapped stone assemblages, and climatic changes that have taken place in the region from the discovery of the first sites in the 1960s and the excavations that soon followed to the present state of research. The Italian Alps, the Piedmont, and the valleys that descend from the high massifs have yielded important traces of Late Palaeolithic (Final Epigravettian) and Mesolithic (Sauveterrian and Castelnovian) sites and findspots, some of which are rock shelters that were settled throughout several millennia. This paper describes and discusses the evidence available mainly from two regions of the western and eastern Alpine arc, which are characterised by very different landscapes and yielded a great variety of archaeological features. [ABSTRACT FROM AUTHOR]

Published

2024

17. A Review of Machine Learning Techniques in Agroclimatic Studies.

Author

Tamayo-Vera, Dania, Wang, Xiuquan, and Mesbah, Morteza

Subjects

MACHINE learning, SUSTAINABLE agriculture, CLIMATE change adaptation, DEEP learning, AGRICULTURAL technology, AGRICULTURAL innovations, CLIMATE change

Abstract

The interplay of machine learning (ML) and deep learning (DL) within the agroclimatic domain is pivotal for addressing the multifaceted challenges posed by climate change on agriculture. This paper embarks on a systematic review to dissect the current utilization of ML and DL in agricultural research, with a pronounced emphasis on agroclimatic impacts and adaptation strategies. Our investigation reveals a dominant reliance on conventional ML models and uncovers a critical gap in the documentation of methodologies. This constrains the replicability, scalability, and adaptability of these technologies in agroclimatic research. In response to these challenges, we advocate for a strategic pivot toward Automated Machine Learning (AutoML) frameworks. AutoML not only simplifies and standardizes the model development process but also democratizes ML expertise, thereby catalyzing the advancement in agroclimatic research. The incorporation of AutoML stands to significantly enhance research scalability, adaptability, and overall performance, ushering in a new era of innovation in agricultural practices tailored to mitigate and adapt to climate change. This paper underscores the untapped potential of AutoML in revolutionizing agroclimatic research, propelling forward the development of sustainable and efficient agricultural solutions that are responsive to the evolving climate dynamics. [ABSTRACT FROM AUTHOR]

Published

2024

18. Meaningful Review of Existing Trends, Expansion, and Future Directions of Green Bond Research: A Bibliometric Approach.

Author

Riaz, Tabassum, Selama, Aslam Izah, Nor, Normaziah Mohd, and Hassan, Ahmad Fahmi Sheikh

Subjects

GREEN bonds, BUSINESS expansion, CLIMATE change mitigation, SUSTAINABILITY, BIBLIOMETRICS

Abstract

Green bonds serve as an imperative financial tool for mitigating climate change risk and environmental sustainability. It has received significant attention in the current literature, with increased worldwide efforts to fight against global climate change. Yet, the direction of green bonds' literature is currently unclear. Therefore, this paper aims to deliver a comprehensive vision of the literary landscape of green bond research, in consideration of policymakers, major market players, and investors. To achieve this, bibliometric analysis is performed on 342 filtered articles found in the Scopus database, through VOSviewer and Biblioshiny package. A detailed and descriptive evaluation of scholarly data demonstrates the significance of green bonds in accomplishing the objective of sustainable finance and mitigation of climate change. This study broadens our understanding of the literature and conceptual growth of scholarly discussion of green bonds, which gives insight into developing a strong conceptual foundation and future directions for research. [ABSTRACT FROM AUTHOR]

Published

2024

19. Does governance contribute to the public spending - CO2 emissions nexus in developing economies? Policy lessons for sustainable development.

Author

VAN BON NGUYEN

Subjects

PUBLIC spending, CLIMATE change, CARBON dioxide mitigation, EMISSIONS (Air pollution), SUSTAINABLE development, ECONOMIC development, ENVIRONMENTAL protection, DEVELOPING countries

Abstract

Global climate change due to increasing CO2 emissions threatens the development and survival of many countries, especially those on the coast. Intentional government spending by sectors can lower CO2 emissions to help these countries in sustainable development. Meanwhile, governance has some importance in enabling governments to achieve their economic development goals. Does governance affect the public spending - CO2 emissions nexus in developing economies? The paper seeks answers by employing the system GMM Arellano-Bond estimators to assess the impact of public spending, governance/institutional quality, and their interaction on CO2 emissions for a sample of 109 developing economies between 2002 and 2021. The results seem counter-intuitive that public spending reduces and governance increases CO2 emissions, while their interaction lowers them. Furthermore, private investment and economic growth promote CO2 emissions, while trade openness decreases them. The findings in this paper provide some policy lessons for governments of developing economies to protect environment. [ABSTRACT FROM AUTHOR]

Published

2024

20. Does Environmental Change Affect Migration Especially into the EU?

Author

Moawad, Dina

Subjects

NATURAL disasters, LITERATURE reviews

Abstract

Environmental shock migration is a pressing phenomenon that became prominent with the continuous emergence of natural disasters and climatic shocks worldwide. In order to cope with these various disasters or shocks, people choose to migrate either internally, internationally, permanently, or temporarily; the paper named this phenomenon "environmental shock migration". For a holistic understanding, this paper analyzes the impact of environmental changes on migration and discusses the relevant consequences, specifically in the EU region. The paper demonstrates that natural disasters and climatic shocks as environmental changes lead to several forms of shock migration and differ depending upon the context of migration, the duration, the number of migrants, and the region. A comprehensive literature review will be provided to tackle the work of previous scholars and identify the gaps required to be studied in the future. [ABSTRACT FROM AUTHOR]

Published

2024

21. Treeline remote sensing: from tracking treeline shifts to multi‐dimensional monitoring of ecotonal change.

Author

Garbarino, Matteo, Morresi, Donato, Anselmetto, Nicolò, and Weisberg, Peter J.

