Showing total 6,508 results

1. Biometeorology and Urban Climatology at the Turn of the Millennium: 15th International Congress of Biometeorology and the International Conference on Urban Climatology, First Call for Papers ¶ 8–12 November 1999, Sydney, Australia

Published

1998

2. Sixty years of animal biometeorology.

Author

Gaughan, John B., Lees, Angela M., and Sejian, Veerasamy

Subjects

BIRD migration, BIOCLIMATOLOGY, ANIMAL species, DEVELOPING countries, LIVESTOCK, RATS

Abstract

Animal biometeorology (insects excluded) has been part of the International Journal of Biometeorology since its inception in 1958. Over the first 60 years of the journal, 480 animal biometeorology papers were published. Thus, approximately 14% of published papers dealt with animals. Over the first 60 years, data from more than 50 animal species was presented, with the lead authors coming from 48 countries. The two most common species used in animal papers between 1957 and 2016 were cattle (109 papers: 22.7% of all animal papers) and rats (96 papers: 20.0% of all animal papers). Although cattle and rats dominated, the species in the most cited paper (240 citations) was chickens, followed by bird migration (155 citations), and general livestock (118 citations). Overall, five papers exceeded 100 citations, and a further two exceeded 200 citations. In the last decade, 126 animal papers were published (26% of all animal papers). Many of these papers had a focus on livestock production in developing countries especially Brazil. [ABSTRACT FROM AUTHOR]

Published

2020

3. List of published papers on air ions

Author

Krueger, A. P.

Published

1985

4. Application of microcontroller-based systems in human biometeorology studies: a bibliometric analysis.

Author

Krüger, Eduardo, Ihlenfeld, Walter, Leder, Solange, and Lima, Linccon Carvalho

Subjects

BIBLIOMETRICS, MICROCONTROLLERS, BIOCLIMATOLOGY, THERMAL comfort, URBAN climatology, HUMAN experimentation

Abstract

Urban development creates several inadvertent impacts related to urban climate and human biometeorology. Monitoring systems based on microcontrollers are slowly emerging as an alternative to conventional devices for monitoring outdoor thermal comfort (OTC), thus overcoming limitations imposed by the high costs of commercially available equipment. This review was conducted using the Scopus database, searching for articles and conference papers according to a pre-defined search string, which included the terms "microcontrollers" and "human thermal comfort" up to 2022. From a total sample of 113 articles, 52 papers met the desired criteria (written in English, published in peer-reviewed journals, and within the given time frame). Results show a growing, yet timid trend of published material on low-cost, open-source technologies for diverse applications in human biometeorology. [ABSTRACT FROM AUTHOR]

Published

2023

5. Perspectives on biometeorological research on the African continent.

Author

Fitchett, Jennifer M.

Subjects

CONTINENTS, CLIMATE change, BIOCLIMATOLOGY

Abstract

Since the first issue of the International Journal of Biometeorology in 1957, a total of 135 papers have reported on research in or of African countries. The majority of these have been on topics of animal biometeorology (36%), and the greatest proportion (24%) are situated in Nigeria. There has been a considerable increase in papers on African biometeorology since 2011, with those from this past decade accounting for 58% of all African papers in the journal. This occurs concurrent to an increase in the total number of papers published in the journal, driven by a move to the Editorial Manager system. While 66% of the papers on African biometeorology in the journal are authored by at least one person with an affiliation in the African continent, only 15 African countries are represented in the total authorship. As much of the African continent is projected to experience climatic changes exceeding the global mean, as much of the region is involved in animal and plant farming, and as seasonally-fluctuating and climatically affected diseases are common place, this low representation of work in Africa is surprising. This points to the need for greater awareness among African researchers of the discipline of biometeorology, greater involvement of African biometeorologists in International Society of Biometeorology and Commission meetings, and the inclusion of a greater number of African academics in the review process. This would be beneficial to the Society in increasing diversity and encouraging a more cosmopolitan engagement, and to the recognition of scientific development in African countries. [ABSTRACT FROM AUTHOR]

Published

2021

6. The effect of weather conditions on scores at the United States Masters golf tournament.

Author

Jowett, Harry and Phillips, Ian D.

Subjects

GOLF tournaments, HUMIDITY, ATMOSPHERIC temperature, ZONAL winds, WIND speed

Abstract

This paper investigates the sensitivity of golfers' performance to meteorological conditions at the men's US Masters tournament over the 40-year period 1980–2019. The mean and standard deviation of round scores are related to local temperature, humidity, wind speed and direction, and concurrent and antecedent precipitation. Mean scores are more dependent on weather conditions than the variability of scores in a given round. The best predictor of mean scores is the wet-bulb temperature in rounds one and two, and the zonal wind speed in rounds three and four. Across both sets of rounds (1 and 2, and 3 and 4), the wet-bulb temperature is a better predictor of mean scores than the air temperature, which implies that atmospheric moisture content affects scores. In general, golfers take fewer shots and so perform better in warmer and calmer conditions. The synergestic effect of several weather variables explains over 44% of the variance in mean scores. Mean meteorological conditions during play are a much better predictor of the players' average performance than the standard deviation of the weather variables. The golfers' performance becomes more variable in cooler conditions with a wider range of scores. Precipitation during play and the dampness of the ground (as quantified by rainfall up to ten days before play) do not have a consistent and statistically significant effect on the competitors' performance. In short, this paper demonstrates that golf scores are dependent on weather conditions. [ABSTRACT FROM AUTHOR]

Published

2023

7. Climate and human health: a review of publication trends in the International Journal of Biometeorology.

Author

Motlogeloa, Ogone and Fitchett, Jennifer M.

Subjects

BIOCLIMATOLOGY, MIDDLE-income countries, CEREBROVASCULAR disease, CLIMATE research, DISEASE nomenclature, RESPIRATORY diseases

Abstract

The climate-health nexus is well documented in the field of biometeorology. Since its inception, Biometeorology has in many ways become the umbrella under which much of this collaborative research has been conducted. Whilst a range of review papers have considered the development of biometeorological research and its coverage in this journal, and a few have reviewed the literature on specific diseases, none have focused on the sub-field of climate and health as a whole. Since its first issue in 1957, the International Journal of Biometeorology has published a total of 2183 papers that broadly consider human health and its relationship with climate. In this review, we identify a total of 180 (8.3%, n = 2183) of these papers that specifically focus on the intersection between meteorological variables and specific, named diagnosable diseases, and explore the publication trends thereof. The number of publications on climate and health in the journal increases considerably since 2011. The largest number of publications on the topic was in 2017 (18) followed by 2021 (17). Of the 180 studies conducted, respiratory diseases accounted for 37.2% of the publications, cardiovascular disease 17%, and cerebrovascular disease 11.1%. The literature on climate and health in the journal is dominated by studies from the global North, with a particular focus on Asia and Europe. Only 2.2% and 8.3% of these studies explore empirical evidence from the African continent and South America respectively. These findings highlight the importance of continued research on climate and human health, especially in low- and lower-middle-income countries, the populations of which are more vulnerable to climate-sensitive illnesses. [ABSTRACT FROM AUTHOR]

