Your search keyword '"Dominy, Nathaniel J"' showing total 217 results

201. Diet and the evolution of ADH7 across seven orders of mammals.

Author

Pinto SL, Janiak MC, Dutyschaever G, Barros MAS, Chavarria AG, Martin MP, Tuh FYY, Valverde CS, Sims LM, Barclay RMR, Wells K, Dominy NJ, Pessoa DMA, Carrigan MA, and Melin AD

Abstract

Dietary variation within and across species drives the eco-evolutionary responsiveness of genes necessary to metabolize nutrients and other components. Recent evidence from humans and other mammals suggests that sugar-rich diets of floral nectar and ripe fruit have favoured mutations in, and functional preservation of, the ADH7 gene, which encodes the ADH class 4 enzyme responsible for metabolizing ethanol. Here we interrogate a large, comparative dataset of ADH7 gene sequence variation, including that underlying the amino acid residue located at the key site (294) that regulates the affinity of ADH7 for ethanol. Our analyses span 171 mammal species, including 59 newly sequenced. We report extensive variation, especially among frugivorous and nectarivorous bats, with potential for functional impact. We also report widespread variation in the retention and probable pseudogenization of ADH7 . However, we find little statistical evidence of an overarching impact of dietary behaviour on putative ADH7 function or presence of derived alleles at site 294 across mammals, which suggests that the evolution of ADH7 is shaped by complex factors. Our study reports extensive new diversity in a gene of longstanding ecological interest, offers new sources of variation to be explored in functional assays in future study, and advances our understanding of the processes of molecular evolution., Competing Interests: We declare we have no competing interests., (© 2023 The Authors.)

Published

2023

202. Science at Sundance 2023 Poacher , Richie Mehta, director , QC Entertainment, 2022, 125 minutes. Deep Rising , Matthieu Rytz, director , Roco Films, 2022, 93 minutes. The Pod Generation , Sophie Barthes, director , MK2, 2022, 109 minutes. The Longest Goodbye , Ido Mizrahy, director , Autlook Filmsales, 2022, 87 minutes. Is There Anybody Out There? , Ella Glendining, director , Hot Property Films Ltd, 2023, 87 minutes. Fantastic Machine , Axel Danielson and Maximilien Van Aertryck, directors , See-Through Films, 2023, 88 minutes. The Eternal Memory , Maite Alberdi, director , Micromundo/Fabula, 2023, 85 minutes.

Author

Venkatraman V, Barry AE, Dominy NJ, and Kardon G

Published

2023

203. The sensory ecology of primate food perception, revisited.

Author

Veilleux CC, Dominy NJ, and Melin AD

Subjects

Animals, Ecology, Feeding Behavior, Perception, Primates, Smell

Abstract

Twenty years ago, Dominy and colleagues published "The sensory ecology of primate food perception," an impactful review that brought new perspectives to understanding primate foraging adaptations. Their review synthesized information on primate senses and explored how senses informed feeding behavior. Research on primate sensory ecology has seen explosive growth in the last two decades. Here, we revisit this important topic, focusing on the numerous new discoveries and lines of innovative research. We begin by reviewing each of the five traditionally recognized senses involved in foraging: audition, olfaction, vision, touch, and taste. For each sense, we provide an overview of sensory function and comparative ecology, comment on the state of knowledge at the time of the original review, and highlight advancements and lingering gaps in knowledge. Next, we provide an outline for creative, multidisciplinary, and innovative future research programs that we anticipate will generate exciting new discoveries in the next two decades., (© 2022 Wiley Periodicals LLC.)