Subjects

TIMBERLINE, AERIAL photography, REMOTE-sensing images, REMOTE sensing, IMAGE recognition (Computer vision), ENVIRONMENTAL sciences

Abstract

Remote sensing applications have a long history in treeline research. Recent reviews have examined the topic mainly from a methodological point of view. Here, we propose a question‐oriented review of remote sensing in treeline ecology to relate remote sensing methodologies to key ecological metrics and identify knowledge gaps and promising areas for future research. We performed a meta‐analysis to assess the role of remote sensing as a tool for measuring spatial patterns and dynamics of alpine and Arctic treeline ecotone globally. We assessed the geographic distribution, scale of analysis, and relationships between remote sensing techniques and treeline ecological metrics through co‐occurrence mapping and multivariate statistics. Our analysis revealed that only 10% of treeline ecology studies applied remote sensing tools, often associated with the keyword 'climate change'. Monitoring studies adopted coarser spatial resolutions over longer temporal extents in comparison with other treeline studies. A multiscale and multi‐sensor spatial approach was implemented in just 19% of papers. Long‐term research commonly relied on aerial and oblique photography to measure treeline shifts through photointerpretation within a multidisciplinary framework. More recent treeline dynamics were often quantified using greenness trends derived from the pixel‐based classification of satellite images. Many recent short‐term studies focused on delineating tree scale metrics derived from the object‐based classification of uncrewed aerial vehicle (UAV) images or LiDAR data. Over the past decade, high‐resolution and low‐cost UAV remote sensing has emerged as an interesting opportunity to fill the gap between local‐scale ecological patterns and coarse‐resolution satellite sensors. Additionally, treeline remote sensing applications would strongly benefit from multidisciplinary frameworks that integrate field studies in ecology and environmental science. The multi‐dimensional structural complexity of treelines typically responds to environmental drivers over multiple scales and thus is best described with multiscale and multi‐sensor approaches. [ABSTRACT FROM AUTHOR]

Published

2023

22. Sustainable socio-ecological transformations in agriculture: cases from South Asia.

Author

Garimella, Pranav Prakhyat and Prakash, Anjal

Subjects

CLIMATE change adaptation, HEAT waves (Meteorology), AGRICULTURE

Abstract

Climate change is becoming a defining factor for communities in South Asia. Forming one-fifth of the world population, the region increasingly faces climate-induced disasters such as floods, droughts, heatwaves, cyclones etc. This region also has one of the world's poorest people who struggle to cope with the rapidly changing climatic conditions. Agriculture still employs many people in the region, one of the worst-hit sectors. Agriculture will become untenable in some parts of the region due to climate change. Monsoon patterns have changed, and agriculture does not guarantee sustainable income for the vast majority. Many climate change adaptations have been initiated in the region in response to the threat of climate change. Scholars and practitioners feel that these adaptations must be transformative to be effective. In this paper, we examine eight such adaptations from three South Asian Countries – Bangladesh, India, and Nepal, from the lens of transformative adaptation. We found that no single adaptation initiative meets all the criteria for sustainable socio-ecological transformations. However, there is a significant overlap between different typologies of transformation as envisaged in the paper and literature. We conclude that the concept of socio-ecological transformation is new for South Asia, so integrating it into the programmes and policies is the need of the hour. [ABSTRACT FROM AUTHOR]

Published

2023

23. Climate change, lizard populations, and species vulnerability/persistence: trends in ecological and predictive climate studies.

Author

Cosendey, Beatriz Nunes, Rocha, Carlos Frederico Duarte, and Menezes, Vanderlaine Amaral

Subjects

LIZARD populations, CLIMATE change, GLOBAL warming, SPECIES, LIZARDS

Abstract

The impact of climate change on the Earth's environments has been widely discussed, although there is still little consensus on the degree of influence, and to what extent the effects are positive, negative or neutral. Predicting the impacts of climate change on organisms and their response to this process has been a growing challenge for ecologists in recent years. In this review, we surveyed the published research on the relationship between lizards and global climate change. We surveyed the keywords "climate change" and "warming", combined with "lizard*" (there is, all words with this prefix), in three reference databases. We identified 401 relevant papers, and analyzed in further detail the group of studies (59 papers, 14.7% of the total) that developed thermoregulatory models to predict the persistence of lizards in a scenario of global warming. These 59 papers focused on species of 13 lizard families found on five continents. Overall, 62.5% of the papers that predicted the impacts of climate change on lizards indicated negative effects, while 21.9% reported positive effects, and 15.6%, a neutral scenario. The lizards identified as the most vulnerable to warming were tropical, viviparous, and thermoconformers, whereas species adapted to cooler climates would be the most likely to benefit from warming. On a broader scale, however, this scenario would lead to competition between lowland and highland lizards, for example, for thermally favorable areas. We conclude that it will be important to develop more detailed models that contemplate the specific features of each group for the development of more reliable predictions, in addition to the need for social conservation projects and the systematic identification of priority areas for conservation. [ABSTRACT FROM AUTHOR]

Published

2023

24. Challenges to Water Resource Management: The Role of Economic and Modeling Approaches.

Author

Dinar, Ariel

Subjects

WATER management, ECONOMIC models, COMPUTABLE general equilibrium models, WATER shortages, DEVELOPMENT economics, SALINE water conversion

Abstract

The field of water management is continually changing. Water has been subject to external shocks in the form of climate change and globalization. Water management analysis is subject to disciplinary developments and inter-disciplinary interactions. Are these developments well-documented in the literature? Initial observations in the interdisciplinary literature suggest that results are fragmented, implying that a state-of-the-art review is needed. This paper aims to close such a gap by reviewing recent developments in water economics that address increasing perceptions of water scarcity by looking first at changes in the supply and quality of water and then at the impacts of climate change on water supply extremes. Among responses to such challenges, this paper identifies changes to water use patterns by including and co-managing water from different sources, including surface and groundwater, reclaimed wastewater, and desalinated water. Technological advancements are also among the resources that address water challenges. Water challenges are also reflected in the management of internationally shared water. A recent surge in scientific work identified international treaties as a significant contributor to international water management. This paper reviews recently employed economic approaches, such as experimental economics, game theory, institutional economics, and valuation methods. And, finally, it explores modeling approaches, including hydro-economic and computable general equilibrium models, that are being used to deal with water challenges. [ABSTRACT FROM AUTHOR]

Published

2024

25. Remote Data for Mapping and Monitoring Coastal Phenomena and Parameters: A Systematic Review.

Author

Cavalli, Rosa Maria

Subjects

COASTAL mapping, GEOGRAPHIC names, DATA mapping, LAND cover, URBAN growth, COASTS