Published

2023

8. A first approach to human biometeorology research in Brazil: a systematic review and meta-analysis.

Author

Krüger, Eduardo L., Gobo, João Paulo Assis, Nedel, Anderson Spohr, Gonçalves, Fabio Luiz Teixeira, Lucio, Paulo Sérgio, Tejas, Graziela Tosini, and Piacenti-Silva, Marina

Subjects

HUMAN experimentation, BIOCLIMATOLOGY, SCIENCE databases, VECTOR-borne diseases, META-analysis, THERMAL comfort

Abstract

This systematic review aims to give an overview of the diversity of research areas related to human biometeorology in Brazil. The main focus of this paper addresses research trends, represented by published papers with national and international authorship, main contributions and shortcomings, as well as challenges and prospects of research in this area of study. An extensive literature search was conducted in the Scopus, Web of Science, and Science Direct databases so as to identify relevant publication output up to July 2021 related to the research area. The screening resulted in 96 studies chosen for full-text reading. Overall, results indicated a reduced amount of articles on the subject matter published internationally, with noticeable gaps in research in some regions of the country, such as the Amazon region and in the Brazilian Midwest region. Research gaps in relevant areas have been identified with limited output in the climate dimensions of tourism, vector-borne diseases, mortality and morbidity in urban centers. Such gaps should further encourage researchers to engage in research focused on those areas. [ABSTRACT FROM AUTHOR]

Published

2022

9. Data-driven adaptive GM(1,1) time series prediction model for thermal comfort.

Author

Li, Xiaoli, Xu, Chang, Wang, Kang, Yang, Xu, and Li, Yang

Subjects

THERMAL comfort, PREDICTION models, HUMAN comfort, WIND speed, AIR conditioning

Abstract

In this paper, the future prediction of predicted mean vote (PMV) index of indoor environment is studied. PMV is the evaluation index used in this paper to represent the thermal comfort of human body. According to the literature, the main environmental factors affecting PMV index are temperature, humidity, black globe temperature, wind speed, average radiation temperature, and clothing surface temperature, and there is a complex nonlinear relationship between the six variables. Due to the coupling relationship between the six parameters, the PMV formula can be simplified under specific conditions, reducing the monitoring of variables that are difficult to observe. Then, the improved grey system prediction model GM(1,1) with optimized selection dimension is used to predict the future time of PMV. Due to the irregularity, uncertainty and fluctuation of PMV values in time series, based on the original GM(1,1) time series prediction, an adaptive GM(1,1) improved model is proposed, which can continuously change with time series and enhance its prediction accuracy. By contrast, the improved GM(1,1) model can be derived from the sliding window of the adaptive model through changes in the dataset and get better model grades. It lays a foundation for the future research on the predicted index of PMV, so as to set and control the air conditioning system in advance, to meet the intelligence of modern intelligent home and humanized function of sensing human comfort. [ABSTRACT FROM AUTHOR]

Published

2023

10. Effects of redecoration of a hospital isolation room with natural materials on stress levels of denizens in cold season

Author

Ohta, Hiromi, Maruyama, Megumi, Tanabe, Yoko, Hara, Toshiko, Nishino, Yoshihiko, Tsujino, Yoshio, Morita, Eishin, Kobayashi, Shotai, and Shido, Osamu

Published

2008

11. Perspectives of nature-based tourism-dependent communities on climate change in the Okavango Delta, Botswana

Author

Hambira, Wame L., Kolawole, Oluwatoyin D., Saarinen, Jarkko, Moses, Oliver, Mulale, Kutlwano, and Mogomotsi, Patricia K.

Published

2024

12. Evaluation of CRU-JRA gridded meteorological dataset for modeling of wheat production systems in Iran

Author

Araghi, Alireza and Martinez, Christopher J.

Published

2024

13. Impact of low-intensity heat events on mortality and morbidity in regions with hot, humid summers: a scoping literature review.

Author

Strathearn, Melanie, Osborne, Nicholas J., and Selvey, Linda A.

Subjects

AMBULANCES, LITERATURE reviews, HEAT waves (Meteorology), HIGH-income countries, SUMMER, MORTALITY

Abstract

The objective of this study is to determine the impacts of low-intensity heat on human health in regions with hot, humid summers. Current literature has highlighted an increase in mortality and morbidity rates during significant heat events. While the impacts on high-intensity events are established, the impacts on low-intensity events, particularly in regions with hot, humid summers, are less clear. A scoping review was conducted searching three databases (PubMed, EMBASE, Web of Science) using key terms based on the inclusion criteria. We included papers that investigated the direct human health impacts of low-intensity heat events (single day or heatwaves) in regions with hot, humid summers in middle- and high-income countries. We excluded papers written in languages other than English. Of the 600 publications identified, 33 met the inclusion criteria. Findings suggest that low-intensity heatwaves can increase all-cause non-accidental, cardiovascular-, respiratory- and diabetes-related mortality, in regions experiencing hot, humid summers. Impacts of low-intensity heatwaves on morbidity are less clear, with research predominantly focusing on hospitalisation rates with a range of outcomes. Few studies investigating the impact of low-intensity heat events on emergency department presentations and ambulance dispatches were found. However, the data from a limited number of studies suggest that both of these outcome measures increase during low-intensity heat events. Low-intensity heat events may increase mortality. There is insufficient evidence of a causal effect of low-intensity heat events on increasing morbidity for a firm conclusion. Further research on the impact of low-intensity heat on morbidity and mortality using consistent parameters is warranted. [ABSTRACT FROM AUTHOR]

Published

2022

14. Heat, heatwaves, and ambulance service use: a systematic review and meta-analysis of epidemiological evidence.

Author

Xu, Zhiwei, Watzek, Jessica T., Phung, Dung, Oberai, Mehak, Rutherford, Shannon, and Bach, Aaron J.E.

Subjects

HEAT waves (Meteorology), AMBULANCE service, REMOTE-sensing images

Abstract

Ambulance data has been reported to be a sensitive indicator of health service use during hot days, but there is no comprehensive summary of the quantitative association between heat and ambulance dispatches. We conducted a systematic review and meta-analysis to retrieve and synthesise evidence published up to 31 August 2022 about the association between heat, prolonged heat (i.e. heatwaves), and the risk of ambulance dispatches. We initially identified 3628 peer-reviewed papers and included 48 papers which satisfied the inclusion criteria. The meta-analyses showed that, for each 5 °C increase in mean temperature, the risk of ambulance dispatches for all causes and for cardiovascular diseases increased by 7% (95% confidence interval (CI): 5%, 10%) and 2% (95% CI: 1%, 3%), respectively, but not for respiratory diseases. The risk of ambulance dispatches increased by 6% (95% CI: 4%, 7%), 7% (95% CI: 5%, 9%), and 18% (95% CI: 12%, 23%) under low-intensity, severe, and extreme heatwaves, respectively. We observed two potential sources of bias in the existing literature: (1) bias in temperature exposure measurement; and (2) bias in the ascertainment of ambulance dispatch causes. This review suggests that heat exposure is associated with an increased risk of ambulance dispatches, and there is a dose-response relationship between heatwave intensity and the risk of ambulance dispatches. For future studies assessing the heat-ambulance association, we recommend that (1) using data on spatially refined gridded temperature that is either very well interpolated or derived from satellite imaging may be an alternative to reduce exposure measurement bias; and (2) linking ambulance data with hospital admission data can be useful to improve health outcome classification. [ABSTRACT FROM AUTHOR]