Published

2022

204. Adaptive optics in the Arctic? A commentary on Fosbury and Jeffery.

Author

Dominy NJ and Harris JM

Published

2022

205. Footprint evidence of early hominin locomotor diversity at Laetoli, Tanzania.

Author

McNutt EJ, Hatala KG, Miller C, Adams J, Casana J, Deane AS, Dominy NJ, Fabian K, Fannin LD, Gaughan S, Gill SV, Gurtu J, Gustafson E, Hill AC, Johnson C, Kallindo S, Kilham B, Kilham P, Kim E, Liutkus-Pierce C, Maley B, Prabhat A, Reader J, Rubin S, Thompson NE, Thornburg R, Williams-Hatala EM, Zimmer B, Musiba CM, and DeSilva JM

Subjects

Animals, Archives, Female, Hominidae anatomy & histology, Humans, Imaging, Three-Dimensional, Lasers, Male, Models, Biological, Pan troglodytes anatomy & histology, Pan troglodytes physiology, Photogrammetry, Phylogeny, Tanzania, Ursidae anatomy & histology, Ursidae physiology, Foot anatomy & histology, Foot physiology, Fossils, Gait physiology, Hominidae classification, Hominidae physiology

Abstract

Bipedal trackways discovered in 1978 at Laetoli site G, Tanzania and dated to 3.66 million years ago are widely accepted as the oldest unequivocal evidence of obligate bipedalism in the human lineage 1-3 . Another trackway discovered two years earlier at nearby site A was partially excavated and attributed to a hominin, but curious affinities with bears (ursids) marginalized its importance to the paleoanthropological community, and the location of these footprints fell into obscurity 3-5 . In 2019, we located, excavated and cleaned the site A trackway, producing a digital archive using 3D photogrammetry and laser scanning. Here we compare the footprints at this site with those of American black bears, chimpanzees and humans, and we show that they resemble those of hominins more than ursids. In fact, the narrow step width corroborates the original interpretation of a small, cross-stepping bipedal hominin. However, the inferred foot proportions, gait parameters and 3D morphologies of footprints at site A are readily distinguished from those at site G, indicating that a minimum of two hominin taxa with different feet and gaits coexisted at Laetoli., (© 2021. The Author(s).)

Published

2021

206. Biodiversity of protists and nematodes in the wild nonhuman primate gut.

Author

Mann AE, Mazel F, Lemay MA, Morien E, Billy V, Kowalewski M, Di Fiore A, Link A, Goldberg TL, Tecot S, Baden AL, Gomez A, Sauther ML, Cuozzo FP, Rice GAO, Dominy NJ, Stumpf R, Lewis RJ, Swedell L, Amato K, and Wegener Parfrey L

Subjects

Animals, Animals, Wild microbiology, Animals, Wild parasitology, Blastocyst classification, Cercopithecidae microbiology, Cercopithecidae parasitology, Ciliophora classification, Ciliophora genetics, Ciliophora isolation & purification, Diet, Endolimax classification, Endolimax genetics, Endolimax isolation & purification, Entamoeba classification, Entamoeba genetics, Eukaryota classification, Eukaryota genetics, Eukaryota isolation & purification, Feces microbiology, Feces parasitology, Fungi classification, Fungi genetics, Fungi isolation & purification, Hominidae microbiology, Hominidae parasitology, Host Specificity, Lemur microbiology, Lemur parasitology, Nematoda classification, Nematoda genetics, Nematoda isolation & purification, Phylogeny, Platyrrhini microbiology, Platyrrhini parasitology, Biodiversity, Gastrointestinal Microbiome, Metagenomics, Primates microbiology, Primates parasitology

Abstract

Documenting the natural diversity of eukaryotic organisms in the nonhuman primate (NHP) gut is important for understanding the evolution of the mammalian gut microbiome, its role in digestion, health and disease, and the consequences of anthropogenic change on primate biology and conservation. Despite the ecological significance of gut-associated eukaryotes, little is known about the factors that influence their assembly and diversity in mammals. In this study, we used an 18S rRNA gene fragment metabarcoding approach to assess the eukaryotic assemblage of 62 individuals representing 16 NHP species. We find that cercopithecoids, and especially the cercopithecines, have substantially higher alpha diversity than other NHP groups. Gut-associated protists and nematodes are widespread among NHPs, consistent with their ancient association with NHP hosts. However, we do not find a consistent signal of phylosymbiosis or host-species specificity. Rather, gut eukaryotes are only weakly structured by primate phylogeny with minimal signal from diet, in contrast to previous reports of NHP gut bacteria. The results of this study indicate that gut-associated eukaryotes offer different information than gut-associated bacteria and add to our understanding of the structure of the gut microbiome.