Abstract

Since 1971, remote sensing techniques have been used to map and monitor phenomena and parameters of the coastal zone. However, updated reviews have only considered one phenomenon, parameter, remote data source, platform, or geographic region. No review has offered an updated overview of coastal phenomena and parameters that can be accurately mapped and monitored with remote data. This systematic review was performed to achieve this purpose. A total of 15,141 papers published from January 2021 to June 2023 were identified. The 1475 most cited papers were screened, and 502 eligible papers were included. The Web of Science and Scopus databases were searched using all possible combinations between two groups of keywords: all geographical names in coastal areas and all remote data and platforms. The systematic review demonstrated that, to date, many coastal phenomena (103) and parameters (39) can be mapped and monitored using remote data (e.g., coastline and land use and land cover changes, climate change, and coastal urban sprawl). Moreover, the authors validated 91% of the retrieved parameters, retrieved from remote data 39 parameters that were mapped or monitored 1158 times (88% of the parameters were combined together with other parameters), monitored 75% of the parameters over time, and retrieved 69% of the parameters from several remote data and compared the results with each other and with available products. They obtained 48% of the parameters using different methods, and their results were compared with each other and with available products. They combined 17% of the parameters that were retrieved with GIS and model techniques. In conclusion, the authors addressed the requirements needed to more effectively analyze coastal phenomena and parameters employing integrated approaches: they retrieved the parameters from different remote data, merged different data and parameters, compared different methods, and combined different techniques. [ABSTRACT FROM AUTHOR]

Published

2024

26. Knowledge Structure of New Energy Vehicle Policy Research: Mapping analysis and future research agenda.

Author

Shaikh, Ruqia, Qazi, Asim, Xiaoli Wang, and Kassi, Diby Francois

Subjects

ELECTRIC vehicle laws, ELECTRIC vehicles, CARBON dioxide mitigation, CLIMATE change, BIBLIOMETRICS

Abstract

Globally, transport is responsible for 23% of energyrelated carbon dioxide emissions and 80% of these emissions are attributable to road transport. Significant transformations, including extensive electrification of the sector, are necessary to achieve climate change goals. To understand new energy vehicle (NEV) policy research, we explore the status, knowledge base and research frontiers of NEV policy research by studying 355 papers collected from the Web of Science™ (WoS) Core Collection database. We map NEV policy research trends and knowledge structure development using knowledge domain technology and bibliometric techniques. The knowledge base analysis shows that: (a) NEV policy formation and evaluation; (b) policy incentives and consumer adoption; and (c) consumer preferences towards NEV adoption are all essential knowledge foundations in NEV policy research and development (R&D). The efficiency of NEV policy, cost-effectiveness of alternative fuel vehicles (AFVs), consumer preferences for NEV adoption, hydrogen energy and fuel cell vehicles, climate policy and CO2 emissions are five main lines of research in NEV policy studies. With the highest number of publications from Tsinghua University, China is the most active country in NEV policy research. Energy Policy, Sustainability and Journal of Cleaner Production are the core journals and Energy and Fuels and Environmental Sciences are the core disciplines of NEV policy research. The findings of this analysis help policymakers and researchers to navigate the literature on NEV, provide a clear map of existing works, identify the gaps and recommend promising avenues for future studies. [ABSTRACT FROM AUTHOR]

Published

2024

27. Sustainable Development in the Sahel Region.

Author

Szőke, Júlia and Jankovits, Kata D.

Subjects

SUSTAINABLE agriculture, NATURAL resources, CLIMATE change, SCIENTISTS

Abstract

Scientists from various fields have long examined the factors contributing to sustainable development in Africa. The paper investigates the topic of sustainable development focusing on a very special part of Africa, the Sahel region, which is an ecoclimatic and biogeographic region of Africa facing many challenges. Consequently, the secondary research to be presented in this paper aims to review some projects and actions taken by various organizations, like the United Nations and the African Union, that stimulate sustainable development in the Sahel region. Accordingly, it focuses on a few of those projects and actions, which, on the one hand, enable sustainable agriculture, the reduction of malnutrition and food insecurity, and water usage combined with latrine construction, and which, on the other hand, enhance natural resource management and increasing resilience to climate change. The paper concludes with some remarks regarding the efficacy of these projects and actions from the viewpoint of sustainability, and finds that even though these projects and actions are of significance, there is still a long road ahead to reach sustainable development in the Sahel region. [ABSTRACT FROM AUTHOR]

Published

2023

28. Analysis of Nature-Based Solutions Research Trends and Integrated Means of Implementation in Climate Change.

Author

Choi, Eunho, Kim, Raehyun, Chae, Jeongyeon, Yang, A-Ram, Jang, Eunjo, and Lee, Ki Yong

Subjects

SOCIAL engineering (Political science), SOCIAL change, CLIMATE change

Abstract

Nature-based solutions (NbS) is an approach to solving climate change and social issues based on nature. Despite NbS being widely studied as an effective method to solve social problems, the trends in NbS research have hardly been analyzed. Therefore, this study examined change patterns in NbS-related research topics over time and analyzed the interactions of NbS research and relevant activities in various fields. After reviewing research papers based on the search term 'nature-based solutions' on Scopus, and collecting 1567 research papers, we conducted dynamic topic modeling (DTM) and network analysis. The papers were classified into 19 topics via DTM. Water, forest, and urban topics made up the greatest portion of NbS research, while NbS topics in the forest sector showed a steady increase over time. This study also found close connections between NbS studies on forests and other sectors and confirmed that the forest sector can become an integrated means of contributing to climate change responses and other resultant social issues. This study demonstrates that DTM and network analysis are useful tools for understanding the trends in NbS research and finding the linkages between various fields. [ABSTRACT FROM AUTHOR]

Published

2023

29. THE GROWING DEBT BURDENS OF GLOBAL SOUTH COUNTRIES: STANDING IN THE WAY OF CLIMATE AND DEVELOPMENT GOALS.

Author

Vasic-Lalovic, Ivana, Merling, Lara, Vladoi, Alexandru, and Wu, Aileen

Subjects

DEVELOPING countries, CLIMATE change, DEBT service, EXTERNAL debts, DISTRESSED securities

Abstract

This paper analyses the available data on external debt burdens of low- and middle-income countries and identifies 79 countries that are considered by international institutions as being in or at risk of debt distress. In the context of the ongoing climate crisis, high debt burdens hamper the ability of these country to invest in climate resilience. This paper shows the effects that servicing debt has on these countries' ability to respond to climate disasters, as well as provide services to their population. The paper shows how developing countries are trapped in a vicious cycle, which keeps them indebted and perpetuates vulnerability to the effects of climate change, as well as hampering their development path. The response so far from the international financial community has been inadequate to help countries break this vicious cycle. [ABSTRACT FROM AUTHOR]