Published

2023

15. A new causative heat supply for exertional heat stroke on runners in cold air.

Author

Yuan, Shenghua, Ota-Kotner, Adriana, and Tagami, Kazumi

Subjects

HEAT stroke, HEAT exhaustion, ENTHALPY, SURFACE temperature, MULTIPLE regression analysis, LONG-distance running, RUNNING speed

Abstract

The dysregulation in heat balance, the main cause of exertional heat stroke, occurs not only in midsummer but also in the cold season. Possible causes of this are a reduction in convection and evaporation due to tailwinds and an acceleration of radiant heat inflow. Although the amount of radiant heat that reaches the surface can be estimated, the actual amount of heat that flows into the body cannot be specified yet. This paper made an experimental attempt at this. A device is made up of a temperature controllable heat sink and heat flow detector, which keeps the surface temperature constant and has a heat exchange coefficient comparable to that of the human body surface. The output of this device (total heat exchange) was divided into radiant heat exchange and other heat exchange using a standard radiant heat calibrator, Leslie cube. A phenomenon, in which a wet surface while the surface temperature was low absorbed larger heat than that of the dry surface, was found. And authors named this "hidden heat inflow". As a result of multiple regression analyses, both radiant heat exchange and other heat exchanges are closely related to the surface temperature, and the maximum difference in total heat exchange during the experiment reached 200 kcal/m2/h. It has been suggested that this phenomenon may also occur on the surface of human skin. One of the causes of this "hidden heat inflow" is considered to be the decrease in evaporative cooling due to the decrease in surface temperature. However, this alone cannot explain all of the phenomena, so water vapor aggregation may also be involved. A "hidden heat inflow" as a sufficient heat source for exertional heat stroke or collapse during a marathon race on a cold day was evidenced experimentally. [ABSTRACT FROM AUTHOR]

Published

2022

16. Are the birch trees in Southern England a source of Betula pollen for North London?

Author

C. Skjøth, M. Smith, J. Brandt, and J. Emberlin

Subjects

BIRCH, BETULACEAE, ALASKA paper birch, BETULA glandulosa

Abstract

Abstract  Birch pollen is highly allergenic. Knowledge of daily variations, atmospheric transport and source areas of birch pollen is important for exposure studies and for warnings to the public, especially for large cities such as London. Our results show that broad-leaved forests with high birch tree densities are located to the south and west of London. Bi-hourly Betula pollen concentrations for all the days included in the study, and for all available days with high birch pollen counts (daily average birch pollen counts >80 grains/m3), show that, on average, there is a peak between 1400 hours and 1600 hours. Back-trajectory analysis showed that, on days with high birch pollen counts (n = 60), 80% of air masses arriving at the time of peak diurnal birch pollen count approached North London from the south in a 180 degree arc from due east to due west. Detailed investigations of three Betula pollen episodes, with distinctly different diurnal patterns compared to the mean daily cycle, were used to illustrate how night-time maxima (2200–0400 hours) in Betula pollen counts could be the result of transport from distant sources or long transport times caused by slow moving air masses. We conclude that the Betula pollen recorded in North London could originate from sources found to the west and south of the city and not just trees within London itself. Possible sources outside the city include Continental Europe and the Betula trees within the broad-leaved forests of Southern England. [ABSTRACT FROM AUTHOR]

Published

2009

17. Meteorological factors cannot be ignored in machine learning-based methods for predicting dengue, a systematic review.

Author

Fang, Lanlan, Hu, Wan, and Pan, Guixia

Subjects

*ARBOVIRUS diseases, *DENGUE, *MACHINE learning, *SUPPORT vector machines, *VECTOR data, *SCIENCE databases, *FENITROTHION

Abstract

In recent years, there has been a rapid increase in the application of machine learning methods about predicting the incidence of dengue fever. However, the predictive factors and models employed in different studies vary greatly. Hence, we conducted a systematic review to summarize machine learning methods and predictors in previous studies. We searched PubMed, ScienceDirect, and Web of Science databases for articles published up to July 2023. The selected papers included not only the forecast of dengue incidence but also machine learning methods. A total of 23 papers were included in this study. Predictive factors included meteorological factors (22, 95.7%), historical dengue data (14, 60.9%), environmental factors (4, 17.4%), socioeconomic factors (4, 17.4%), vector surveillance data (2, 8.7%), and internet search data (3, 13.0%). Among meteorological factors, temperature (20, 87.0%), rainfall (20, 87.0%), and relative humidity (14, 60.9%) were the most commonly used. We found that Support Vector Machine (SVM) (6, 26.1%), Long Short-Term Memory (LSTM) (5, 21.7%), Random Forest (RF) (4, 17.4%), Least Absolute Shrinkage and Selection Operator (LASSO) (2, 8.7%), ensemble model (2, 8.7%), and other models (4, 17.4%) were identified as the best models based on evaluation metrics used in each article. These results indicate that meteorological factors are important predictors that cannot be ignored and SVM and LSTM algorithms are the most commonly used models in dengue fever prediction with good predictive performance. This review will contribute to the development of more robust early dengue warning systems and promote the application of machine learning methods in predicting climate-related infectious diseases. [ABSTRACT FROM AUTHOR]

Published

2024

18. Cross-cultural adaptation of the spa therapy checklist (SPAC) in Greek.

Author

Tsounia, Eleni Argyroula, Chandolias, Konstantinos, Stefanouli, Vasiliki, and Strimpakos, Nikolaos

Subjects

HEALTH resorts, TRANSLATING & interpreting, GREEK language, INTER-observer reliability, CRIME & the press

Abstract

The importance of spa therapy is growing worldwide, with care practitioners paying more attention to how this intervention can alleviate various health issues. Multiple studies have been performed and reported on the efficiency of balneotherapy, creating a need to understand the quality of the information in the existing studies and how they can inform practitioners in promoting evidence-based practice. The SPAC assessment tool describes and assesses the quality of reports of interventional trials in balneotherapy. The present study had two goals. The first goal was the translation and cross-cultural adaptation of the SPAC assessment tool in Greek language following an internationally accepted methodology. The second goal was to assess the reliability of the tool employing test–retest and interrater reliability studies in a sample of 15 relative RCT papers and to assess the criterion validity of the Greek version by comparing its results with the original English version when assessing the same 15 papers. The results revealed that the SPAC checklist was translated and adapted in Greek without difficulties between the translators. Reliability of the SPAC was found excellent in both test–retest (ICC =.98) and interrater (ICC =.95) indexes. The criterion validity assessment for Greek version of SPAC checklist was also almost perfect (ICC =.98). In the present study, the Greek version of the SPAC checklist was found to be a comprehensible, reliable, and valid tool to assess the quality of interventional trial reports on the efficacy of spa therapy for cure and health enhancement. [ABSTRACT FROM AUTHOR]

Published

2023

19. Machine learning-based estimation of evapotranspiration under adaptation conditions: a case study in Heilongjiang Province, China

Author

Wang, Guotao, Zhao, Xiangjiang, Zhang, Zhihao, Song, Shoulai, and Wu, Yaoyang

Published

2024

20. Healthy environments for athleTes (HEAT): environmental conditions along a 90 km ultra-marathon event, South Africa

Author

Havenga, H., Gharbi, D., Sewry, N., Language, B., Neumann, F. H., Finch, J. M., Hill, T., Boulter, J., Jordaan, E., Piketh, S. J., Schwellnus, M., and Burger, R. P.