Published

2020

207. Global phylogeography and ancient evolution of the widespread human gut virus crAssphage.

Author

Edwards RA, Vega AA, Norman HM, Ohaeri M, Levi K, Dinsdale EA, Cinek O, Aziz RK, McNair K, Barr JJ, Bibby K, Brouns SJJ, Cazares A, de Jonge PA, Desnues C, Díaz Muñoz SL, Fineran PC, Kurilshikov A, Lavigne R, Mazankova K, McCarthy DT, Nobrega FL, Reyes Muñoz A, Tapia G, Trefault N, Tyakht AV, Vinuesa P, Wagemans J, Zhernakova A, Aarestrup FM, Ahmadov G, Alassaf A, Anton J, Asangba A, Billings EK, Cantu VA, Carlton JM, Cazares D, Cho GS, Condeff T, Cortés P, Cranfield M, Cuevas DA, De la Iglesia R, Decewicz P, Doane MP, Dominy NJ, Dziewit L, Elwasila BM, Eren AM, Franz C, Fu J, Garcia-Aljaro C, Ghedin E, Gulino KM, Haggerty JM, Head SR, Hendriksen RS, Hill C, Hyöty H, Ilina EN, Irwin MT, Jeffries TC, Jofre J, Junge RE, Kelley ST, Khan Mirzaei M, Kowalewski M, Kumaresan D, Leigh SR, Lipson D, Lisitsyna ES, Llagostera M, Maritz JM, Marr LC, McCann A, Molshanski-Mor S, Monteiro S, Moreira-Grez B, Morris M, Mugisha L, Muniesa M, Neve H, Nguyen NP, Nigro OD, Nilsson AS, O'Connell T, Odeh R, Oliver A, Piuri M, Prussin Ii AJ, Qimron U, Quan ZX, Rainetova P, Ramírez-Rojas A, Raya R, Reasor K, Rice GAO, Rossi A, Santos R, Shimashita J, Stachler EN, Stene LC, Strain R, Stumpf R, Torres PJ, Twaddle A, Ugochi Ibekwe M, Villagra N, Wandro S, White B, Whiteley A, Whiteson KL, Wijmenga C, Zambrano MM, Zschach H, and Dutilh BE

Subjects

Animals, Bacteriophages classification, Bacteroidetes classification, Bacteroidetes genetics, Bacteroidetes virology, DNA, Viral genetics, Feces virology, Female, Genetic Variation, Humans, Male, Phylogeny, Phylogeography, Primates virology, Bacteriophages genetics, Biological Coevolution, Gastrointestinal Microbiome

Abstract

Microbiomes are vast communities of microorganisms and viruses that populate all natural ecosystems. Viruses have been considered to be the most variable component of microbiomes, as supported by virome surveys and examples of high genomic mosaicism. However, recent evidence suggests that the human gut virome is remarkably stable compared with that of other environments. Here, we investigate the origin, evolution and epidemiology of crAssphage, a widespread human gut virus. Through a global collaboration, we obtained DNA sequences of crAssphage from more than one-third of the world's countries and showed that the phylogeography of crAssphage is locally clustered within countries, cities and individuals. We also found fully colinear crAssphage-like genomes in both Old-World and New-World primates, suggesting that the association of crAssphage with primates may be millions of years old. Finally, by exploiting a large cohort of more than 1,000 individuals, we tested whether crAssphage is associated with bacterial taxonomic groups of the gut microbiome, diverse human health parameters and a wide range of dietary factors. We identified strong correlations with different clades of bacteria that are related to Bacteroidetes and weak associations with several diet categories, but no significant association with health or disease. We conclude that crAssphage is a benign cosmopolitan virus that may have coevolved with the human lineage and is an integral part of the normal human gut virome.