Published

2023

30. Paper-Based Multiplex Sensors for the Optical Detection of Plant Stress.

Author

Zedler, Marie, Tse, Sze Wai, Ruiz-Gonzalez, Antonio, and Haseloff, Jim

Subjects

OPTICAL sensors, ELECTRONIC equipment, ELECTRONIC noses, CLIMATE change, GAS detectors, ABIOTIC stress

Abstract

The rising population and the ongoing climate crisis call for improved means to monitor and optimise agriculture. A promising approach to tackle current challenges in food production is the early diagnosis of plant diseases through non-invasive methods, such as the detection of volatiles. However, current devices for detection of multiple volatiles are based on electronic noses, which are expensive, require complex circuit assembly, may involve metal oxides with heating elements, and cannot easily be adapted for some applications that require miniaturisation or limit front-end use of electronic components. To address these challenges, a low-cost optoelectronic nose using chemo-responsive colorimetric dyes drop-casted onto filter paper has been developed in the current work. The final sensors could be used for the quantitative detection of up to six plant volatiles through changes in colour intensities with a sub-ppm level limit of detection, one of the lowest limits of detection reported so far using colorimetric gas sensors. Sensor colouration could be analysed using a low-cost spectrometer and the results could be processed using a microcontroller. The measured volatiles could be used for the early detection of plant abiotic stress as early as two days after exposure to two different stresses: high salinity and starvation. This approach allowed a lowering of costs to GBP 1 per diagnostic sensing paper. Furthermore, the small size of the paper sensors allows for their use in confined settings, such as Petri dishes. This detection of abiotic stress could be easily achieved by exposing the devices to living plants for 1 h. This technology has the potential to be used for monitoring of plant development in field applications, early recognition of stress, implementation of preventative measures, and mitigation of harvest losses. [ABSTRACT FROM AUTHOR]

Published

2023

31. Effect of Climate Change Litigation and Court Decision on Corporate Stock Price.

Author

Ngwakwe, Collins

Subjects

STOCK prices, LEGAL judgments, CLIMATE change, ACTIONS & defenses (Law), COMMERCIAL law, CONCEPTUAL models

Abstract

climate litigation rulings are widely viewed as the ultimate tool to enforce climate compliance. The objective of this paper is to evaluate whether a ruling on climate litigation has an impact on corporate share price and the direction of the effect. Prior work inclination is on the concept of climate law entropy and the recent case ruling on Lufthansa's climate litigation. The methodology is mixed with a review of relevant literature and mini-quantification of value difference using a t-test to analyse difference in mean share price before and after climate litigation ruling on Lufthansa, and finally a formulation of framework. Findings show that unlike previous ubiquitous literature findings, the share price of Lufthansa experienced a significant increase in value after the climate litigation ruling with a significant p-value of less than 0.01 (which indicates high significance level of difference in share price). The paper has practical and theoretical implications, for business law academics and for practitioners. Climate litigation may serve a dual role of enforcing climate law compliance and instilling corporate legitimacy. The paper contributes original value to corporate climate litigation literature by proposing a novel conceptual framework for understanding the diverse differential impact of climate litigation on corporate share price. [ABSTRACT FROM AUTHOR]

Published

2023

32. Current knowledge of Holothuriida (Holothuroidea: Echinodermata) from Brazil.

Author

Prata, Jéssica and Christoffersen, Martin Lindsey

Subjects

ECHINODERMATA, CLIMATE change, WILDLIFE conservation, ENVIRONMENTAL degradation, GENETIC distance, SEA cucumbers

Abstract

Sea cucumbers are the second most diverse class among echinoderms. They are characterized by an elongated body and dermal ossicles in the body wall. Among the included groups in that class, the order Holothuriida encompasses many species of commercial interest. Faced with the threats of biodiversity loss resulting from the climate crisis and the advancement of cities, this study provides an overview of recent research involving the Holothuriida of the Brazilian Coast. Searches were carried out in the main periodical databases, using appropriate keywords, targeting publications on the subject in the period between 2000 and 2023. In total, 69 publications were found, most of them corresponding to scientific articles in international journals. Most of the studies come from the Northeast region in Brazil (56.52%). Regarding lines of research, those involving taxonomy and molecular analysis were the most prevalent. Over these 20 years, seven species constituted new occurrences. Of note are the studies focused on Holothuria (Halodeima) grisea, which makes up 39.13% of papers. Despite progress, little is known about morphological variations, genetic distance between populations, population densities, and on reproductive biology of species. Brazil has a vast, heterogeneous coastal area, with unique characteristics to which the species are adapted. The findings reinforce the importance to expand studies aiming on knowing the biodiversity, reproductive biology, and population densities of species. Such data are essential for the creation of public policies aimed at the conservation of species of Holothuriida and their habitats. [ABSTRACT FROM AUTHOR]

Published

2024

33. Editorial: The impacts of anthropogenic activity and climate change on the formation of harmful algal blooms (HABs) and its ecological consequence.

Author

Zhangxi Hu, Aifeng Li, Zhun Li, and Mulholland, Margaret R.

Subjects

EFFECT of human beings on climate change, ALGAL blooms, ANTHROPOGENIC effects on nature, CHRYSOPHYCEAE, FOSSIL diatoms, ECOPHYSIOLOGY, MARINE phytoplankton, CLIMATE change

Abstract

This document summarizes a collection of research papers on the effects of anthropogenic activities and climate change on harmful algal blooms (HABs) in marine and freshwater ecosystems. The papers discuss topics such as the discharge of nutrients into water systems, eutrophication, and the increase in frequency and severity of HABs worldwide. They also explore the diversity, growth, toxins, and toxicity of harmful algae, as well as mitigation strategies. The studies provide valuable insights into the impact of human activities on HAB-forming species and the need for further research and mitigation efforts. [Extracted from the article]