Published

2024

21. Quantifying climatic suitability for tourism in Southwest Indian Ocean Tropical Islands: Applying the Holiday Climate Index to Réunion Island

Author

Prinsloo, Ariel S. and Fitchett, Jennifer M.

Published

2024

22. Exploring the risk of heat stress in high school pre-season sports training, Johannesburg, South Africa

Author

Raines, Kayleigh and Fitchett, Jennifer M.

Published

2024

23. Variation in the timing and duration of autumn leaf phenology among temperate deciduous trees, native shrubs and non-native shrubs

Author

Donnelly, Alison, Yu, Rong, Rehberg, Chloe, and Schwartz, Mark D.

Published

2024

24. Research on the outdoor thermal comfort of children in Hangzhou and Its influence on the underlying surface reflectance

Author

Wang, Yu, Zheng, Tianyu, Li, Jiaxin, Chen, Yaxin, Hong, Chuanchun, Zhang, Yinke, and Shao, Feng

Published

2024

25. Climate and vector-borne diseases in Indonesia: a systematic literature review and critical appraisal of evidence.

Author

Marina, Rina, Ariati, Jusniar, Anwar, Athena, Astuti, Endang Puji, and Dhewantara, Pandji Wibawa

Subjects

VECTOR-borne diseases, MEDICAL climatology, CHIKUNGUNYA, MALARIA, HUMIDITY

Abstract

Climate is widely known as an important driver to transmit vector-borne diseases (VBD). However, evidence of the role of climate variability on VBD risk in Indonesia has not been adequately understood. We conducted a systematic literature review to collate and critically review studies on the relationship between climate variability and VBD in Indonesia. We searched articles on PubMed, Scopus, and Google Scholar databases that are published until December 2021. Studies that reported the relationship of climate and VBD, such as dengue, chikungunya, Zika, and malaria, were included. For the reporting, we followed the guidelines of the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) statement. A total of 66 out of 284 studies were reviewed. Fifty-two (78.8%) papers investigated dengue, 13 (19.7%) papers studied malaria, one (1.5%) paper discussed chikungunya, and no (0%) paper reported on Zika. The studies were predominantly conducted in western Indonesian cities. Most studies have examined the short-term effect of climate variability on the incidence of VBD at national, sub-national, and local levels. Rainfall (n = 60/66; 90.9%), mean temperature (Tmean) (n = 50/66; 75.8%), and relative humidity (RH) (n = 50/66; 75.8%) were the common climatic factors employed in the studies. The effect of climate on the incidence of VBD was heterogenous across locations. Only a few studies have investigated the long-term effects of climate on the distribution and incidence of VBD. The paucity of high-quality epidemiological data and variation in methodology are two major issues that limit the generalizability of evidence. A unified framework is required for future research to assess the impacts of climate on VBD in Indonesia to provide reliable evidence for better policymaking. [ABSTRACT FROM AUTHOR]

Published

2023

26. Ten best practices for effective phenological research.

Author

Primack, Richard B., Gallinat, Amanda S., Ellwood, Elizabeth R., Crimmins, Theresa M., Schwartz, Mark D., Staudinger, Michelle D., and Miller-Rushing, Abraham J.

Subjects

PLANT phenology, BEST practices, CITIZEN science, FIELD research, CLIMATE change, PHENOLOGY

Abstract

The number and diversity of phenological studies has increased rapidly in recent years. Innovative experiments, field studies, citizen science projects, and analyses of newly available historical data are contributing insights that advance our understanding of ecological and evolutionary responses to the environment, particularly climate change. However, many phenological data sets have peculiarities that are not immediately obvious and can lead to mistakes in analyses and interpretation of results. This paper aims to help researchers, especially those new to the field of phenology, understand challenges and practices that are crucial for effective studies. For example, researchers may fail to account for sampling biases in phenological data, struggle to choose or design a volunteer data collection strategy that adequately fits their project's needs, or combine data sets in inappropriate ways. We describe ten best practices for designing studies of plant and animal phenology, evaluating data quality, and analyzing data. Practices include accounting for common biases in data, using effective citizen or community science methods, and employing appropriate data when investigating phenological mismatches. We present these best practices to help researchers entering the field take full advantage of the wealth of available data and approaches to advance our understanding of phenology and its implications for ecology. [ABSTRACT FROM AUTHOR]

Published

2023

27. The impact of extreme temperatures on human mortality in the most populated cities of Romania

Author

Scripcă, Andreea-Sabina, Acquaotta, Fiorella, Croitoru, Adina-Eliza, and Fratianni, Simona

Published

2022

28. Impact of windbreak design on microclimate in hot regions during cold waves: Numerical investigation

Author

Abdalazeem, Mohamed E., Hassan, Hamdy, Asawa, Takashi, and Mahmoud, Hatem

Published

2024

29. Subjective perceived risk factors of exertional heat exhaustion-related symptoms in female collegiate athletes in Japan

Author

Yamashita, Naoyuki, Kume, Masashi, Satake, Toshiyuki, Inoue, Keiko, and Yoshida, Tetsuya

Published

2024

30. Thermal stress and comfort assessment in urban areas using Copernicus Climate Change Service Era 5 reanalysis and collected microclimatic data

Author

Silva, Tiago, Lopes, António, Vasconcelos, João, Chokhachian, Ata, Wagenfeld, Malte, and Santucci, Daniele

Published

2024

31. Evaluation of outdoor thermal comfort conditions: evidence from the Serbian major ski resort over the last 30 years.

Author

Malinović-Milićević, Slavica, Petrović, Marko D., and Radovanović, Milan M.