Published

2019

208. Dichromatic vision in a fruit bat with diurnal proclivities: the Samoan flying fox (Pteropus samoensis).

Author

Melin AD, Danosi CF, McCracken GF, and Dominy NJ

Subjects

Animals, Color Vision physiology, Female, Male, Opsins classification, Opsins metabolism, Phylogeny, Sequence Analysis, DNA, Chiroptera physiology, Circadian Rhythm physiology, Color Vision genetics, Evolution, Molecular, Opsins genetics

Abstract

A nocturnal bottleneck during mammalian evolution left a majority of species with two cone opsins, or dichromatic color vision. Primate trichromatic vision arose from the duplication and divergence of an X-linked opsin gene, and is long attributed to tandem shifts from nocturnality to diurnality and from insectivory to frugivory. Opsin gene variation and at least one duplication event exist in the order Chiroptera, suggesting that trichromatic vision could evolve under favorable ecological conditions. The natural history of the Samoan flying fox (Pteropus samoensis) meets these conditions--it is a large bat that consumes nectar and fruit and demonstrates strong diurnal proclivities. It also possesses a visual system that is strikingly similar to that of primates. To explore the potential for opsin gene duplication and divergence in this species, we sequenced the opsin genes of 11 individuals (19 X-chromosomes) from three South Pacific islands. Our results indicate the uniform presence of two opsins with predicted peak sensitivities of ca. 360 and 553 nm. This result fails to support a causal link between diurnal frugivory and trichromatic vision, although it remains plausible that the diurnal activities of P. samoensis have insufficient antiquity to favor opsin gene renovation.

Published

2014

209. Adaptive, convergent origins of the pygmy phenotype in African rainforest hunter-gatherers.

Author

Perry GH, Foll M, Grenier JC, Patin E, Nédélec Y, Pacis A, Barakatt M, Gravel S, Zhou X, Nsobya SL, Excoffier L, Quintana-Murci L, Dominy NJ, and Barreiro LB

Subjects

Biological Evolution, Genome-Wide Association Study, Humans, Models, Genetic, Phenotype, Polymorphism, Single Nucleotide, Selection, Genetic genetics, Uganda, Adaptation, Physiological genetics, Black People genetics, Body Size genetics, Genome, Human, Growth Disorders genetics

Abstract

The evolutionary history of the human pygmy phenotype (small body size), a characteristic of African and Southeast Asian rainforest hunter-gatherers, is largely unknown. Here we use a genome-wide admixture mapping analysis to identify 16 genomic regions that are significantly associated with the pygmy phenotype in the Batwa, a rainforest hunter-gatherer population from Uganda (east central Africa). The identified genomic regions have multiple attributes that provide supporting evidence of genuine association with the pygmy phenotype, including enrichments for SNPs previously associated with stature variation in Europeans and for genes with growth hormone receptor and regulation functions. To test adaptive evolutionary hypotheses, we computed the haplotype-based integrated haplotype score (iHS) statistic and the level of population differentiation (FST) between the Batwa and their agricultural neighbors, the Bakiga, for each genomic SNP. Both |iHS| and FST values were significantly higher for SNPs within the Batwa pygmy phenotype-associated regions than the remainder of the genome, a signature of polygenic adaptation. In contrast, when we expanded our analysis to include Baka rainforest hunter-gatherers from Cameroon and Gabon (west central Africa) and Nzebi and Nzime neighboring agriculturalists, we did not observe elevated |iHS| or FST values in these genomic regions. Together, these results suggest adaptive and at least partially convergent origins of the pygmy phenotype even within Africa, supporting the hypothesis that small body size confers a selective advantage for tropical rainforest hunter-gatherers but raising questions about the antiquity of this behavior.