Published

2024

34. Methane Retrieval Algorithms Based on Satellite: A Review.

Author

Jiang, Yuhan, Zhang, Lu, Zhang, Xingying, and Cao, Xifeng

Abstract

As the second most predominant greenhouse gas, methane-targeted emission mitigation holds the potential to decelerate the pace of global warming. Satellite remote sensing is an important monitoring tool, and we review developments in the satellite detection of methane. This paper provides an overview of the various types of satellites, including the various instrument parameters, and describes the different types of satellite retrieval algorithms. In addition, the currently popular methane point source quantification method is presented. Based on existing research, we delineate the classification of methane remote sensing satellites into two overarching categories: area flux mappers and point source imagers. Area flux mappers primarily concentrate on the assessment of global or large-scale methane concentrations, with a further subclassification into active remote sensing satellites (e.g., MERLIN) and passive remote sensing satellites (e.g., TROPOMI, GOSAT), contingent upon the remote sensing methodology employed. Such satellites are mainly based on physical models and the carbon dioxide proxy method for the retrieval of methane. Point source imagers, in contrast, can detect methane point source plumes using their ultra-high spatial resolution. Subcategories within this classification include multispectral imagers (e.g., Sentinel-2, Landsat-8) and hyperspectral imagers (e.g., PRISMA, GF-5), contingent upon their spectral resolution disparities. Area flux mappers are mostly distinguished by their use of physical algorithms, while point source imagers are dominated by data-driven methods. Furthermore, methane plume emissions can be accurately quantified through the utilization of an integrated mass enhancement model. Finally, a prediction of the future trajectory of methane remote sensing satellites is presented, in consideration of the current landscape. This paper aims to provide basic theoretical support for subsequent scientific research. [ABSTRACT FROM AUTHOR]

Published

2024

35. Relationship among weather variation, agricultural production, and migration: A systematic methodological review.

Author

Sarker, Bishwajit, Alam, Masud, and Uddin, Md. Jamal

Abstract

Background and Aims: Two main problems the globe currently facing are migration and weather variation. Weather change has a significant impact on the agricultural industry, which affects the majority of poor people. There is a dearth of adequate methodological documentation when examining the relationship between weather variation, agricultural output, and migration. We aimed to identify methodological reporting difficulties by reviewing the quantitative literature on weather‐related migration through agricultural channels. Methods: A systematic evaluation was conducted using papers published between January 2010 and June 2022, indexed in the SCOPUS, PUBMED, and Google Scholar databases. Using inclusion/exclusion criteria, we selected 22 original research articles out of 18,929 distinct articles for review, in accordance with the PRISMA guidelines. We extracted data from each study to understand how various concepts, research designs, and investigative techniques influence our understanding of migration patterns related to weather in the agricultural sector. Results: The majority (64%) of the study's data consisted of time series data. In 50% of the studies, secondary data were used. Additionally, 55% of these studies did not state the sample size. In 40% of the studies, model assumptions were fully adhered to, whereas in 36% of the studies, they were not followed at all. The majority of the articles used the Ordinary Least Squares technique, while about 41% applied the Two‐Stage Least Squares technique. Various tests were conducted across these studies, such as robustness checks (59.1%), endogeneity tests (31.8%), omitted variable bias tests (22.7%), sensitivity analyses (22.7%), and weak instrument tests (13.6%), to name a few. In the research we selected, the methodology section had various shortcomings and lacked organization. Furthermore, the justifications for deviations from model assumptions were unclear, potentially affecting the study outcomes. Conclusion: This study has important indications for researchers in studying climatic (weather) migration through agricultural channels besides for policymakers by giving a thorough review of the methods and techniques. Key points: Providing narrative insights on how various issues, research designs, and analytical techniques shape our understanding of the association between weather variation and migration via agricultural production.Providing a broad overview of the pertinent literature, covering 22 articles, as a complement to earlier studies.Our study has important ramifications for researchers studying climatic (weather) migration through agricultural channels as well as for policymakers by giving a thorough review of the methods and techniques currently used in this sector.Future studies on weather variation, agricultural production, and migration should use prudent and comparable models that capture whole climatic (weather) impacts on migration through mediating factors like agricultural production. [ABSTRACT FROM AUTHOR]

Published

2024

36. Principles to guide research and policy on psychological well-being in remote island developing states in the South Pacific.

Author

Orbán, Levente L.

Subjects

PSYCHOLOGICAL well-being, PSYCHOLOGICAL research, CLIMATE change, PSYCHOLOGICAL resilience, MENTAL health

Abstract

Adverse climatic changes around the globe and predictions of catastrophic and irreversible alteration in global weather patterns, temperature rise, and coast-line habitability require a careful examination of consequences on the resilience and mental health of people who will endure these changes. This paper is concerned with the South Pacific region. This geography has benefited from a relatively stable climate that is seen in the lush and vibrant natural world with many unique species of plants and animals exclusively found here. This paper examines the psychological profile of the people in the South Pacific using an evolutionary framework, and considers their local climate risks and lifestyle patterns with the aim of exploring possible mental health trajectories. [ABSTRACT FROM AUTHOR]

Published

2024

37. Prediction of groundwater level using GMDH artificial neural network based on climate change scenarios.

Author

Azizi, Ehsan, Yosefvand, Fariborz, Yaghoubi, Behrouz, Izadbakhsh, Mohammad Ali, and Shabanlou, Saeid

Subjects

ARTIFICIAL neural networks, WATER table, GREENHOUSE gases, WATER supply, CLIMATE change, STATISTICAL models

Abstract

One of the main challenges regarding the prediction of groundwater resource changes is the climate change phenomenon and its impacts on quantitative variations of such resources. Groundwater resources are treated as one of the main strategic resources of any region. Given the climate change phenomenon and its impacts on hydrological parameters, it is necessary to evaluate and predict future changes to achieve an appropriate plan to maintain and preserve water resources. In this regard, the present study is put forward by utilizing the Statistical Down-Scaling Model (SDSM) to forecast the main climate variables (i.e., temperature and precipitation) based on new Rcp scenarios for greenhouse gas emissions within a period from 2020 to 2060. The results obtained from the prediction of climate parameters indicate different values in each emission scenario, so the limit, minimum and maximum values occur in the Rcp8.5, Rcp2.6 and Rcp4.5 scenarios, respectively. Also, a model is developed by utilizing the GMDH artificial neural network technique. The developed model predicts the average groundwater level based on the climate variables in such a way that by implementing the climate parameters forecasted by the SDSM model, the groundwater level within a time period from 2020 to 2060 is predicted. The results obtained from the verification and validation of the model imply its proper performance and reasonable accuracy in predicating groundwater level based on the climate variables. The findings derived from the present paper indicate that compared to the years prior to the prediction period, the groundwater level of the Sahneh Plain has dramatically dropped so that based on the Rcp scenarios, the groundwater level values are in their lowest state within the period from 2046 to 2056. The findings of this paper can be used by managers and decision makers as a layout for evaluating climate change effects in the Sahneh Plain. [ABSTRACT FROM AUTHOR]

Published

2024

38. The Impact of Climate Change on the Failure of Water Supply Infrastructure: A Bibliometric Analysis of the Current State of Knowledge.

