Your search keyword '"Savage PE"' showing total 101 results

1. Testing the Big Gods hypothesis with global historical data: a review and 'retake'

Author

Whitehouse, H, Francois, P, Savage, PE, Hoyer, D, Feeney, KC, Cioni, E, Purcell, R, Larson, J, Baines, J, ter Haar, B, Covey, A, Turchin, P, Whitehouse, H, Francois, P, Savage, PE, Hoyer, D, Feeney, KC, Cioni, E, Purcell, R, Larson, J, Baines, J, ter Haar, B, Covey, A, and Turchin, P

Published

2023

2. Explaining the rise of moralizing religions: a test of competing hypotheses using the Seshat Databank

Author

Turchin, P, Whitehouse, H, Larson, J, Cioni, E, Reddish, J, Hoyer, D, Savage, PE, Covey, RA, Baines, J, Altaweel, M, Anderson, E, Bol, P, Brandl, E, Carballo, DM, Feinman, G, Korotayev, A, Kradin, N, Levine, JD, Nugent, SE, Squitieri, A, Wallace, V, Francois, P, Turchin, P, Whitehouse, H, Larson, J, Cioni, E, Reddish, J, Hoyer, D, Savage, PE, Covey, RA, Baines, J, Altaweel, M, Anderson, E, Bol, P, Brandl, E, Carballo, DM, Feinman, G, Korotayev, A, Kradin, N, Levine, JD, Nugent, SE, Squitieri, A, Wallace, V, and Francois, P

Published

2023

3. Big Gods and big science: further reflections on theory, data, and analysis RESPONSE

Author

Turchin, P, Whitehouse, H, Larson, J, Cioni, E, Reddish, J, Hoyer, D, Savage, PE, Covey, RA, Baines, J, Altaweel, M, Anderson, E, Bol, P, Brandl, E, Carballo, DM, Feinman, G, Korotayev, A, Kradin, N, Levine, JD, Nugent, SE, Squitieri, A, Wallace, V, Francois, P, Turchin, P, Whitehouse, H, Larson, J, Cioni, E, Reddish, J, Hoyer, D, Savage, PE, Covey, RA, Baines, J, Altaweel, M, Anderson, E, Bol, P, Brandl, E, Carballo, DM, Feinman, G, Korotayev, A, Kradin, N, Levine, JD, Nugent, SE, Squitieri, A, Wallace, V, and Francois, P

Published

2023

4. Clip sterilization—failure of tubal occlusion

Author

Savage Pe and Dixon G

Subjects

medicine.medical_specialty, Sterilization, Tubal, Lumen (anatomy), Argon plasma coagulation, Surgical Equipment, Tubal occlusion, medicine, Positive Pregnancy Test, cardiovascular diseases, CLIPS, Contraception Behavior, Sterilization Failure, computer.programming_language, Pregnancy, business.industry, Research, Sterilization, Reproductive, Obstetrics and Gynecology, Surgical Instruments, medicine.disease, Bilateral Partial Salpingectomy, Surgery, Contraception, Equipment and Supplies, Evaluation Studies as Topic, Family Planning Services, business, computer

Abstract

This case report describes a failure after correct clip application at a time unrelated to pregnancy and discusses some implications of this form of sterilization. A 26-year-old patient with 3 children had a laparoscopic clip sterilization performed by a double portal approach. A good view of a normal pelvis was obtained and a clip applied to the isthmic region of each tube, approximately 2 cm from the cornu. The clips appeared to be completely across both tubes. The patient presented again 4 months later with a history of 7 weeks' amenorrhea and a positive pregnancy test. Vagainal suction termination of the pregnancy was performed and bilateral partial salpingectomy performed through a small transverse suprapubic incision. The portion of tube beneath the left clip was completely occluded on histological examination, while that on the right was obviously patent. The clips were completely across and correctly applied at right angles to the isthmic regions with no other adjacent structures included: the hinges were apparently intact and the springs were fully engaged. Most reported cases of pregnancy when clips were thought to have been correctly applied (although such application is rarely confirmed by further study) occur within 11 months of the primary procedure, suggesting failure of tubal occlusion to be the cause, rather than recanalization. It is believed that this pregnant case is the 1st reported in which failure to occlude a tube has been followed by careful assessment of the anatomical correctness of application and histological examination of the clipped portions of both tubes. The case demonstrates that even when clips are correctly applied, with careful exclusion of adjacent nontubal structures, and at a time unrelated to pregnancy, there is still no visible evidence of tubal occlusion such as that seen after ring or coagulation procedures. While it is possible that the clip mechanism itself was at fault, both clips were completely locked over their respective tubes, and one had produced absolute histological obliteration of the lumen. Failure of the clip method, however rare, may therefore be entirely unpredictable. It appears that further evaluation of clip application is indicated in view of this failure with anatomically normal, nonpregnant tubes.

Published

1981

5. Magnetic resonance assessment of regional left ventricular function

Author

Underwood, SR, primary, Rees, RSO, additional, Savage, PE, additional, Klipstein, RH, additional, Firmin, DN, additional, Fox, KM, additional, Poole-Wilson, PA, additional, and Longmore, DB, additional

Published

1986

6. Conflicting predictions in the cross-cultural study of music and sociality - Comment on "Musical engagement as a duet of tight synchrony and loose Interpretability" by Tal-Chen Rabinowitch.

Author

Shilton D and Savage PE

Subjects

Humans, Social Behavior, Music, Cross-Cultural Comparison

Abstract

Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper.

Published

2024

7. Globally, songs and instrumental melodies are slower and higher and use more stable pitches than speech: A Registered Report.

Author

Ozaki Y, Tierney A, Pfordresher PQ, McBride JM, Benetos E, Proutskova P, Chiba G, Liu F, Jacoby N, Purdy SC, Opondo P, Fitch WT, Hegde S, Rocamora M, Thorne R, Nweke F, Sadaphal DP, Sadaphal PM, Hadavi S, Fujii S, Choo S, Naruse M, Ehara U, Sy L, Parselelo ML, Anglada-Tort M, Hansen NC, Haiduk F, Færøvik U, Magalhães V, Krzyżanowski W, Shcherbakova O, Hereld D, Barbosa BS, Varella MAC, van Tongeren M, Dessiatnitchenko P, Zar SZ, El Kahla I, Muslu O, Troy J, Lomsadze T, Kurdova D, Tsope C, Fredriksson D, Arabadjiev A, Sarbah JP, Arhine A, Meachair TÓ, Silva-Zurita J, Soto-Silva I, Millalonco NEM, Ambrazevičius R, Loui P, Ravignani A, Jadoul Y, Larrouy-Maestri P, Bruder C, Teyxokawa TP, Kuikuro U, Natsitsabui R, Sagarzazu NB, Raviv L, Zeng M, Varnosfaderani SD, Gómez-Cañón JS, Kolff K, der Nederlanden CVB, Chhatwal M, David RM, Setiawan IPG, Lekakul G, Borsan VN, Nguqu N, and Savage PE

Subjects

Humans, Male, Pitch Perception physiology, Female, Adult, Pre-Registration Publication, Music, Speech physiology, Language

Abstract

Both music and language are found in all known human societies, yet no studies have compared similarities and differences between song, speech, and instrumental music on a global scale. In this Registered Report, we analyzed two global datasets: (i) 300 annotated audio recordings representing matched sets of traditional songs, recited lyrics, conversational speech, and instrumental melodies from our 75 coauthors speaking 55 languages; and (ii) 418 previously published adult-directed song and speech recordings from 209 individuals speaking 16 languages. Of our six preregistered predictions, five were strongly supported: Relative to speech, songs use (i) higher pitch, (ii) slower temporal rate, and (iii) more stable pitches, while both songs and speech used similar (iv) pitch interval size and (v) timbral brightness. Exploratory analyses suggest that features vary along a "musi-linguistic" continuum when including instrumental melodies and recited lyrics. Our study provides strong empirical evidence of cross-cultural regularities in music and speech.