Published

2014

210. Functional morphology, stable isotopes, and human evolution: a model of consilience.

Author

Yeakel JD, Dominy NJ, Koch PL, and Mangel M

Subjects

Animals, Carbon Isotopes, Genetic Fitness, Hominidae anatomy & histology, Hominidae physiology, Humans, Molar anatomy & histology, Plants, Edible, Dental Enamel anatomy & histology, Evolution, Molecular, Hominidae genetics, Models, Genetic

Abstract

Foraging is constrained by the energy within resources and the mechanics of acquisition and assimilation. Thick molar enamel, a character trait differentiating hominins from African apes, is predicted to mitigate the mechanical costs of chewing obdurate foods. The classic expression of hyperthick enamel together with relatively massive molars, termed megadontia, is most evident in Paranthropus, a lineage of hominins that lived about 2.7-1.2 million years ago. Among contemporary primates, thicker molar enamel corresponds with the consumption of stiffer, deformation-resistant foods, possibly because thicker enamel can better resist cracking under high compressive loads. Accordingly, plant underground storage organs (USOs) are thought to be a central food resource for hominins such as Paranthropus due to their abundance, isotopic composition, and mechanical properties. Here, we present a process-based model to investigate foraging constraints as a function of energetic demands and enamel wear among human ancestors. Our framework allows us to determine the fitness benefits of megadontia, and to explore under what conditions stiff foods such as USOs are predicted to be chosen as fallback, rather than preferred, resources. Our model predictions bring consilience to the noted disparity between functional interpretations of megadontia and microwear evidence, particularly with respect to Paranthropus boisei., (© 2013 The Author(s). Evolution © 2013 The Society for the Study of Evolution.)

Published

2014

211. Inferred L/M cone opsin polymorphism of ancestral tarsiers sheds dim light on the origin of anthropoid primates.

Author

Melin AD, Matsushita Y, Moritz GL, Dominy NJ, and Kawamura S

Subjects

Animals, Biological Evolution, Cone Opsins chemistry, Cone Opsins metabolism, Female, Light, Male, Molecular Sequence Data, Phylogeny, Polymerase Chain Reaction, Sequence Analysis, DNA, Sequence Analysis, Protein, Sequence Homology, Tarsiidae genetics, Cone Opsins genetics, Evolution, Molecular, Polymorphism, Genetic, Tarsiidae physiology, Vision, Ocular

Abstract

Tarsiers are small nocturnal primates with a long history of fuelling debate on the origin and evolution of anthropoid primates. Recently, the discovery of M and L opsin genes in two sister species, Tarsius bancanus (Bornean tarsier) and Tarsius syrichta (Philippine tarsier), respectively, was interpreted as evidence of an ancestral long-to-middle (L/M) opsin polymorphism, which, in turn, suggested a diurnal or cathemeral (arrhythmic) activity pattern. This view is compatible with the hypothesis that stem tarsiers were diurnal; however, a reversion to nocturnality during the Middle Eocene, as evidenced by hyper-enlarged orbits, predates the divergence of T. bancanus and T. syrichta in the Late Miocene. Taken together, these findings suggest that some nocturnal tarsiers possessed high-acuity trichromatic vision, a concept that challenges prevailing views on the adaptive origins of the anthropoid visual system. It is, therefore, important to explore the plausibility and antiquity of trichromatic vision in the genus Tarsius. Here, we show that Sulawesi tarsiers (Tarsius tarsier), a phylogenetic out-group of Philippine and Bornean tarsiers, have an L opsin gene that is more similar to the L opsin gene of T. syrichta than to the M opsin gene of T. bancanus in non-synonymous nucleotide sequence. This result suggests that an L/M opsin polymorphism is the ancestral character state of crown tarsiers and raises the possibility that many hallmarks of the anthropoid visual system evolved under dim (mesopic) light conditions. This interpretation challenges the persistent nocturnal-diurnal dichotomy that has long informed debate on the origin of anthropoid primates.