Author

Żywiec, Jakub, Szpak, Dawid, Wartalska, Katarzyna, and Grzegorzek, Martyna

Abstract

With ongoing climate change, new threats appear to the operation of water supply systems (WSSs), which are related to the amount of available drinking water resources, its quality, the operation of existing water supply infrastructure and changes in consumer behavior. The paper presents a bibliometric analysis of the state of knowledge on the impact of climate change on the failure of water supply infrastructure. The bibliometric analysis was performed based on the VOSviewer program. The results of the analysis indicate current research trends in this area around the world and allow the identification of strengths and weaknesses. Most research concerns the identification of factors related to the impact of climate on the failure rate of water distribution systems. A popular research topic was also the prediction of water supply network failures, taking into account the impact of climatic factors. The main research gap is determining the impact of climate change on water quality. The acquired knowledge can be used by water companies, policy-makers and other researchers to plan adaptation strategies to climate change, which pose new challenges for the operation of water supply systems. The conducted bibliometric analysis also allowed for identifying research gaps. [ABSTRACT FROM AUTHOR]

Published

2024

39. Sustainable Adaptation Plan in Response to Climate Change and Population Growth in the Iraqi Part of Tigris River Basin.

Author

Saeed, Fouad H., Al-Khafaji, Mahmoud Saleh, Al-Faraj, Furat A. Mahmood, and Uzomah, Vincent

Abstract

Climate change and population growth play crucial roles in the planning of future water resources management strategies. In this paper, a balancing between projected water resources and water demands in the Iraqi Part of the Tigris River Basin (TRB) was evaluated till the year 2080 based on RCPs 2.6, 4.5 and 8.5 and population growth. This paper examined a sustainable adaptation plan of water resources in the TRB considering three scenarios; (S1) as no change in the current strategy, (S2) as improved irrigation efficiency and (S3) as improved irrigation and municipal water use efficiency. The results showed a decline in streamflow will occur in the range from 5 to 18.4% under RCP 2.6 and RCP 8.5, respectively. The minimum increase in water demand is expected for RCP 2.6 (maximum increase for RCP 8.5) by 51.8 (208.2), 9.9 (42) and 1.2 (7)% for the municipal–industrial, irrigation and environmental water demands, respectively, compared with the RP. The main finding indicated that S1 is the worst scenario, with water stress in four provinces, especially on the warmest RCP. Whereas, under S2 and S3 conditions, water stress can be eliminated. Increasing ambition towards adaptation becomes obligatory for developing sustainable water sources, supporting water food securities and increasing resilience towards climate change. [ABSTRACT FROM AUTHOR]

Published

2024

40. The nexus of global challenges and global studies: a trans-disciplinary global sustainability science curriculum.

Author

Wittmann, Veronika and Meissner, Dieter

Subjects

GLOBAL studies, EARTH (Planet), ACHIEVEMENT, SCIENCE education, SUSTAINABLE design, SUSTAINABILITY

Abstract

The size and number of global threats to humanity's at least cultural survival on the very small blue planet of Earth is growing. Exponential population growth and additionally exponential growth of all kinds of consumption have led to the planet's limits finally being exceeded in the final quarter of the last century. Meanwhile this growth has already probably generated irreversible changes in the world which have brought or will bring the climate very soon beyond "tipping points" leading to "runaway effects", endangering mankind or at least its cultural achievements. Science and education need to provide pathways for survival and the design of a sustainable future, and thereby replace having to deal with short-term and small problems by tackling these global threats. This paper discusses these issues, underlines the significance of global studies and outlines approaches to the design of a trans-disciplinary global sustainability science curriculum. [ABSTRACT FROM AUTHOR]

Published

2024

41. Empathy, Education, and Awareness: A VR Hackathon's Approach to Tackling Climate Change.

Author

AlQallaf, Noor, Elnagar, Dalia W., Aly, Sherif G., Elkhodary, Khalil I., and Ghannam, Rami

Abstract

Climate change education is crucial for fostering informed and engaged future generations. However, traditional pedagogies often fail to engage learners fully and provide real-world, experiential learning. This paper presents a novel approach to climate change education through a three-day virtual reality (VR) hackathon. The hackathon focused on four United Nations (UN) Sustainable Development Goals (SDGs)—Quality Education, Affordable and Clean Energy, Sustainable Cities and Communities, and Climate Action. Using VR technology and game design software, engineering students worked in teams. They competed against each other in designing immersive environments that demonstrated their understanding of these SDGs and climate change. Our goal was to encourage the development of empathy, education, and awareness around these critical global issues. The hackathon also integrated authentic assessments, mirroring real-world engineering tasks and providing a more practical and relevant learning experience. Our findings suggest that this VR hackathon has significantly enhanced students' understanding of the SDGs and climate change issues, their competency with VR technologies, as well as their teamwork and problem-solving skills. This paper discusses the hackathon's design, implementation, and outcomes, highlighting the potential of such innovative approaches in tackling climate change education and awareness. [ABSTRACT FROM AUTHOR]

Published

2024

42. The impact of climate change news on the US stock market.

Author

Fedorova, Elena and Iasakova, Polina

Subjects

FINANCIAL markets, STOCK price indexes, ECONOMIC indicators, SENTIMENT analysis, CONTENT analysis, NATURAL disasters