Published

2024

8. Global musical diversity is largely independent of linguistic and genetic histories.

Author

Passmore S, Wood ALC, Barbieri C, Shilton D, Daikoku H, Atkinson QD, and Savage PE

Subjects

Humans, Genetic Variation, Asia, Southeastern, Cultural Diversity, Africa South of the Sahara, Music, Linguistics, Language

Abstract

Music is a universal yet diverse cultural trait transmitted between generations. The extent to which global musical diversity traces cultural and demographic history, however, is unresolved. Using a global musical dataset of 5242 songs from 719 societies, we identify five axes of musical diversity and show that music contains geographical and historical structures analogous to linguistic and genetic diversity. After creating a matched dataset of musical, genetic, and linguistic data spanning 121 societies containing 981 songs, 1296 individual genetic profiles, and 121 languages, we show that global musical similarities are only weakly and inconsistently related to linguistic or genetic histories, with some regional exceptions such as within Southeast Asia and sub-Saharan Africa. Our results suggest that global musical traditions are largely distinct from some non-musical aspects of human history., (© 2024. The Author(s).)

Published

2024

9. Commonality and variation in mental representations of music revealed by a cross-cultural comparison of rhythm priors in 15 countries.

Author

Jacoby N, Polak R, Grahn JA, Cameron DJ, Lee KM, Godoy R, Undurraga EA, Huanca T, Thalwitzer T, Doumbia N, Goldberg D, Margulis EH, Wong PCM, Jure L, Rocamora M, Fujii S, Savage PE, Ajimi J, Konno R, Oishi S, Jakubowski K, Holzapfel A, Mungan E, Kaya E, Rao P, Rohit MA, Alladi S, Tarr B, Anglada-Tort M, Harrison PMC, McPherson MJ, Dolan S, Durango A, and McDermott JH

Subjects

Humans, Male, Adult, Female, Young Adult, Cognition physiology, Music psychology, Cross-Cultural Comparison, Auditory Perception physiology

Abstract

Music is present in every known society but varies from place to place. What, if anything, is universal to music cognition? We measured a signature of mental representations of rhythm in 39 participant groups in 15 countries, spanning urban societies and Indigenous populations. Listeners reproduced random 'seed' rhythms; their reproductions were fed back as the stimulus (as in the game of 'telephone'), such that their biases (the prior) could be estimated from the distribution of reproductions. Every tested group showed a sparse prior with peaks at integer-ratio rhythms. However, the importance of different integer ratios varied across groups, often reflecting local musical practices. Our results suggest a common feature of music cognition: discrete rhythm 'categories' at small-integer ratios. These discrete representations plausibly stabilize musical systems in the face of cultural transmission but interact with culture-specific traditions to yield the diversity that is evident when mental representations are probed across many cultures., (© 2024. The Author(s).)

Published

2024

10. Group singing is globally dominant and associated with social context.

Author

Shilton D, Passmore S, and Savage PE

Abstract

Music is an interactive technology associated with religious and communal activities and was suggested to have evolved as a participatory activity supporting social bonding. In post-industrial societies, however, music's communal role was eclipsed by its relatively passive consumption by audiences disconnected from performers. It was suggested that as societies became larger and more differentiated, music became less participatory and more focused on solo singing. Here, we consider the prevalence of group singing and its relationship to social organization through the analysis of two global song corpora: 5776 coded audio recordings from 1024 societies, and 4709 coded ethnographic texts from 60 societies. In both corpora, we find that group singing is more common than solo singing, and that it is more likely in some social contexts (e.g. religious rituals, dance) than in others (e.g. healing, infant care). In contrast, relationships between group singing and social structure (community size or social differentiation) were not consistent within or between corpora. While we cannot exclude the possibility of sampling bias leading to systematic under-sampling of solo singing, our results from two large global corpora of different data types provide support for the interactive nature of music and its complex relationship with sociality., Competing Interests: We declare we have no competing interests., (© 2023 The Authors.)

Published

2023

11. The Exceptions and the Rules in Global Musical Diversity.

Author

Passmore S and Savage PE

Abstract

Global music diversity is a popular topic for both scientific and humanities researchers, but often for different reasons. Scientific research typically focuses on the generalities through measurement and statistics, while humanists typically emphasize exceptions using qualitative approaches. But these two approaches need not be mutually exclusive. Using a quantitative approach to identify musical outliers and a qualitative discussion of the most unusual songs, we can combine scientific and humanities approaches to unite knowledge on musical diversity. Objectively defining unusual music is a delicate task, having historically been subject to Eurocentric approaches. Using the Global Jukebox, a dataset containing almost 6,000 songs from over 1,000 societies coded on 37 "Cantometric" variables of musical style, we designate the unusualness of a song as the frequency of its coded variables relative to their regional frequency. Using quantitative metrics to identify outliers in musical diversity, we present a qualitative discussion of some of the most unusual individual songs (from a Panpipe ensemble from Kursk, Russia), and a comparison of unusual repertoires from Malay, Kel Aïr, and Moroccan Berber musical cultures. We also ask whether unusual music is the result of unusual social organisation or isolation from other groups. There is weak evidence that the unusualness of music is predicted by kinship organisation and cultural isolation, but these predictors are heavily outweighed by the finding that unusual songs are best predicted by knowing the society they come from - evidence that quantitatively supports the existence of musical style., Competing Interests: The authors have no competing interests to declare., (Copyright: © 2023 The Author(s).)

Published

2023

12. Cross-cultural Perception of Musical Similarity Within and Between India and Japan.

Author

Daikoku H, Shimozono T, Fujii S, Hegde S, and Savage PE

Abstract

Cross-cultural perception of musical similarity is important for understanding musical diversity and universality. In this study we analyzed cross-cultural music similarity ratings on a global song sample from 110 participants (62 previously published from Japan, 48 newly collected from musicians and non-musicians from north and south India). Our pre-registered hypothesis that average Indian and Japanese ratings would be correlated was strongly supported ( r = .80, p <.001). Exploratory analyses showed that ratings from experts in Hindustani music from the north and Carnatic music from the south showed the lowest correlations ( r = .25). These analyses suggest that the correlations we found are likely due more to shared musical exposure than to innate universals of music perception., Competing Interests: Declaration of Conflicting Interests The author(s) declared the following potential conflicts of interest with respect to the research, authorship, and/or publication of this article: Coauthor TS is employed by the Yamaha Corporation, who funded this study. This has no effect on our interpretation, but we are declaring this in the interest of transparency.