Published

2013

212. A novel method for comparative analysis of retinal specialization traits from topographic maps.

Author

Moore BA, Kamilar JM, Collin SP, Bininda-Emonds OR, Dominy NJ, Hall MI, Heesy CP, Johnsen S, Lisney TJ, Loew ER, Moritz G, Nava SS, Warrant E, Yopak KE, and Fernández-Juricic E

Subjects

Amacrine Cells physiology, Animals, Ecology, Humans, Photoreceptor Cells, Vertebrate physiology, Phylogeny, Retinal Bipolar Cells physiology, Retinal Ganglion Cells physiology, Retinal Horizontal Cells physiology, Species Specificity, Vertebrates, Fovea Centralis cytology, Fovea Centralis physiology, Retina cytology, Retina physiology

Abstract

Vertebrates possess different types of retinal specializations that vary in number, size, shape, and position in the retina. This diversity in retinal configuration has been revealed through topographic maps, which show variations in neuron density across the retina. Although topographic maps of about 300 vertebrates are available, there is no method for characterizing retinal traits quantitatively. Our goal is to present a novel method to standardize information on the position of the retinal specializations and changes in retinal ganglion cell (RGC) density across the retina from published topographic maps. We measured the position of the retinal specialization using two Cartesian coordinates and the gradient in cell density by sampling ganglion cell density values along four axes (nasal, temporal, ventral, and dorsal). Using this information, along with the peak and lowest RGC densities, we conducted discriminant function analyses (DFAs) to establish if this method is sensitive to distinguish three common types of retinal specializations (fovea, area, and visual streak). The discrimination ability of the model was higher when considering terrestrial (78%-80% correct classification) and aquatic (77%-86% correct classification) species separately than together. Our method can be used in the future to test specific hypotheses on the differences in retinal morphology between retinal specializations and the association between retinal morphology and behavioral and ecological traits using comparative methods controlling for phylogenetic effects.

Published

2012

213. Extinction and ecological retreat in a community of primates.

Author

Crowley BE, Godfrey LR, Guilderson TP, Zermeño P, Koch PL, and Dominy NJ

Subjects

Animals, Bone and Bones chemistry, Carbon Isotopes analysis, Collagen analysis, Hair chemistry, Madagascar, Nitrogen Isotopes analysis, Radiometric Dating, Biota, Diet, Ecosystem, Extinction, Biological, Strepsirhini physiology

Abstract

The lemurs of Madagascar represent a prodigious adaptive radiation. At least 17 species ranging from 11 to 160 kg have become extinct during the past 2000 years. The effect of this loss on contemporary lemurs is unknown. The concept of competitive release favours the expansion of living species into vacant niches. Alternatively, factors that triggered the extinction of some species could have also reduced community-wide niche breadth. Here, we use radiocarbon and stable isotope data to examine temporal shifts in the niches of extant lemur species following the extinction of eight large-bodied species. We focus on southwestern Madagascar and report profound isotopic shifts, both from the time when now-extinct lemurs abounded and from the time immediately following their decline to the present. Unexpectedly, the past environments exploited by lemurs were drier than the protected (albeit often degraded) riparian habitats assumed to be ideal for lemurs today. Neither competitive release nor niche contraction can explain these observed trends. We develop an alternative hypothesis: ecological retreat, which suggests that factors surrounding extinction may force surviving species into marginal or previously unfilled niches.