Abstract

Purpose: This paper aims to investigate the impact of climate change news on the dynamics of US stock indices. Design/methodology/approach: The empirical basis of the study was 3,209 news articles. Sentiment analysis was performed by a pre-trained bidirectional FinBERT neural network. Thematic modeling is based on the neural network, BERTopic. Findings: The results show that news sentiment can influence the dynamics of stock indices. In addition, five main news topics (finance and politics natural disasters and consequences industrial sector and Innovations activism and culture coronavirus pandemic) were identified, which showed a significant impact on the financial market. Originality/value: First, we extend the theoretical concepts. This study applies signaling theory and overreaction theory to the US stock market in the context of climate change. Second, in addition to the news sentiment, the impact of major news topics on US stock market returns is examined. Third, we examine the impact of sentimental and thematic news variables on US stock market indicators of economic sectors. Previous works reveal the impact of climate change news on specific sectors of the economy. This paper includes stock indices of the economic sectors most related to the topic of climate change. Fourth, the research methodology consists of modern algorithms. An advanced textual analysis method for sentiment classification is applied: a pre-trained bidirectional FinBERT neural network. Modern thematic modeling is carried out using a model based on the neural network, BERTopic. The most extensive topics are "finance and politics of climate change" and "natural disasters and consequences." [ABSTRACT FROM AUTHOR]

Published

2024

43. A Comprehensive Review of Assessing Storm Surge Disasters: From Traditional Statistical Methods to Artificial Intelligence-Based Techniques.

Author

Zhang, Yuxuan and Zhang, Tianyu

Subjects

STORM surges, ARTIFICIAL intelligence, CLIMATE change, DISASTERS, SEA level

Abstract

In the context of global climate change and rising sea levels, the adverse impacts of storm surges on the environment, economy, and society of affected areas are becoming increasingly significant. However, due to differences in geography, climate, and other conditions among the affected areas, a single method for assessing the risk of storm surge disasters cannot be fully applicable to all regions. To address this issue, an increasing number of new methods and models are being applied in the field of storm surge disaster risk assessment. This paper introduces representative traditional statistical methods, numerical simulation methods, and artificial intelligence-based techniques in this field. It compares these assessment methods in terms of accuracy, interpretability, and implementation difficulty. The paper emphasizes the importance of selecting appropriate assessment methods based on specific conditions and scientifically combining various methods in practice to improve the accuracy and reliability of storm surge disaster risk assessments. [ABSTRACT FROM AUTHOR]

Published

2024

44. An Appraisal of the Progress in Utilizing Radiosondes and Satellites for Monitoring Upper Air Temperature Profiles.

Author

Mashao, Frederick M., Demoz, Belay, Kifle, Yehenew, Klopper, Danitza, Chikoore, Hector, Sakai, Ricardo K., and Ayisi, Kingsley K.

Subjects

UPPER air temperature, NUMERICAL weather forecasting, RADIOSONDES, ATMOSPHERIC boundary layer, WEATHER forecasting, BIBLIOMETRICS, ATMOSPHERIC water vapor measurement

Abstract

Upper air temperature measurements are critical for understanding weather patterns, boundary-layer processes, climate change, and the validation of space-based observations. However, there have been growing concerns over data discrepancies, the lack of homogeneity, biases, and discontinuities associated with historical climate data records obtained using these technologies. Consequently, this article reviews the progress of utilizing radiosondes and space-based instruments for obtaining upper air temperature records. A systematic review process was performed and focused on papers published between 2000 and 2023. A total of 74,899 publications were retrieved from the Google Scholar, Scopus, and Web of Science databases using a title/abstract/keyword search query. After rigorous screening processes using relevant keywords and the elimination of duplicates, only 599 papers were considered. The papers were subjected to thematic and bibliometric analysis to comprehensively outline the progress, gaps, challenges, and opportunities related to the utilization of radiosonde and space-based instruments for monitoring upper air temperature. The results show that in situ radiosonde measurements and satellite sensors have improved significantly over the past few decades. Recent advances in the bias, uncertainty, and homogeneity correction algorithms (e.g., machine learning approaches) for enhancing upper air temperature observations present great potential in improving numerical weather forecasting, atmospheric boundary studies, satellite data validation, and climate change research. [ABSTRACT FROM AUTHOR]

Published

2024

45. A Review of Passive Solar Heating and Cooling Technologies Based on Bioclimatic and Vernacular Architecture.

Author

Toroxel, Julia Lima and Silva, Sandra Monteiro

Subjects

SOLAR heating, GREENHOUSE gases, BUILDING information modeling, VERNACULAR architecture, ENERGY consumption, CLIMATE change

Abstract

The increase in global average temperature, mainly due to the high rate of greenhouse gas emissions, has triggered severe global warming and climate change. In Europe, the building sector accounts for a significant portion of emissions and energy consumption, prompting attention on nearly-zero-energy buildings (nZEBs) and zero-carbon buildings, as they play a pivotal role in reaching the goal of climate neutrality by 2050. Passive systems offer a promising solution, optimizing energy usage by better adapting buildings to their local climates. This paper reviews the state-of-the-art of passive heating and cooling techniques, exploring their contributions to contemporary architecture and showcasing their features and adaptability across different climates. Furthermore, the link between traditional and bioclimatic architecture is assessed. Recent years have witnessed a surge in publications on bioclimatic solar passive strategies, reflecting an intensified debate on climate change. Europe leads research in this area, aligned with initiatives like the Green Deal and Fit for 55. While dynamic simulation software is widely utilized for energy efficiency analysis, there remains limited integration of Building Information Modeling (BIM) and life cycle analysis (LCA) tools, which could enhance holistic assessments. [ABSTRACT FROM AUTHOR]

Published

2024

46. Foundations in Permafrost of Northern Canada: Review of Geotechnical Considerations in Current Practice and Design Examples.