Published

2023

13. The Global Jukebox: A public database of performing arts and culture.

Author

Wood ALC, Kirby KR, Ember CR, Silbert S, Passmore S, Daikoku H, McBride J, Paulay F, Flory MJ, Szinger J, D'Arcangelo G, Bradley KK, Guarino M, Atayeva M, Rifkin J, Baron V, El Hajli M, Szinger M, and Savage PE

Subjects

Humans, Reproducibility of Results, Cross-Cultural Comparison, Language, Databases, Factual, Culture, Music

Abstract

Standardized cross-cultural databases of the arts are critical to a balanced scientific understanding of the performing arts, and their role in other domains of human society. This paper introduces the Global Jukebox as a resource for comparative and cross-cultural study of the performing arts and culture. The Global Jukebox adds an extensive and detailed global database of the performing arts that enlarges our understanding of human cultural diversity. Initially prototyped by Alan Lomax in the 1980s, its core is the Cantometrics dataset, encompassing standardized codings on 37 aspects of musical style for 5,776 traditional songs from 1,026 societies. The Cantometrics dataset has been cleaned and checked for reliability and accuracy, and includes a full coding guide with audio training examples (https://theglobaljukebox.org/?songsofearth). Also being released are seven additional datasets coding and describing instrumentation, conversation, popular music, vowel and consonant placement, breath management, social factors, and societies. For the first time, all digitized Global Jukebox data are being made available in open-access, downloadable format (https://github.com/theglobaljukebox), linked with streaming audio recordings (theglobaljukebox.org) to the maximum extent allowed while respecting copyright and the wishes of culture-bearers. The data are cross-indexed with the Database of Peoples, Languages, and Cultures (D-PLACE) to allow researchers to test hypotheses about worldwide coevolution of aesthetic patterns and traditions. As an example, we analyze the global relationship between song style and societal complexity, showing that they are robustly related, in contrast to previous critiques claiming that these proposed relationships were an artifact of autocorrelation (though causal mechanisms remain unresolved)., Competing Interests: The authors have declared that no competing interests exist.

Published

2022

14. Towards a cross-cultural framework for predictive coding of music.

Author

Savage PE and Fujii S

Subjects

Cross-Cultural Comparison, Humans, Music

Published

2022

15. Protocol to develop component additivity models that predict oil yield from hydrothermal liquefaction.

Author

Seshasayee MS and Savage PE

Subjects

Biomass, Solvents, Temperature, Biofuels, Plastics

Abstract

Here, we describe steps for performing hydrothermal liquefaction (HTL) experiments and developing component additivity models that predict oil yields from HTL of mixtures with biomass and plastics. Such models could be developed for predicting outcomes from any thermochemical valorization process (e.g., pyrolysis) for any feedstock. The HTL protocol explains experiments with both a single component and mixture. The model is constrained to the specific plastic feedstocks and solvents for product recovery used in the experiments. For complete details on the use and execution of this protocol, please refer to Seshasayee et al. (2021)., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2022 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2022

16. Hydrothermal liquefaction of polysaccharide feedstocks with heterogeneous catalysts.

Author

Ding X, Mahadevan Subramanya S, Waltz KE, Wang Y, and Savage PE

Subjects

Biofuels analysis, Biomass, Cellulose, Chitin, Pectins, Spectroscopy, Fourier Transform Infrared, Temperature, Water, Polysaccharides, Starch

Abstract

Hydrothermal liquefaction (HTL) of starch, cellulose, pectin, and chitin with Pd/C, Co-Mo/γ-Al 2 O 3 , and zeolite was investigated at 320 °C for 30 min. Using Co-Mo/γ-Al 2 O 3 at 5 wt% loading led to the highest biocrude yields from starch (25 wt%) and cellulose (23 wt%). The yields from cellulose are more than twice those from noncatalytic HTL (11 wt%). Co-Mo/γ-Al 2 O 3 was also the only catalyst (25 wt% loading) to increase biocrude yields (by 1.6 - 2.6 wt%) from HTL of chitin and pectin. The biocrudes were characterized by elemental analysis, TGA, FT-IR and GC-MS. Catalytic HTL with Co-Mo/γ-Al 2 O 3 had little effect on the elemental composition of the biocrudes. The presence of Co-Mo/γ-Al 2 O 3 increased the low-boiling portion of biocrude from<30% to over 50% for HTL of starch. Finally, a component additivity model that accurately predicts biocrude yields from catalytic HTL of a mixture is presented., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2022

17. Sequence alignment of folk song melodies reveals cross-cultural regularities of musical evolution.

Author

Savage PE, Passmore S, Chiba G, Currie TE, Suzuki H, and Atkinson QD

Subjects

Auditory Perception, Cross-Cultural Comparison, Language, Sequence Alignment, Cultural Evolution, Music psychology

Abstract

Culture evolves, 1-5 but the existence of cross-culturally general regularities of cultural evolution is debated. 6-8 As a diverse but universal cultural phenomenon, music provides a novel domain to test for the existence of such regularities. 9-12 Folk song melodies can be thought of as culturally transmitted sequences of notes that change over time under the influence of cognitive and acoustic/physical constraints. 9-15 Modeling melodies as evolving sequences constructed from an "alphabet" of 12 scale degrees 16 allows us to quantitatively test for the presence of cross-cultural regularities using a sample of 10,062 melodies from musically divergent Japanese and English (British/American) folk song traditions. 17 , 18 Our analysis identifies 328 pairs of highly related melodies, finding that note changes are more likely when they have smaller impacts on a song's melody. Specifically, (1) notes with stronger rhythmic functions are less likely to change, and (2) note substitutions are most likely between neighboring notes. We also find that note insertions/deletions ("indels") are more common than note substitutions, unlike genetic evolution where the reverse is true. Our results are consistent across English and Japanese samples despite major differences in their scales and tonal systems. These findings demonstrate that even a creative art form such as music is subject to evolutionary constraints analogous to those governing the evolution of genes, languages, and other domains of culture., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2022 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2022

18. Hydrothermal carbonization of simulated food waste for recovery of fatty acids and nutrients.

Author

Motavaf B, Dean RA, Nicolas J, and Savage PE

Subjects

Carbon, Fatty Acids, Nutrients, Temperature, Food, Refuse Disposal

Abstract

We conducted Hydrothermal carbonization (HTC) of simulated food waste under different reaction conditions (180 to 220 °C, 15 and 30 min), with the aim of recovering both fatty acids from the hydrochar and nutrients from the aqueous-phase products. HTC of the simulated food waste produced hydrochar that retained up to 78% of the original fatty acids. These retained fatty acids were extracted from the hydrochar using ethanol, a food-grade solvent, and gave a net recovery of fatty acid of ∼ 50%. The HTC process partitioned more than 50 wt% of the phosphorus and around 38 wt% of the nitrogen into the aqueous-phase products. A reaction path consistent with decarboxylation predominated during HTC under all of the reaction conditions investigated. A path consistent with dehydration was also observed, but only for the more severe reaction conditions. This work illustrates the potential that HTC has for valorization of food waste., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2021

19. Component additivity model for plastics-biomass mixtures during hydrothermal liquefaction in sub-, near-, and supercritical water.

Author

Seshasayee MS, Stofanak R, and Savage PE

Abstract

We produced oils via hydrothermal liquefaction (HTL) of binary mixtures of biomass components (e.g., lignin, cellulose, starch) with different plastics and binary mixtures of plastics themselves. Cellulose, starch, and lignin demonstrated synergistic interactions (i.e., enhanced oil yields) with the plastics tested (polypropylene, polycarbonate, polystyrene, and polyethylene terephthalate). Polystyrene exhibited synergy during HTL with the three other plastics as did polypropylene during HTL with PET or PC. We used the experimental results to develop the first component-additivity model that predicts the oil yields from HTL of biomass-plastic and plastic-plastic mixtures. The model accounts for interactions among and between biomass components and plastic components in sub-, near-, and supercritical water. The model predicts 88% of 48 published oil yields from HTL experiments with mixtures containing plastics to within 10 wt%., Competing Interests: The authors declare no competing interests., (© 2021 The Author(s).)