Subjects

THERMAL comfort, SKI resorts, WEATHER, SPRING, AUTUMN, SUMMER

Abstract

The study aims to present reliable information about thermal conditions and their impacts on visitors to ski travel destinations. Mountain tourism areas are specific since high altitudes affect the ambient weather conditions which can affect different types of human activities. In this paper, the thermal comfort and its changes in Kopaonik Mountain, the most popular ski resort in Serbia over the last 30 years, have been evaluated. Information about thermal comfort is presented by using the Universal Thermal Climate Index (UTCI), physiologically equivalent temperature (PET), and modified physiologically equivalent temperature (mPET) in 3-h resolution for the period 1991–2020. The results indicate prevailing cold stress all year round. Days with moderate, strong, and very strong heat stress were not recorded. Strong and extreme cold stress prevailed during winter, while slight and moderate cold stress prevailed during summer. Transitional seasons were very cold, but autumn was more comfortable than spring. The occurrence of days with neutral and slightly warm/cool conditions is concentrated in the summer months. However, summer is not used enough for tourism because the choice of tourists to stay at Kopaonik is not primarily based on favorable bioclimatic conditions, but on resources for winter tourism. With global warming, the annual number of thermally favorable days has been increasing, while the number of days with extreme and strong cold stress is decreasing. Continuing this trend can significantly influence tourism in the future, and therefore, new strategies in ski resorts will be required to adapt to the changing climate. [ABSTRACT FROM AUTHOR]

Published

2023

32. Using internet-based query and climate data to predict climate-sensitive infectious disease risks: a systematic review of epidemiological evidence.

Author

Zhang, Yuzhou, Bambrick, Hilary, Mengersen, Kerrie, Tong, Shilu, and Hu, Wenbiao

Subjects

COMMUNICABLE diseases, SCIENCE databases, WEB databases, PREDICTION models, INTERNET searching, ARBOVIRUS diseases, EPIDEMICS

Abstract

The use of internet-based query data offers a novel approach to improve disease surveillance and provides timely disease information. This paper systematically reviewed the literature on infectious disease predictions using internet-based query data and climate factors, discussed the current research progress and challenges, and provided some recommendations for future studies. We searched the relevant articles in the PubMed, Scopus, and Web of Science databases between January 2000 and December 2019. We initially included studies that used internet-based query data to predict infectious disease epidemics, then we further filtered and appraised the studies that used both internet-based query data and climate factors. In total, 129 relevant papers were included in the review. The results showed that most studies used a simple descriptive approach (n=80; 62%) to detect epidemics of influenza (including influenza-like illness (ILI)) (n=88; 68%) and dengue (n=9; 7%). Most studies (n=61; 47%) purely used internet search metrics to predict the epidemics of infectious diseases, while only 3 out of the 129 papers included both climate variables and internet-based query data. Our research shows that including internet-based query data and climate variables could better predict climate-sensitive infectious disease epidemics; however, this method has not been widely used to date. Moreover, previous studies did not sufficiently consider the spatiotemporal uncertainty of infectious diseases. Our review suggests that further research should use both internet-based query and climate data to develop predictive models for climate-sensitive infectious diseases based on spatiotemporal models. [ABSTRACT FROM AUTHOR]

Published

2021

33. Subjective perceived risk factors of exertional heat exhaustion–related symptoms in male collegiate athletes in Japan: a case-control study.

Author

Yamashita, Naoyuki, Kume, Masashi, Satake, Toshiyuki, and Yoshida, Tetsuya

Subjects

COLLEGE athletes, MALE athletes, FATIGUE (Physiology), SLEEP duration, SLEEP deprivation

Abstract

The purpose of this study was to investigate associations between lifestyle habits, health factors, athletic activity conditions, and exertional heat exhaustion (EHE)–related symptoms among male college athletes in Japan based on a self-completed questionnaire. The paper-based questionnaires were distributed to 11 universities in Japan, and 2006 respondents completed the survey. Data of personal characteristics (age, body mass), lifestyle habits (sleep duration, use of air-conditioner while sleeping, and practice duration), perceived health factors (loss of appetite, sleep deprivation, sickness, dehydration, accumulated fatigue, and mental stress), perceived athletic activity (insufficient rest breaks, high ambient temperature, excessive humidity, strong solar radiation, lack of ambient wind, and clothing discomfort), and EHE-related symptoms (dizziness, headaches, nausea, and malaise) were collected. The association between lifestyle habits, health factors, athletic activity conditions (explanatory variables), and EHE-related symptoms (objective variables) was analyzed using the partial-proportional odds model. "Perceived dehydration" (odds ratios [ORs] 1.70–2.31, p < 0.002)," "sickness" (ORs 1.35–1.76), p < 0.001), "perceived accumulated fatigue" (ORs 1.13–1.31, p ≤ 0.001), "perceived mental stress" (ORs 1.17–1.31, p < 0.019), "lack of ambient wind" (ORs 1.12–1.19, p < 0.022), "loss of appetite" (ORs 1.16–1.23, p < 0.037), and "sleep deprivation" (ORs 1.15–1.17, p < 0.025) were positively associated with EHE-related symptoms, whereas "using an air conditioner during sleeping" (ORs 0.91, p = 0.047) during summer seasons was negatively associated. These findings suggest that athletes should be allowed to postpone or downregulate exercise intensity and/or volume based on their perceptions of dehydration, sickness, accumulated fatigue, mental stress, loss of appetite, and/or sleep deprivation in the summer to prevent heat illness. [ABSTRACT FROM AUTHOR]

Published

2023

34. Changes in the temperature-mortality relationship in France: Limited evidence of adaptation to a new climate.

Author

Pascal, Mathilde, Wagner, Vérène, and Corso, Magali

Subjects

CLIMATE change & health, TEMPERATURE distribution, CLIMATE change, CONFIDENCE intervals, PERCENTILES

Abstract

Context: Documenting trends in the health impacts of ambient temperature is key to supporting adaptation strategies to climate change. This paper explores changes in the temperature-related mortality in 18 French urban centers between 1970 and 2015. Method: A multicentric time-series design with time-varying distributed lag nonlinear models was adopted to model the shape of the relationship and assess temporal changes in risks and impacts. Results: The general shape of the temperature-mortality relationship did not change over time, except for an increasing risk at very low percentiles and a decreasing risk at very high percentiles. The relative risk at the 99.9th percentile compared to the 50th percentile of the 1970–2015 temperature distribution decreased from 2.33 [95% confidence interval (CI): 1.95:2.79] in 1975 to 1.33 [95% CI: 1.14:1.55] in 2015. Between 1970 and 2015, 302,456 [95% CI: 292,723:311,392] deaths were attributable to non-optimal temperatures, corresponding to 5.5% [95% CI: 5.3:5.6] of total mortality. This burden decreased progressively, representing 7.2% [95% CI: 6.7:7.7] of total mortality in the 1970s to 3.4% [95% CI: 3.2:3.6] in the 2000s. However, the contribution of hot temperatures to this burden (higher than the 90th percentile) increased. Discussion: Despite the decreasing relative risk, the fraction of mortality attributable to extreme heat increased between 1970 and 2015, thus highlighting the need for proactive adaptation. [ABSTRACT FROM AUTHOR]

Published

2023

35. Effects of temperature, relative humidity, and illumination on the entomological parameters of Aedes albopictus: an experimental study.