Author

Dourado, João Batista de Oliveira Libório, Deng, Lijun, Chen, Yuxiang, and Chui, Ying-Hei

Subjects

PERMAFROST, GEOTECHNICAL engineering, HOUSING, SOIL mechanics, STEEL pipe

Abstract

In northern Canada where permafrost is prevalent, a persistent shortage of accessible, affordable, and high-quality housing has been ongoing for decades. The design of foundations in permafrost presents unique engineering challenges due to permafrost soil mechanics and the effects of climate change. There is no specific design code for pile or shallow foundations in northern Canada. Consequently, the design process heavily relies on the experience of Arctic engineers. To clearly document the current practice and provide guidance to engineers or professionals, a comprehensive review of the practice in foundation design in the Arctic would be necessary. The main objective of this paper is to provide an overview of the common foundations in permafrost and the geotechnical considerations adopted for building on frozen soils. This study conducted a review of current practices in deep and shallow foundations used in northern Canada. The review summarized the current methods for estimating key factors, including the adfreeze strength, creep settlement, and frost heave, used in foundation design in permafrost. To understand the geotechnical considerations in foundation design, this study carried out interviews with several engineers or professionals experienced in designing foundations in permafrost; the findings and the interviewees' opinions were summarized. Lastly, in order to demonstrate the design methods obtained from the interviews and review, the paper presents two design examples where screw piles and steel pipe piles were designed to support a residential building in northern Canada, according to the current principles for adfreeze strength, long term creep settlement, and frost heave. The permafrost was assumed to be at −1.5 °C, and the design life span was assumed to be 50 years. The design examples suggested that for an axial load of 75 kN, a 12-m-long steel pipe pile or a 7-m-long screw pile would be needed. [ABSTRACT FROM AUTHOR]

Published

2024

47. Applications of Fractional Order Logistic Grey Models for Carbon Emission Forecasting.

Author

He, Xiaoqiang, Song, Yuxin, Yu, Fengmin, and Duan, Huiming

Subjects

CARBON emissions, PARTICLE swarm optimization, SMALL states, ENERGY conservation, CLIMATE change, FORECASTING, ENERGY development

Abstract

In recent years, global attention to carbon emissions has increased, becoming one of the main drivers of global climate change. Accurate prediction of carbon emission trends in small and medium-sized countries and scientific regulation of carbon emissions can provide theoretical support and policy references for the effective and rational use of energy and the promotion of the coordinated development of energy, environment, and economy. This paper establishes a grey prediction model using the classical Logistic mathematical model in a determined environment to investigate the carbon emission system. At the same time, we use the basic principle of fractional-order accumulation to establish a grey prediction model with fractional-order Logistic and obtain the parameter estimation and time-response equation of the new model by solving the model through the theory related to fractional-order operators. The particle swarm optimization algorithm is used to complete the optimization process of the order of the fractional order grey prediction model and obtain the optimal model order. Then, the new model is applied to predict carbon emissions in five medium-emission countries: Ethiopia, Djibouti, Ghana, Belgium, and Austria. The new model shows better advantages in the validity analysis process, and the simulation results indicate that the new model proposed in this paper has stronger stability and better simulation and prediction accuracy than other comparative models, proving the model's validity. Finally, the model is used to forecast the carbon emissions of these five countries for the five years of 2021–2025, and the results are analyzed, and relevant policy recommendations are made. [ABSTRACT FROM AUTHOR]

Published

2024

48. Diversity as a Plant Breeding Objective.

Author

Ceccarelli, Salvatore and Grando, Stefania

Subjects

PLANT breeding, PLANT diversity, CLIMATE change adaptation, AGROBIODIVERSITY, CLIMATE change, BIODIVERSITY, PHYSIOLOGICAL adaptation

Abstract

This review paper addresses the importance of increasing agrobiodiversity to cope with climate change and, at the same time, providing a sufficient amount of healthy food. This is in agreement with the messages from ecology and medicine indicating the advantages of biodiversity in general and agrobiodiversity in particular for the planet and for our health. Plant breeding is considered to be one of the causes of the decline in agrobiodiversity, and therefore, this paper illustrates alternatives to the commonly used approach based on centralized selection. The first alternative is decentralized participatory breeding, which adapts crops to both different agronomic environments and client preferences, representing an "option by context" model of research. The second alternative is evolutionary breeding, which is a more dynamic strategy than participatory plant breeding because it merges the advantages of decentralization with the ability of dynamic mixtures and evolutionary populations to cope with biotic and abiotic stresses and evolve, thus adapting to climate change and to the associated changes in the spectrum of pests. A crop capable of evolving as the environment around it evolves appears to be the most ideal way of responding to climate change and increasing agricultural biodiversity. [ABSTRACT FROM AUTHOR]

Published

2024

49. A Transdisciplinary Approach and Design Thinking Methodology: For Applications to Complex Problems and Energy Transition.

Author

Ozsoy, Canan M. and Mengüç, M. Pinar

Subjects

DESIGN thinking, GREENHOUSE gases, TRANSPERSONAL psychology, ENERGY consumption, TECHNOLOGICAL innovations, ALTERNATIVE fuels

Abstract

In this paper, we outline a transdisciplinary approach and design thinking methodology (TADTM) to tackle complex problems. Our premise is that these problems need a fundamental understanding of technological solutions and those for human interactions, business operations, financing, socioeconomic governance, legislation, and regulations. They must be approached by different decisionmakers from different disciplines to establish seamless interactions and structured teamwork. In this regard, we emphasize the need for a transdisciplinary framework that accounts for personal preferences based on human behavior as well as the traditional interdisciplinary frameworks. To test and prove our hypothesis, three case studies are discussed. Case Study 1 is based on our studies at a major medical establishment, and Case Study 2 is about the integrated engineering and architecture approach we used at our university campus. Case Study 3 is based on an ongoing project to lead industrial corporations to change their energy policies with practical energy efficiency measures and by adapting renewable/alternative energy adaptations for their operations. Developing creative solutions and strategies to decrease atmospheric greenhouse gas emissions requires such an energy transition framework and should involve every person, company, entity, and all governments. It can only be achieved with efforts on both local and global levels, which needs to convince (a) industries to change their traditional operation modalities, (b) people to alter their consumption behaviors, and (c) governments to change their rules, regulations, and incentives. The complexity and magnitude of this enormous task demand the coordination and collaboration of all stakeholders, as well as the need for technological innovations. [ABSTRACT FROM AUTHOR]

Published

2024

50. It's Not Easy Being Green.

Author

BAKER, HANNAH

Subjects

CLIMATE change, COMMUNITY-based programs, PAPER towels, HOT water, SPORTSWEAR

Abstract

This article provides solutions to common eco-friendly living challenges. It suggests using reusable cloth towels instead of paper towels to reduce waste and chemical use. To keep reusable water bottles clean, the article recommends washing them every other day or using a mixture of white vinegar, water, and dish soap. Wool dryer balls are suggested as an alternative to dryer sheets, as they reduce static, drying time, and energy consumption. The article also offers tips for composting, reducing plastic use in the kitchen, using cleaning concentrates, and washing laundry in cold water. [Extracted from the article]

Published

2024