Published

2021

20. Toward inclusive theories of the evolution of musicality.

Author

Savage PE, Loui P, Tarr B, Schachner A, Glowacki L, Mithen S, and Fitch WT

Subjects

Biological Evolution, Humans, Adaptation, Physiological, Music

Abstract

We compare and contrast the 60 commentaries by 109 authors on the pair of target articles by Mehr et al. and ourselves. The commentators largely reject Mehr et al.'s fundamental definition of music and their attempts to refute (1) our social bonding hypothesis, (2) byproduct hypotheses, and (3) sexual selection hypotheses for the evolution of musicality. Instead, the commentators generally support our more inclusive proposal that social bonding and credible signaling mechanisms complement one another in explaining cooperation within and competition between groups in a coevolutionary framework (albeit with some confusion regarding terminologies such as "byproduct" and "exaptation"). We discuss the proposed criticisms and extensions, with a focus on moving beyond adaptation/byproduct dichotomies and toward testing of cross-species, cross-cultural, and other empirical predictions.

Published

2021

21. Exploring correlations in genetic and cultural variation across language families in northeast Asia.

Author

Matsumae H, Ranacher P, Savage PE, Blasi DE, Currie TE, Koganebuchi K, Nishida N, Sato T, Tanabe H, Tajima A, Brown S, Stoneking M, Shimizu KK, Oota H, and Bickel B

Abstract

Culture evolves in ways that are analogous to, but distinct from, genomes. Previous studies examined similarities between cultural variation and genetic variation (population history) at small scales within language families, but few studies have empirically investigated these parallels across language families using diverse cultural data. We report an analysis comparing culture and genomes from in and around northeast Asia spanning 11 language families. We extract and summarize the variation in language (grammar, phonology, lexicon), music (song structure, performance style), and genomes (genome-wide SNPs) and test for correlations. We find that grammatical structure correlates with population history (genetic history). Recent contact and shared descent fail to explain the signal, suggesting relationships that arose before the formation of current families. Our results suggest that grammar might be a cultural indicator of population history while also demonstrating differences among cultural and genetic relationships that highlight the complex nature of human history., (Copyright © 2021 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. Distributed under a Creative Commons Attribution NonCommercial License 4.0 (CC BY-NC).)

Published

2021

22. Green Chemistry: A Framework for a Sustainable Future.

Author

Ganesh KN, Zhang D, Miller SJ, Rossen K, Chirik PJ, Kozlowski MC, Zimmerman JB, Brooks BW, Savage PE, Allen DT, and Voutchkova-Kostal AM

Subjects

Forecasting, Conservation of Natural Resources, Green Chemistry Technology

Published

2021

23. Retraction Note: Complex societies precede moralizing gods throughout world history.

Author

Whitehouse H, François P, Savage PE, Currie TE, Feeney KC, Cioni E, Purcell R, Ross RM, Larson J, Baines J, Ter Haar B, Covey A, and Turchin P

Published

2021

24. Music as a coevolved system for social bonding.

Author

Savage PE, Loui P, Tarr B, Schachner A, Glowacki L, Mithen S, and Fitch WT

Subjects

Animals, Brain, Cultural Evolution, Music

Abstract

Why do humans make music? Theories of the evolution of musicality have focused mainly on the value of music for specific adaptive contexts such as mate selection, parental care, coalition signaling, and group cohesion. Synthesizing and extending previous proposals, we argue that social bonding is an overarching function that unifies all of these theories, and that musicality enabled social bonding at larger scales than grooming and other bonding mechanisms available in ancestral primate societies. We combine cross-disciplinary evidence from archeology, anthropology, biology, musicology, psychology, and neuroscience into a unified framework that accounts for the biological and cultural evolution of music. We argue that the evolution of musicality involves gene-culture coevolution, through which proto-musical behaviors that initially arose and spread as cultural inventions had feedback effects on biological evolution because of their impact on social bonding. We emphasize the deep links between production, perception, prediction, and social reward arising from repetition, synchronization, and harmonization of rhythms and pitches, and summarize empirical evidence for these links at the levels of brain networks, physiological mechanisms, and behaviors across cultures and across species. Finally, we address potential criticisms and make testable predictions for future research, including neurobiological bases of musicality and relationships between human music, language, animal song, and other domains. The music and social bonding hypothesis provides the most comprehensive theory to date of the biological and cultural evolution of music.

Published

2020

25. Cross-Cultural Work in Music Cognition: Challenges, Insights, and Recommendations.

Author

Jacoby N, Margulis EH, Clayton M, Hannon E, Honing H, Iversen J, Klein TR, Mehr SA, Pearson L, Peretz I, Perlman M, Polak R, Ravignani A, Savage PE, Steingo G, Stevens CJ, Trainor L, Trehub S, Veal M, and Wald-Fuhrmann M

Abstract

Many foundational questions in the psychology of music require cross-cultural approaches, yet the vast majority of work in the field to date has been conducted with Western participants and Western music. For cross-cultural research to thrive, it will require collaboration between people from different disciplinary backgrounds, as well as strategies for overcoming differences in assumptions, methods, and terminology. This position paper surveys the current state of the field and offers a number of concrete recommendations focused on issues involving ethics, empirical methods, and definitions of "music" and "culture."

Published

2020

26. Biodiversity Improves Life Cycle Sustainability Metrics in Algal Biofuel Production.

Author

Carruthers DN, Godwin CM, Hietala DC, Cardinale BJ, Lin XN, and Savage PE

Subjects

Biomass, Plants, Recycling, Biodiversity, Biofuels

Abstract

Algal biofuel has yet to realize its potential as a commercial and sustainable bioenergy source, largely due to the challenge of maximizing and sustaining biomass production with respect to energetic and material inputs in large-scale cultivation. Experimental studies have shown that multispecies algal polycultures can be designed to enhance biomass production, stability, and nutrient recycling compared to monocultures. Yet, it remains unclear whether these impacts of biodiversity make polycultures more sustainable than monocultures. Here, we present results of a comparative life cycle assessment (LCA) for algal biorefineries to compare the sustainability metrics of monocultures and polycultures of six fresh-water algal species. Our results showed that when algae were grown in outdoor experimental ponds, certain bicultures improved the energy return on investment (EROI) and greenhouse gas emissions (GHGs) by 20% and 16%, respectively, compared to the best monoculture. Bicultures outperformed monocultures by performing multiple functions simultaneously (e.g., improved stability, nutrient efficiency, biocrude characteristics), which outweighed the higher productivity attainable by a monoculture. Our results demonstrate that algal polycultures with optimized multifunctionality lead to enhanced life cycle metrics, highlighting the significant potential of ecological engineering for enabling future environmentally sustainable algal biorefineries.

Published

2019

27. Complex societies precede moralizing gods throughout world history.

Author

Whitehouse H, François P, Savage PE, Currie TE, Feeney KC, Cioni E, Purcell R, Ross RM, Larson J, Baines J, Ter Haar B, Covey A, and Turchin P

Subjects

Databases, Factual, History, Ancient, Humans, Social Sciences, Geographic Mapping, Morals, Religion history

Abstract

The origins of religion and of complex societies represent evolutionary puzzles 1-8 . The 'moralizing gods' hypothesis offers a solution to both puzzles by proposing that belief in morally concerned supernatural agents culturally evolved to facilitate cooperation among strangers in large-scale societies 9-13 . Although previous research has suggested an association between the presence of moralizing gods and social complexity 3,6,7,9-18 , the relationship between the two is disputed 9-13,19-24 , and attempts to establish causality have been hampered by limitations in the availability of detailed global longitudinal data. To overcome these limitations, here we systematically coded records from 414 societies that span the past 10,000 years from 30 regions around the world, using 51 measures of social complexity and 4 measures of supernatural enforcement of morality. Our analyses not only confirm the association between moralizing gods and social complexity, but also reveal that moralizing gods follow-rather than precede-large increases in social complexity. Contrary to previous predictions 9,12,16,18 , powerful moralizing 'big gods' and prosocial supernatural punishment tend to appear only after the emergence of 'megasocieties' with populations of more than around one million people. Moralizing gods are not a prerequisite for the evolution of social complexity, but they may help to sustain and expand complex multi-ethnic empires after they have become established. By contrast, rituals that facilitate the standardization of religious traditions across large populations 25,26 generally precede the appearance of moralizing gods. This suggests that ritual practices were more important than the particular content of religious belief to the initial rise of social complexity.