Author

Cai, Xiaoshuang, Zhao, Jianguo, Deng, Hui, Xiao, Jianpeng, Liu, Tao, Zeng, Weilin, Li, Xing, Hu, Jianxiong, Huang, Cunrui, Zhu, Guanghu, and Ma, Wenjun

Subjects

HUMIDITY, TEMPERATURE effect, AEDES albopictus, AEDES aegypti, HUMIDITY control, MOSQUITO control, LIGHTING, INFORMATION modeling

Abstract

Aedesalbopictus (Diptera: Culicidae) is a mosquito from Asia that can transmit a variety of diseases. This paper aimed to explore the effects of temperature, relative humidity, and illumination on the entomological parameters related to the population growth of Aedes albopictus, and provide specific parameters for developing dynamic models of mosquito-borne infectious disease. We used artificial simulation lab experiments, and set 27 different meteorological conditions to observe and record mosquito's hatching time, emergence time, longevity of adult females, and oviposition amount. We then applied generalized additive model (GAM) and polynomial regression to formulate the effects of temperature, relative humidity, and illumination on the biological characteristics of Aedes albopictus. Our results showed that hatchability closely related to temperature and illumination. The immature stage and the survival time of adult female mosquitoes were associated with temperature and relative humidity. The oviposition rate related to temperature, relative humidity, and illumination. Under the control of relative humidity and illumination, ecological characteristics of mosquitoes such as hatching rate, transition rate, longevity, and oviposition rate had an inverted J shape with temperature, and the thresholds were 31.2 °C, 32.1 °C, 17.7 °C, and 25.7 °C, respectively. The parameter expressions of Aedes albopictus using meteorological factors as predictors under different stages were established. Meteorological factors especially temperature significantly influence the development of Aedes albopictus under different physiological stages. The established formulas of ecological parameters can provide important information for modeling mosquito-borne infectious diseases. [ABSTRACT FROM AUTHOR]

Published

2023

36. Exploring vulnerabilities of inland fisheries in Indian context with special reference to climate change and their mitigation and adaptation: a review.

Author

Paul, Thankam Theresa, Sarkar, Uttam Kumar, C, Albin Albert, D, Vandana G., and Das, Basanta Kumar

Subjects

CLIMATE change mitigation, SUSTAINABILITY, EFFECT of human beings on climate change, FISHERIES, FISHERY resources, HABITAT destruction, CLIMATE change

Abstract

Tropical inland capture fisheries are susceptible to a series of vulnerabilities such as habitat destruction, biodiversity loss, pollution, overfishing, invasive species and anthropogenic climate change. A comprehensive review of the impact of climatic uncertainties on Indian inland fisheries has not been adequately attempted yet. Recent approaches emphasizing ecosystem-based management in a regional context, specific to inland fisheries for combating climatic changes, have not been reported to date. The paper presents a critical bibliometric review of the climatic vulnerabilities faced by Indian inland fishery resources and various adaptive and mitigation strategies put forward by the country for the sustainability of the resources. In this communication, a systematic review of the impact of climate change and other stressors on various inland ecosystems of the subcontinent and the ecosystem-based management strategies adopted in India is presented and discussed. [ABSTRACT FROM AUTHOR]

Published

2023

37. A numerical tool for assessing human thermal safety and thermal comfort in cold-weather activities.

Author

Chen, Feiyu, Fu, Ming, Li, Yayun, Shen, Shifei, Yang, Jie, and Weng, Wenguo

Subjects

THERMAL comfort, SOFTWARE development tools, DATABASES, SKIN temperature, SCHEDULING

Abstract

This paper describes a newly developed software tool to evaluate human thermal safety and thermal comfort in cold-weather activities aimed at guiding users to arrange activity plans and select appropriate clothing ensembles. The software inputs include conditions of activity, environment, human body, and clothing ensemble. It outputs physiological temperatures, cold injury risks, thermal sensations, and thermal comforts in intuitive ways like cloud maps and curves. The software tool is characterized by (1) integration of a thermoregulatory model that predicts human thermophysiological responses under exercise conditions in cold environments, (2) the functions of clothing ensemble database and individual parameter database, (3) the human centric outputs that directly reflect human physiological and mental status, and (4) the user-friendly operation interface and output interface, as well as a wide applicability. The software is validated with human test studies covering ambient temperatures from − 30.6 to 5 °C, clothing ensembles from 1.34 to 3.20 clo, and activity intensities from 2 to 9 Mets. The average prediction RMSEs of core temperature, mean skin temperature, thermal sensation, and thermal comfort are 0.16 °C, 0.45 °C, 0.58, and 1.41, respectively. The software is an advanced expansion to current standards and guidance of cold exposure assessment and a meaningful tool for the fields of occupational health care, cold protection, and environmental ergonomics. [ABSTRACT FROM AUTHOR]

Published

2023

38. High-resolution projections of outdoor thermal stress in the twenty-first century: a Tasmanian case study

Author

Weeding, Ben, Love, Peter, Beyer, Kathleen, Lucieer, Arko, and Remenyi, Tom

Published

2024

39. Spatial variability in herbaceous plant phenology is mostly explained by variability in temperature but also by photoperiod and functional traits

Author

Rauschkolb, Robert, Bucher, Solveig Franziska, Hensen, Isabell, Ahrends, Antje, Fernández-Pascual, Eduardo, Heubach, Katja, Jakubka, Desiree, Jiménez-Alfaro, Borja, König, Andreas, Koubek, Tomáš, Kehl, Alexandra, Khuroo, Anzar A., Lindstädter, Anja, Shafee, Faizan, Mašková, Tereza, Platonova, Elena, Panico, Patrizia, Plos, Carolin, Primack, Richard, Rosche, Christoph, Shah, Manzoor A., Sporbert, Maria, Stevens, Albert-Dieter, Tarquini, Flavio, Tielbörger, Katja, Träger, Sabrina, Vange, Vibekke, Weigelt, Patrick, Bonn, Aletta, Freiberg, Martin, Knickmann, Barbara, Nordt, Birgit, Wirth, Christian, and Römermann, Christine

Published

2024

40. Natural ELF fields in the atmosphere and in living organisms

Author

Price, Colin, Williams, Earle, Elhalel, Gal, and Sentman, Dave

Published

2021

41. Weather and climate in the assessment of tourism-related walkability.

Author

Hall, C. Michael and Ram, Yael

Subjects

WALKABILITY, WEATHER, BUILT environment, AESTHETICS, WATER diversion, RECREATION, OUTDOOR recreation

Abstract

Walking is an important outdoor recreational and tourism activity, both in natural surroundings and in urban settings. Walkability is the extent to which the built environment promotes walking, and addresses issues such as comfort, connectivity, safety and aesthetic values. The paper explores a relatively overlooked domain of recreation- and tourism-related walkability: the extent to which weather and climatic conditions are incorporated into assessments of walkability and their influence on walking behaviour. Following a discussion of the assessment of walkability, the results of a scoping review of weather- and climate-related variables in walkability articles published up to June 2018 are presented. The review indicates there is little research on walkability from a tourist perspective, although there is substantial interest in walking for leisure and recreation. Four major themes were identified. The descriptive theme focuses on the general importance of weather and climate to walkability; the passive analyses the weather and climate conditions as barriers to, or as promoters of, walking; proactive studies refer to adapting to and managing weather, such as provision of shade or snow-clearing. The proactive perspective gains less attention than the passive analysis. Finally, statistical controlling was only employed by a minority of studies that adjusted their results to the impacts of weather conditions. The work concludes that the sub-field has been poorly served with respect to concept and variable definition and consistency of use mean that present knowledge is of limited scientific value. Strategies for future research are suggested. [ABSTRACT FROM AUTHOR]

Published

2021

42. Drought patterns: their spatiotemporal variability and impacts on maize production in Limpopo province, South Africa.