Published

2019

28. Supercritical water gasification of phenol over Ni-Ru bimetallic catalysts.

Author

Zhang J, Dasgupta A, Chen Z, Xu D, Savage PE, and Guo Y

Subjects

Catalysis, Hydrogen, Phenols, Phenol, Water

Abstract

Incorporating Ru in a Ni catalyst for gasification of phenol in supercritical water at 450 °C and 30 min promoted formation of cyclohexanol via hydrogenation, which is a key step toward gasification. Both Ni and Ni-Ru catalysts were effective to reduce the formation of cyclohexanone and oligomerization products, compared with the case with no catalyst. H 2 and CH 4 yields increased as the Ru/Ni ratio increased, as did the carbon and hydrogen yields in the gas phase products. The Ni 80 Ru 20 /Al 2 O 3 catalyst provided good gasification performance and it exhibits Ru (101), Ru (100) and Ni (111) facets and evidence of overlaid bimetallic particles. DFT calculations show that the presence of Ru (either as pure Ru or as a Ni-Ru alloy) reduces the energy barrier for phenol hydrogenation by close to 0.2 eV relative to pure Ni, and that the energy barrier is not as largely affected by the amount of Ru present, provided it is non-zero., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2019

29. Ecological Engineering Helps Maximize Function in Algal Oil Production.

Author

Jackrel SL, Narwani A, Bentlage B, Levine RB, Hietala DC, Savage PE, Oakley TH, Denef VJ, and Cardinale BJ

Subjects

Chlorophyta growth & development, Ecology, Gene Expression, Genetic Engineering, Lipid Metabolism, Biofuels analysis, Chlorophyta genetics, Chlorophyta metabolism, Fatty Acids biosynthesis

Abstract

Algal biofuels have the potential to curb the emissions of greenhouse gases from fossil fuels, but current growing methods fail to produce fuels that meet the multiple standards necessary for economical industrial use. For example, algae grown as monocultures for biofuel production have not simultaneously and economically achieved high yields of the high-quality lipid-rich biomass desired for the industrial-scale production of bio-oil. Decades of study in the field of ecology have demonstrated that simultaneous increases in multiple functions, such as the quantity and quality of biomass, can occur in natural ecosystems by increasing biological diversity. Here, we show that species consortia of algae can improve the production of bio-oil, which benefits from both a high biomass yield and a high quality of biomass rich in fatty acids. We explain the underlying causes of increased quantity and quality of algal biomass among species consortia by showing that, relative to monocultures, species consortia can differentially regulate lipid metabolism genes while growing to higher levels of biomass, in part due to a greater utilization of nutrient resources. We identify multiple genes involved in lipid biosynthesis that are frequently upregulated in bicultures and further show that these elevated levels of gene expression are highly predictive of the elevated levels in biculture relative to that in monoculture of multiple quality metrics of algal biomass. These results show that interactions between species can alter the expression of lipid metabolism genes and further demonstrate that our understanding of diversity-function relationships from natural ecosystems can be harnessed to improve the production of bio-oil. IMPORTANCE Algal biofuels are one of the more promising forms of renewable energy. In our study, we investigate whether ecological interactions between species of microalgae regulate two important factors in cultivation-the biomass of the crop produced and the quality of the biomass that is produced. We found that species interactions often improved production yields, especially the fatty acid content of the algal biomass, and that differentially expressed genes involved in fatty acid metabolism are predictive of improved quality metrics of bio-oil. Other studies have found that diversity often improves productivity and stability in agricultural and natural ecosystems. Our results provide further evidence that growing multispecies crops of microalgae may improve the production of high-quality biomass for bio-oil., (Copyright © 2018 American Society for Microbiology.)

Published

2018

30. Ecological Stoichiometry Meets Ecological Engineering: Using Polycultures to Enhance the Multifunctionality of Algal Biocrude Systems.

Author

Godwin CM, Hietala DC, Lashaway AR, Narwani A, Savage PE, and Cardinale BJ

Subjects

Biomass, Ecology, Nitrogen, Phosphorus, Biofuels, Microalgae

Abstract

For algal biofuels to be economically sustainable and avoid exacerbating nutrient pollution, algal cultivation and processing must maximize rates of biofuel production while simultaneously minimizing the consumption of nitrogen (N) and phosphorus (P) fertilizers. We experimentally tested whether algal polycultures could be engineered to improve N and P nutrient-use efficiency compared to monocultures by balancing trade-offs in nutrient-use efficiency and biocrude production. We analyzed the flows of N and P through the processes of cultivation, biocrude production through hydrothermal liquefaction, and nutrient recycling in a laboratory-scale system. None of the six species we examined exhibited high N efficiency, P efficiency, and biocrude production simultaneously; each had poor performance in at least one function (i.e., <25th percentile). Polycultures of two to six species did not outperform the best species in any single function, but some polycultures exhibited more balanced performance and maintained all three functions at higher levels simultaneously than any of the monocultures (i.e., >67th percentile). Moreover, certain polycultures came closer to optimizing all three functions than any of the monocultures. By balancing trade-offs between N and P efficiency and biocrude production, polycultures could be used to simultaneously reduce the demand for both N and P fertilizers by up to 85%.

Published

2017

31. Modeling the effects of microalga biochemical content on the kinetics and biocrude yields from hydrothermal liquefaction.

Author

Sheehan JD and Savage PE

Subjects

Kinetics, Temperature, Algal Proteins, Lipids, Microalgae

Abstract

A kinetic model for the hydrothermal liquefaction (HTL) of microalgae was developed and its performance in predicting biocrude yields was tested. Kinetic interactions between algal proteins, carbohydrates, and lipids were also included for the first time. These interactions provided a better fit of the data used to determine model parameters, but the kinetics model lacking interactions provided a better prediction of published biocrude yields. This model predicted 70 published biocrude yields to within ±5wt% given the biochemical composition of the alga and the HTL temperature and time as model inputs. Forty-two other published biocrude yields were predicted to within ±10wt%. The model accurately predicts that feedstocks richer in proteins or lipids give higher biocrude yields than those abundant in carbohydrates. This updated model better predicts the combined influences of HTL reaction conditions and algae biochemical composition on HTL biocrude yields than any other model currently available., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2017

32. Effect of temperature, water loading, and Ru/C catalyst on water-insoluble and water-soluble biocrude fractions from hydrothermal liquefaction of algae.

Author

Xu D and Savage PE

Subjects

Biomass, Petroleum, Temperature, Water, Biofuels, Microalgae

Abstract

Hydrothermal liquefaction (HTL) converts algal biomass into a crude bio-oil (biocrude) and aqueous-phase products. The effect of temperature, water loading, and added H 2 and/or Ru/C catalyst on the properties of the biocrude that spontaneously separates from the aqueous phase post reaction and also the biocrude that is extractable from the aqueous phase by dichloromethane is explored herein. This report is the first to elucidate how the yields, compositions, heating values, and energy recoveries of the two biocrudes vary with the processing conditions above. Increasing temperature from 350 to 400°C increased the yield of water-insoluble biocrude (38.1-42.5wt%) and its hexane-soluble subfraction (63.7-85.6wt%) while decreasing the yield of extractable, water-soluble biocrude (6.6-2.5wt%). The Ru/C catalyst had the same effect. Reaction temperature and catalysts could be used to manipulate the proportions of water-soluble and water-insoluble biocrude from algae HTL and thereby manipulate biocrude quantity and quality., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2017

33. Hydrothermal liquefaction of sewage sludge under isothermal and fast conditions.

Author

Qian L, Wang S, and Savage PE

Subjects

Batch Cell Culture Techniques, Humidity, Magnetic Resonance Spectroscopy, Sewage chemistry, Solvents, Volatilization, Biotechnology methods, Temperature, Water chemistry

Abstract

We investigated the effects of water loading, sludge moisture content, recovery solvent, and additives on the product yields and compositions from isothermal (673K, 60min) and fast (773K, 1min) hydrothermal liquefaction (HTL) of sewage sludge. The water loading (which affects pressure within the reactor) plays a small role in product yields. The sludge moisture content had a larger effect with the highest biocrude yields (26.8wt% from isothermal HTL and 27.5wt% from fast HTL) being produced from sludge that was 85wt% moisture. The HTL biocrude from sludge mainly contains long-chain aliphatic hydrocarbon moieties and aliphatic acids. Dichloromethane recovered more biocrude and energy content (∼50%) than did the other solvents tested. Added K 2 CO 3 , Na 2 CO 3 , HCOOH, CH 3 COOH, MoO 3 -CoO/γ-Al 2 O 3 and Ru/C significantly decrease the biocrude yield when their loadings are 50wt% of the dried sludge. The additives, excepting carbonates, enhance gasification of sludge., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2017

34. Algal polycultures enhance coproduct recycling from hydrothermal liquefaction.

Author

Godwin CM, Hietala DC, Lashaway AR, Narwani A, Savage PE, and Cardinale BJ

Subjects

Biodiversity, Biomass, Biotechnology methods, Water, Biofuels, Chlorophyta physiology, Coculture Techniques, Recycling

Abstract

The aim of this study was to determine if polycultures of algae could enhance tolerance to aqueous-phase coproduct (ACP) from hydrothermal liquefaction (HTL) of algal biomass to produce biocrude. The growth of algal monocultures and polycultures was characterized across a range ACP concentrations and sources. All of the monocultures were either killed or inhibited by 2% ACP, but polycultures of the same species were viable at up to 10%. The addition of ACP increased the growth rate (up to 25%) and biomass production (53%) of polycultures, several of which were more productive in ACP than any monoculture was in the presence or absence of ACP. These results suggest that a cultivation process that applies biodiversity to nutrient recycling could produce more algae with less fertilizer consumption., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2017

35. Power of Plankton: Effects of Algal Biodiversity on Biocrude Production and Stability.

Author

Narwani A, Lashaway AR, Hietala DC, Savage PE, and Cardinale BJ

Subjects

Biodiversity, Plants, Temperature, Microalgae, Plankton

Abstract

Algae-derived biocrude oil is a possible renewable energy alternative to fossil fuel based crude oil. Outdoor cultivation in raceway ponds is estimated to provide a better return on energy invested than closed photobioreactor systems. However, in these open systems, algal crops are subjected to environmental variation in temperature and irradiance, as well as biotic invasions which can cause costly crop instabilities. In this paper, we used an experimental approach to investigate the ability of species richness to maximize and stabilize biocrude production in the face of weekly temperature fluctuations between 17 and 27 °C, relative to a constant-temperature control. We hypothesized that species richness would lead to higher mean biocrude production and greater stability of biocrude production over time in the variable temperature environment. Counter to our hypothesis, species richness tended to cause a decline in mean biocrude production, regardless of environmental temperature variation. However, biodiversity did have stabilizing effects on biocrude production over time in the variable temperature environment and not in the constant temperature environment. Altogether, our results suggest that when the most productive and stable monoculture is unknown, inoculating raceway ponds with a diverse mixture of algae will tend to ensure stable harvests over time.

Published

2016

36. A quantitative kinetic model for the fast and isothermal hydrothermal liquefaction of Nannochloropsis sp.

Author

Hietala DC, Faeth JL, and Savage PE

Subjects

Biomass, Hot Temperature, Kinetics, Temperature, Water chemistry, Biotechnology methods, Microalgae chemistry, Models, Theoretical, Stramenopiles chemistry

Abstract

Hydrothermal liquefaction (HTL) is a technology for converting algal biomass into biocrude oil and high-value products. To elucidate the underlying kinetics for this process, we conducted isothermal and non-isothermal reactions over a broad range of holding times (10s-60min), temperatures (100-400°C), and average heating rates (110-350°Cmin(-1)). Biocrude reached high yields (⩾37wt%) within 2min for heat-source set-point temperatures of 350°C or higher. We developed a microalgal HTL kinetic model valid from 10s to 60min, including significantly shorter timescales (10s-10min) than any previous model. The model predicts that up to 46wt% biocrude yields are achievable at 400°C and 1min, reaffirming the utility of short holding times and "fast" HTL. We highlight potential trade-offs between maximizing biocrude quantity and facilitating aqueous phase recovery, which may improve biocrude quality., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2016

37. Near- and supercritical ethanol treatment of biocrude from hydrothermal liquefaction of microalgae.

Author

Yang L, Li Y, and Savage PE

Subjects

Temperature, Ethanol chemistry, Microalgae chemistry, Petroleum microbiology

Abstract

Biocrude produced from algae by hydrothermal liquefaction was treated with near- and supercritical ethanol and ethanol-water mixtures at 210-290°C for 0.5-4h. Longer reaction times and higher temperatures better promoted esterification reactions. Dilution of the ethanol with water led to lower yields of treated biocrude and reduced ester content. The viscosity of treated biocrude was an order of magnitude lower than that of the crude bio-oil, and the treated biocrude exhibited the characteristics of a Newtonian fluid. Overall, treatment of biocrude with near- and supercritical ethanol generated a treated bio-oil with lower viscosity, more ester content, and in nearly 100wt% yield., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2016

38. Effects of processing conditions on biocrude yields from fast hydrothermal liquefaction of microalgae.

Author

Faeth JL and Savage PE

Subjects

Biomass, Time Factors, Biotechnology methods, Charcoal chemistry, Microalgae chemistry, Temperature, Water chemistry

Abstract

This study investigated the effects of algae species, reaction time, and reactor loading on the biocrude yield from fast hydrothermal liquefaction (HTL) of microalgae. Fast HTL reaction times were always less than 2 min and employed rapid heating and nonisothermal conditions. The highest biocrude yield obtained was 67±5 wt.% (dry basis). With all other process variables fixed, increasing the reaction time in a 600 °C sand bath by 15 s increments led to a rapid increase in biocrude yield between 15 and 45 s. At longer times, the biocrude yield decreased. Low reactor loadings generally gave higher biocrude yields than did higher loadings. The low reactor loadings may facilitate biocrude production by facilitating cell rupture and/or increasing the effective concentration of algal cells in the hot, compressed water in the reactor., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2016