Author

Ferreira, Nicole Costa Resende, Rötter, Reimund Paul, Bracho-Mujica, Gennady, Nelson, William C. D., Lam, Quang Dung, Recktenwald, Claus, Abdulai, Isaaka, Odhiambo, Jude, and Foord, Stefan

Subjects

DROUGHTS, CLIMATE change, ATMOSPHERIC models, CORN breeding, CROP growth, SUMMER, CORN

Abstract

Due to global climate change, droughts are likely to become more frequent and more severe in many regions such as in South Africa. In Limpopo, observed high climate variability and projected future climate change will likely increase future maize production risks. This paper evaluates drought patterns in Limpopo at two representative sites. We studied how drought patterns are projected to change under future climatic conditions as an important step in identifying adaptation measures (e.g., breeding maize ideotypes resilient to future conditions). Thirty-year time horizons were analyzed, considering three emission scenarios and five global climate models. We applied the WOFOST crop model to simulate maize crop growth and yield formation over South Africa's summer season. We considered three different crop emergence dates. Drought indices indicated that mainly in the scenario SSP5-8.5 (2051–2080), Univen and Syferkuil will experience worsened drought conditions (DC) in the future. Maize yield tends to decline and future changes in the emergence date seem to impact yield significantly. A possible alternative is to delay sowing date to November or December to reduce the potential yield losses. The grain filling period tends to decrease in the future, and a decrease in the duration of the growth cycle is very likely. Combinations of changed sowing time with more drought tolerant maize cultivars having a longer post-anthesis phase will likely reduce the potential negative impact of climate change on maize. [ABSTRACT FROM AUTHOR]

Published

2023

43. Prediction of leptospirosis outbreaks by hydroclimatic covariates: a comparative study of statistical models.

Author

Llop, María José, Gómez, Andrea, Llop, Pamela, López, María Soledad, and Müller, Gabriela V.

Subjects

LEPTOSPIROSIS, STATISTICAL models, SPIROCHETES, MOVING average process, COMMUNICABLE diseases, BOX-Jenkins forecasting

Abstract

Leptospirosis, the infectious disease caused by a spirochete bacteria, is a major public health problem worldwide. In Argentina, some regions have climatic and geographical characteristics that favor the habitat of bacteria of the Leptospira genus, whose survival strongly depends on climatic factors, enhanced by climate change, which increase the problems associated with people's health. In order to have a method to predict leptospirosis cases, in this paper, five time series forecasting methods are compared: two parametric (autoregressive integrated moving average and an alternative one that allows covariates, ARIMA and ARIMAX, respectively), two nonparametric (Nadaraya-Watson Kernel estimator, one and two kernels versions, NW-1 K and NW-2 K), and one semiparametric (semi-functional partial linear regression, SFPLR) method. For this, the number of cases of leptospirosis registered from 2009 to 2020 in three important cities of northeastern Argentina is used, as well as hydroclimatic covariates related to the presence of cases. According to the obtained results, there is no method that improves considerably the rest and can be recommended as a unique tool for leptospirosis prediction. However, in general, the NW-2 K method gets a better performance. This work, in addition to using a long-term high-quality time series, enriches the area of applications of statistical models to epidemiological leptospirosis data by the incorporation of hydroclimatic variables, and it is recommended directing further efforts in this line of research, under the context of current climate change. [ABSTRACT FROM AUTHOR]

Published

2022

44. Machine Learning approach to Predict net radiation over crop surfaces from global solar radiation and canopy temperature data.

Author

Banerjee, Saon, Singal, Gaurav, Saha, Sarathi, Mittal, Himanshu, Srivastava, Manu, Mukherjee, Asis, Mahato, Sayak, Saikia, Barnali, Thakur, Sudipta, Samanta, Suman, Kushwaha, Riti, and Garg, Deepak

Subjects

GLOBAL radiation, ARTIFICIAL neural networks, SOLAR radiation, MACHINE learning, BOOSTING algorithms, RADIATION

Abstract

As the ground-based instruments for measuring net radiation are costly and need to be handled skillfully, the net radiation data at spatial and temporal scales over Indian subcontinent are scanty. Sometimes, it is necessary to use other meteorological parameters to estimate the value of net radiation, although the prediction may vary based on season, ground cover and estimation method. In this context, artificial intelligence can be used as a powerful tool for predicting the data considering past observed data. This paper proposes a novel method to predict the net radiation for five crop surfaces using global solar radiation and canopy temperature. This contribution includes the generation of real-time data for five crops grown in West Bengal state of India. After manual analysis and data preprocessing, data normalization has been done before applying machine learning approaches for training a robust model. We have presented the comparison in various machine learning algorithm such as ridge and spline regression, random forest, ensemble and deep neural networks. The result shows that the gradient boosting regression and ridge regression are outperforming other ML approaches. The estimated predictors enable to reduce the number of resources in terms of time, cost and manpower for proper net radiation estimation. Thus, the problem of predicting net radiation over various crop surfaces can be sorted out through ML algorithm. [ABSTRACT FROM AUTHOR]

Published

2022

45. Low sensitivity of Pinus mugo to surface ozone pollution in the subalpine zone of continental Europe.

Author

Lukasová, Veronika, Bičárová, Svetlana, Buchholcerová, Anna, and Adamčíková, Katarína

Subjects

SUBALPINE zone, MOUNTAIN climate, OZONE, PINE, VEGETATION greenness, POLLUTION, TROPOSPHERIC ozone

Abstract

High altitudes have been exposed to enhanced levels of surface ozone (O3) concentrations over recent decades compared to the pre-industrial era. The responses of vegetation to this toxic pollutant are species-specific and depend on the climate conditions. In this paper, we explored the reaction of Pinus mugo (P. mugo) to O3-induced stress in the continental climate of an ozone-rich mountain area in the High Tatra Mountains (Western Carpathians). The effects of O3 doses modelled by a deposition model, O3 concentrations and other factors on P. mugo were identified from (a) satellite-based data via NDVI (normalised differenced vegetation index) over 2000–2020 and (b) visible injury on needle samples gathered from P. mugo individuals at ground-truth sites in 2019 and 2020. Analysing the NDVI trend, we observed non-significant changes (p > 0.05) in the greenness of P. mugo despite growing in an environment with the average seasonal O3 concentration around 51.6 ppbv, the maximum hourly concentrations more than 90 ppbv and increasing trend of O3 doses by 0.1 mmol m−2 PLA (plant leaf area) year−1. The visible O3 injury of samples collected at study sites was low (mean injury observed on 1–10% of needles' surface), and the symptoms of injury caused by other biotic and abiotic factors prevailed over those caused by O3. In addition, the correlation analyses between NDVI and the climatic factors indicated a significant (p < 0.05) and positive relationship with photosynthetic active radiation (R = 0.45) in July, and with stomatal conductance (R = 0.52) and temperature factor (R = 0.43) in August. Therefore, we concluded that the positive effect of climate conditions, which support the growth processes of P. mugo, may suppress the negative effect of the mean O3 doses of 17.8 mmol m−2 PLA accumulated over the growing season. [ABSTRACT FROM AUTHOR]

Published

2022

46. Semantics of outdoor thermal comfort in religious squares of composite climate: New Delhi, India

Author

Manavvi, S. and Rajasekar, E.