39. Trash to Treasure: From Harmful Algal Blooms to High-Performance Electrodes for Sodium-Ion Batteries.

Author

Meng X, Savage PE, and Deng D

Subjects

Biomass, Carbon chemistry, Cyanobacteria, Sodium, Biotechnology methods, Electric Power Supplies, Electrodes, Harmful Algal Bloom

Abstract

Harmful algal blooms (HABs) are frequently reported around the globe. HABs are typically caused by the so-called blue-green algae in eutrophic waters. These fast-growing HABs could be a good source for biomass. Unlike terrestrial plants, they need no land or soil. If HABs could be harvested on a large scale, it could not only possible to mitigate the issue of HABs but also provide a source of biomass. Herein, we demonstrate a facile procedure for converting the HABs into a promising high-performance negative-electrode material for sodium-ion batteries (SIBs). The carbon material derived from blue-green algae demonstrated promising electrochemical performance in reversible sodium storage. The algae used in this work was collected directly from Lake Erie during the algal blooms that affected 500 000 residents in Toledo in 2014. The carbon, derived from the freshly collected HABs by calcination in argon without any additional purification process, delivered a highly stable reversible specific capacity (∼230 mAh/g at a testing current of 20 mA/g) with nearly 100% Columbic efficiency in sodium storage. Impressive rate performance was achieved with a capacity of ∼135 mAh/g even after the testing current was increased fivefold. This proof of concept provides a promising route for mitigating the issue of HABs as "trash" and for generating high-capacity, low-cost electrodes for SIBs as "treasure".

Published

2015

40. Statistical universals reveal the structures and functions of human music.

Author

Savage PE, Brown S, Sakai E, and Currie TE

Subjects

Databases as Topic, Geography, Humans, Language, Likelihood Functions, Models, Theoretical, Phylogeny, Music, Statistics as Topic

Abstract

Music has been called "the universal language of mankind." Although contemporary theories of music evolution often invoke various musical universals, the existence of such universals has been disputed for decades and has never been empirically demonstrated. Here we combine a music-classification scheme with statistical analyses, including phylogenetic comparative methods, to examine a well-sampled global set of 304 music recordings. Our analyses reveal no absolute universals but strong support for many statistical universals that are consistent across all nine geographic regions sampled. These universals include 18 musical features that are common individually as well as a network of 10 features that are commonly associated with one another. They span not only features related to pitch and rhythm that are often cited as putative universals but also rarely cited domains including performance style and social context. These cross-cultural structural regularities of human music may relate to roles in facilitating group coordination and cohesion, as exemplified by the universal tendency to sing, play percussion instruments, and dance to simple, repetitive music in groups. Our findings highlight the need for scientists studying music evolution to expand the range of musical cultures and musical features under consideration. The statistical universals we identified represent important candidates for future investigation.

Published

2015

41. A general kinetic model for the hydrothermal liquefaction of microalgae.

Author

Valdez PJ, Tocco VJ, and Savage PE

Subjects

Kinetics, Microalgae chemistry, Models, Chemical

Abstract

We developed a general kinetic model for hydrothermal liquefaction (HTL) of microalgae. The model, which allows the protein, lipid, and carbohydrate fractions of the cell to react at different rates, successfully correlated experimental data for the hydrothermal liquefaction of Chlorella protothecoides, Scenedesmus sp., and Nannochloropsis sp. The model can faithfully account for the influence of time and temperature on the gravimetric yields of gas, solid, biocrude, and aqueous-phase products from isothermal HTL of a 15 wt% slurry. Examination of the rate constants shows that lipids and proteins are the major contributors to the biocrude, while other algal cell constituents contribute very little to the biocrude., (Copyright © 2014 Elsevier Ltd. All rights reserved.)

Published

2014

42. Human genetic research, race, ethnicity and the labeling of populations: recommendations based on an interdisciplinary workshop in Japan.

Author

Takezawa Y, Kato K, Oota H, Caulfield T, Fujimoto A, Honda S, Kamatani N, Kawamura S, Kawashima K, Kimura R, Matsumae H, Saito A, Savage PE, Seguchi N, Shimizu K, Terao S, Yamaguchi-Kabata Y, Yasukouchi A, Yoneda M, and Tokunaga K

Subjects

Female, Guidelines as Topic, Humans, Japan, Male, Prejudice, Racial Groups ethnology, Research Personnel ethics, Terminology as Topic, Biomedical Research ethics, Ethnicity genetics, Genetic Research ethics, Human Genome Project ethics, Interdisciplinary Communication, Racial Groups genetics, Research Report standards

Abstract

Background: A challenge in human genome research is how to describe the populations being studied. The use of improper and/or imprecise terms has the potential to both generate and reinforce prejudices and to diminish the clinical value of the research. The issue of population descriptors has not attracted enough academic attention outside North America and Europe. In January 2012, we held a two-day workshop, the first of its kind in Japan, to engage in interdisciplinary dialogue between scholars in the humanities, social sciences, medical sciences, and genetics to begin an ongoing discussion of the social and ethical issues associated with population descriptors., Discussion: Through the interdisciplinary dialogue, we confirmed that the issue of race, ethnicity and genetic research has not been extensively discussed in certain Asian communities and other regions. We have found, for example, the continued use of the problematic term, "Mongoloid" or continental terms such as "European," "African," and "Asian," as population descriptors in genetic studies. We, therefore, introduce guidelines for reporting human genetic studies aimed at scientists and researchers in these regions., Conclusion: We need to anticipate the various potential social and ethical problems entailed in population descriptors. Scientists have a social responsibility to convey their research findings outside of their communities as accurately as possible, and to consider how the public may perceive and respond to the descriptors that appear in research papers and media articles.

Published

2014

43. Correlations in the population structure of music, genes and language.

Author

Brown S, Savage PE, Ko AM, Stoneking M, Ko YC, Loo JH, and Trejaut JA

Subjects

Asian People genetics, DNA, Mitochondrial chemistry, Haplotypes, Human Migration, Humans, Molecular Sequence Data, Population Dynamics, Taiwan, Evolution, Molecular, Language, Music

Abstract

We present, to our knowledge, the first quantitative evidence that music and genes may have coevolved by demonstrating significant correlations between traditional group-level folk songs and mitochondrial DNA variation among nine indigenous populations of Taiwan. These correlations were of comparable magnitude to those between language and genes for the same populations, although music and language were not significantly correlated with one another. An examination of population structure for genetics showed stronger parallels to music than to language. Overall, the results suggest that music might have a sufficient time-depth to retrace ancient population movements and, additionally, that it might be capturing different aspects of population history than language. Music may therefore have the potential to serve as a novel marker of human migrations to complement genes, language and other markers.

Published

2013

44. Process improvements for the supercritical in situ transesterification of carbonized algal biomass.

Author

Levine RB, Bollas A, and Savage PE

Subjects

Biofuels analysis, Charcoal metabolism, Esterification, Ethanol metabolism, Humidity, Kinetics, Lipids isolation & purification, Regression Analysis, Temperature, Time Factors, Biomass, Biotechnology methods, Carbon metabolism, Chlorella metabolism

Abstract

This work focuses on the production of biodiesel from wet, lipid-rich algal biomass using a two-step process involving hydrothermal carbonization (HTC) and supercritical in situ transesterification (SC-IST). Algal hydrochars produced by HTC were reacted in supercritical ethanol to determine the effects of reaction temperature, time, ethanol loading, water content, and pressure on the yield of fatty acid ethyl esters (FAEE). Reaction temperatures above 275 °C resulted in substantial thermal decomposition of unsaturated FAEE, thereby reducing yields. At 275 °C, time and ethanol loading had a positive impact on FAEE yield while increasing reaction water content and pressure reduced yields. FAEE yields as high as 79% with a 5:1 ethanol:fatty acid (EtOH:FA) molar ratio (150 min) and 89% with a 20:1 EtOH:FA molar ratio (180 min) were achieved. This work demonstrates that nearly all lipids within algal hydrochars can be converted into biodiesel through SC-IST with only a small excess of alcohol., (Copyright © 2013 Elsevier Ltd. All rights reserved.)