Published

2020

47. A device to improve the Schleger and Turner method for sweating rate measurements.

Author

Alfredo Pereira, Alexandre Alves, Paulo Infante, Evaldo Titto, Flávio Baccari, and J. Almeida

Subjects

SWEAT glands, SCIENTIFIC apparatus & instruments, FUNCTIONAL analysis, HEIFERS, FIELD research, MEASUREMENT

Abstract

Abstract  The objective of this study was to test a device developed to improve the functionality, accuracy and precision of the original technique for sweating rate measurements proposed by Schleger and Turner [Schleger AV, Turner HG (1965) Aust J Agric Res 16:92–106]. A device was built for this purpose and tested against the original Schleger and Turner technique. Testing was performed by measuring sweating rates in an experiment involving six Mertolenga heifers subjected to four different thermal levels in a climatic chamber. The device exhibited no functional problems and the results obtained with its use were more consistent than with the Schleger and Turner technique. There was no difference in the reproducibility of the two techniques (same accuracy), but measurements performed with the new device had lower repeatability, corresponding to lower variability and, consequently, to higher precision. When utilizing this device, there is no need for physical contact between the operator and the animal to maintain the filter paper discs in position. This has important advantages: the animals stay quieter, and several animals can be evaluated simultaneously. This is a major advantage because it allows more measurements to be taken in a given period of time, increasing the precision of the observations and diminishing the error associated with temporal hiatus (e.g., the solar angle during field studies). The new device has higher functional versatility when taking measurements in large-scale studies (many animals) under field conditions. The results obtained in this study suggest that the technique using the device presented here could represent an advantageous alternative to the original technique described by Schleger and Turner. [ABSTRACT FROM AUTHOR]

Published

2010

48. Evaluation of thermal indices for their applicability in obstacle-resolving meteorology models.

Author

Fischereit, Jana and Schlünzen, K. Heinke

Subjects

THERMAL comfort, METEOROLOGY, ATMOSPHERIC models, PUBLIC spaces, URBAN life

Abstract

A thermally comfortable design of outdoor spaces favors social interaction and outdoor activities and thus contributes to the overall well-being of urban dwellers. To assess such a design, obstacle-resolving models (ORM) combined with thermal indices may be used. This paper reviews existing thermal indices to identify those suitable for thermal comfort assessment with ORMs. For the identification, 11 criteria and six index features are derived from literature analysis focusing on the characteristics of human environmental heat exchange, of outdoor urban environments, and of ORMs. An air temperature weighted world population distribution is calculated to derive the minimal air temperature range; a thermal index should cover to be applicable to 95% of the world population. The criteria are applied to 165 thermal indices by reviewing their original publications. Results show that only four thermal indices are suitable to be applied globally in their current form to various outdoor urban environments and also fulfill the requirements of ORMs. The evaluation of the index features shows that they differ with respect to the comprehensiveness of the thermophysiological model, the assessed human response, the treatment of clothing and activity, and the computational costs. Furthermore, they differ in their total application frequency in past ORM studies and in their application frequency for different climatic zones, as a systematic literature analysis of thermal comfort studies employing ORMs showed. By depicting the differences of the thermal indices, this paper provides guidance to select an appropriate thermal index for thermal comfort studies with ORMs. [ABSTRACT FROM AUTHOR]

Published

2018

49. Challenges of using air conditioning in an increasingly hot climate.

Author

Lundgren-Kownacki, Karin, Hornyanszky, Elisabeth Dalholm, Chu, Tuan Anh, Olsson, Johanna Alkan, and Becker, Per

Subjects

AIR conditioning & the environment, ATMOSPHERIC temperature, HUMIDITY, CLIMATE change, SUSTAINABILITY

Abstract

At present, air conditioning (AC) is the most effective means for the cooling of indoor space. However, its increased global use is problematic for various reasons. This paper explores the challenges linked to increased AC use and discusses more sustainable alternatives. A literature review was conducted applying a transdisciplinary approach. It was further complemented by examples from cities in hot climates. To analyse the findings, an analytical framework was developed which considers four societal levels—individual, community, city, and national. The main challenges identified from the literature review are as follows: environmental, organisational, socio-economical, biophysical and behavioural. The paper also identifies several measures that could be taken to reduce the fast growth of AC use. However, due to the complex nature of the problem, there is no single solution to provide sustainable cooling. Alternative solutions were categorised in three broad categories: climate-sensitive urban planning and building design, alternative cooling technologies, and climate-sensitive attitudes and behaviour. The main findings concern the problems arising from leaving the responsibility to come up with cooling solutions entirely to the individual, and how different societal levels can work towards more sustainable cooling options. It is concluded that there is a need for a more holistic view both when it comes to combining various solutions as well as involving various levels in society. [ABSTRACT FROM AUTHOR]

Published

2018

50. The association between ambient temperature and childhood asthma: a systematic review.

Author

Xu, Zhiwei, Crooks, James Lewis, Davies, Janet Mary, Khan, Al Fazal, Hu, Wenbiao, and Tong, Shilu

Subjects

ATMOSPHERIC temperature, ASTHMA in children, CLIMATE change & health, DATABASES, ABSOLUTE temperature

Abstract

The objectives of this study are to review available information on the association between ambient temperature and childhood asthma, and to elucidate the possible underlying mechanisms of this relationship. A systematic review was conducted based on the papers retrieved from four databases, including PubMed, ProQuest, ScienceDirect, and Scopus. Papers examining the association of absolute temperature or temperature variation with childhood asthma published from 1 January 2000 to 31 December 2016 were included. Thirteen papers have quantified the effect of absolute temperature on childhood asthma, and six papers have examined the effect of intra- or inter-day temperature variation on childhood asthma. All studies were conducted in urban areas. Aeroallergen sensitizations were only considered in the analyses of one study. Discrepancy existed in the significance of the relationship between absolute temperature and childhood asthma, and also in the shape of this relationship (i.e. linear or non-linear) and whether temperature effects were lagged. Increasing evidence is suggesting non-linear relationship between absolute temperature and childhood asthma. Future research should investigate the burden of childhood asthma specifically attributable to extreme temperatures and temperature variation using advanced statistical approach, particularly in rural areas, after properly considering aeroallergens and air pollution. Projecting future burden of childhood asthma under climate change scenarios is also warranted. [ABSTRACT FROM AUTHOR]

Published

2018