Published

2013

45. Anisole hydrolysis in high temperature water.

Author

Rebacz NA and Savage PE

Abstract

We investigated the hydrolysis of anisole to phenol in high-temperature water with and without water-tolerant Lewis acid catalysis. With no catalyst present, anisole hydrolyzes to phenol in 97% yield after 24 hours at 365 °C, our experimentally determined optimal temperature and time. Experiments with varied water density and analysis of comparable literature data suggest that anisole hydrolysis is almost third order in water, when the S(N)2 mechanism dominates. Of the water-tolerant Lewis acid catalysts studied, In(OTf)(3) offered the best phenol yield. Anisole hydrolysis was first order in catalyst and first order in substrate. Introducing In(OTf)(3) catalysis lowered the activation energy for anisole hydrolysis to 31 ± 1 kcal mol(-1). Anisole hydrolysis in high-temperature water with In(OTf)(3) catalysis is competitive with other techniques in the literature based on rate and yield. In the presence of 5 mol% In(OTf)(3) catalyst, anisole hydrolyzes to phenol in 97% yield after 90 minutes at 300 °C.

Published

2013

46. Chemistry. Algae under pressure and in hot water.

Author

Savage PE

Subjects

Cell Culture Techniques, Chemical Engineering, Chlorophyta growth & development, Biofuels, Chlorophyta chemistry, Hot Temperature, Hydrostatic Pressure, Water

Published

2012

47. Hydrothermal reaction kinetics and pathways of phenylalanine alone and in binary mixtures.

Author

Changi S, Zhu M, and Savage PE

Subjects

Electrons, Inorganic Chemicals chemistry, Kinetics, Models, Chemical, Oleic Acids chemistry, Phenylalanine chemistry, Temperature

Abstract

We examined the behavior of phenylalanine in high-temperature water (HTW) at 220, 250, 280, and 350 °C. Under these conditions, the major product is phenylethylamine. The minor products include styrene and phenylethanol (1-phenylethanol and 2-phenylethanol), which appear at higher temperatures and longer batch holding times. Phenylethylamine forms via decarboxylation of phenylalanine, styrene forms via deamination of phenylethylamine, and phenylethanol forms via hydration of styrene. We quantified the molar yields of each product at the four temperatures, and the carbon recovery was between 80-100 % for most cases. Phenylalanine disappearance follows first-order kinetics with an activation energy of 144 ± 14 kJ mol⁻¹ and a pre-exponential factor of 10(12.4 ± 1.4)  min⁻¹. A kinetics model based on the proposed pathways was consistent with the experimental data. Effects of five different salts (NaCl, NaNO₃, Na₂ SO₄, KCl, K₂ HPO₄) and boric acid (H₃BO₃) on phenylalanine behavior at 250 °C have also been elucidated. These additives increase phenylalanine conversion, but decrease the yield of phenylethylamine presumably by promoting formation of high molecular weight compounds. Lastly, binary mixtures of phenylalanine and ethyl oleate have been studied at 350 °C and three different molar concentration ratios. The presence of phenylalanine enhances the conversion of ethyl oleate and molar yields of fatty acid. Higher concentration of ethyl oleate leads to increased deamination of phenylethylamine and hydration of styrene. Amides are also formed due to the interaction of oleic acid/ethyl oleate and phenylethylamine/ammonia and lead to a decrease in the fatty acid yields. Taken collectively, these results provide new insights into the reactions of algae during its hydrothermal liquefaction to produce crude bio-oil., (Copyright © 2012 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2012

48. Triflate-catalyzed (trans)esterification of lipids within carbonized algal biomass.

Author

Levine RB, Bollas AA, Durham MD, and Savage PE

Subjects

Catalysis, Esterification, Lipid Metabolism, Biomass, Fluorine Compounds metabolism, Microalgae metabolism

Abstract

This study demonstrates the utility of rare-earth metal triflate catalysts (i.e., Sc(OTf)(3) and In(OTf)(3)) in the (trans)esterification of oleic acid as well as the lipids contained within carbonized algal biomass using ethanol in the presence of water. Both catalysts are highly active between 200 and 235°C with an ethanol:fatty acid (EtOH:FA) molar ratio of 10-20:1 and showed a high tolerance for moisture. Lipids within hydrochars produced by reacting Chlorella protothecoides paste (25% solids) in high temperature water (220-250°C) were successfully converted into fatty acid ethyl esters (FAEE). The highest FAEE yields (85-98%) were obtained when hydrochars were reacted for 60 min at 215°C with about 11-13 mol% Sc(OTf)(3), a 17-19:1 EtOH:FA molar ratio, and without water. FAEE yields remained as high as 93% in the presence of 9 wt.% water. Our preliminary results warrant further work to optimize triflate-catalyzed in situ (trans)esterification at low catalyst and ethanol loadings., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published

2012

49. The structure of cross-cultural musical diversity.

Author

Rzeszutek T, Savage PE, and Brown S

Subjects

Analysis of Variance, Asian People, Cross-Cultural Comparison, Genetic Variation, Humans, Language, Philippines, Taiwan, Cultural Characteristics, Music

Abstract

Human cultural traits, such as languages, musics, rituals and material objects, vary widely across cultures. However, the majority of comparative analyses of human cultural diversity focus on between-culture variation without consideration for within-culture variation. In contrast, biological approaches to genetic diversity, such as the analysis of molecular variance (AMOVA) framework, partition genetic diversity into both within- and between-population components. We attempt here for the first time to quantify both components of cultural diversity by applying the AMOVA model to music. By employing this approach with 421 traditional songs from 16 Austronesian-speaking populations, we show that the vast majority of musical variability is due to differences within populations rather than differences between. This demonstrates a striking parallel to the structure of genetic diversity in humans. A neighbour-net analysis of pairwise population musical divergence shows a large amount of reticulation, indicating the pervasive occurrence of borrowing and/or convergent evolution of musical features across populations.

Published

2012

50. Kinetic model for supercritical water gasification of algae.

Author

Guan Q, Wei C, and Savage PE

Subjects

Biofuels, Biomass, Kinetics, Gases chemistry, Microalgae chemistry, Models, Chemical, Water chemistry

Abstract

The article reports the first quantitative kinetics model for supercritical water gasification (SCWG) of real biomass (algae) that describes the formation of the individual gaseous products. The phenomenological model is based on a set of reaction pathways that includes two types of compounds being intermediate between the algal biomass and the final gaseous products. To best correlate the experimental gas yields obtained at 450, 500 and 550 °C, the model allowed one type of intermediate to react to gases more quickly than the other type of intermediate. The model parameters indicate that gas yields increase with temperature because higher temperatures favor production of the more easily gasified intermediate and the production of gas at the expense of char. The model can accurately predict the qualitative influence of the biomass loading and water density on the gas yields. Sensitivity analysis and reaction rate analysis indicate that steam reforming of intermediates is an important source of H(2), whereas direct decomposition of the intermediate species is the main source of CO, CO(2) and CH(4).

Published

2012