Published

2012

214. Cooperation and individuality among man-eating lions.

Author

Yeakel JD, Patterson BD, Fox-Dobbs K, Okumura MM, Cerling TE, Moore JW, Koch PL, and Dominy NJ

Subjects

Animals, Carbon Isotopes analysis, Collagen chemistry, Humans, Kenya, Keratins chemistry, Nitrogen Isotopes analysis, Behavior, Animal physiology, Cooperative Behavior, Diet, Lions physiology, Predatory Behavior physiology

Abstract

Cooperation is the cornerstone of lion social behavior. In a notorious case, a coalition of two adult male lions from Tsavo, southern Kenya, cooperatively killed dozens of railway workers in 1898. The "man-eaters of Tsavo" have since become the subject of numerous popular accounts, including three Hollywood films. Yet the full extent of the lions' man-eating behavior is unknown; estimates range widely from 28 to 135 victims. Here we use stable isotope ratios to quantify increasing dietary specialization on novel prey during a time of food limitation. For one lion, the delta(13)C and delta(15)N values of bone collagen and hair keratin (which reflect dietary inputs over years and months, respectively) reveal isotopic changes that are consistent with a progressive dietary specialization on humans. These findings not only support the hypothesis that prey scarcity drives individual dietary specialization, but also demonstrate that sustained dietary individuality can exist within a cooperative framework. The intensity of human predation (up to 30% reliance during the final months of 1898) is also associated with severe craniodental infirmities, which may have further promoted the inclusion of unconventional prey under perturbed environmental conditions.

Published

2009

215. Monocot leaves are eaten less than dicot leaves in tropical lowland rain forests: correlations with toughness and leaf presentation.

Author

Grubb PJ, Jackson RV, Barberis IM, Bee JN, Coomes DA, Dominy NJ, De La Fuente MA, Lucas PW, Metcalfe DJ, Svenning JC, Turner IM, and Vargas O

Subjects

Animal Feed, Animals, Invertebrates physiology, Magnoliopsida parasitology, Magnoliopsida physiology, Plant Leaves parasitology, Plant Leaves physiology, Trees parasitology, Trees physiology, Magnoliopsida growth & development, Plant Leaves growth & development, Trees growth & development, Tropical Climate

Abstract

Background and Aims: In tropical lowland rain forest (TLRF) the leaves of most monocots differ from those of most dicots in two ways that may reduce attack by herbivores. Firstly, they are tougher. Secondly, the immature leaves are tightly folded or rolled until 50-100 % of their final length. It was hypothesized that (a) losses of leaf area to herbivorous invertebrates are generally greatest during leaf expansion and smaller for monocots than for dicots, and (b) where losses after expansion are appreciable any difference between monocots and dicots then is smaller than that found during expansion., Methods: At six sites on four continents, estimates were made of lamina area loss from the four most recently mature leaves of focal monocots and of the nearest dicot shoot. Measurements of leaf mass per unit area, and the concentrations of water and nitrogen were made for many of the species. In Panama, the losses from monocots (palms) and dicots were also measured after placing fully expanded palm leaflets and whole dicot leaves on trails of leaf-cutter ants., Key Results: At five of six sites monocots experienced significantly smaller leaf area loss than dicots. The results were not explicable in terms of leaf mass per unit area, or concentrations of water or nitrogen. At only one site was the increase in loss from first to fourth mature leaf significant (also large and the same in monocots and dicots), but the losses sustained during expansion were much smaller in the monocots. In the leaf-cutter ant experiment, losses were much smaller for palms than for dicots., Conclusions: The relationship between toughness and herbivory is complex; despite the negative findings of some recent authors for dicots we hypothesize that either greater toughness or late folding can protect monocot leaves against herbivorous insects in tropical lowland rain forest, and that the relative importance varies widely with species. The difficulties of establishing unequivocally the roles of leaf toughness and leaf folding or rolling in a given case are discussed.

Published

2008

216. In tropical lowland rain forests monocots have tougher leaves than dicots, and include a new kind of tough leaf.

Author

Dominy NJ, Grubb PJ, Jackson RV, Lucas PW, Metcalfe DJ, Svenning JC, and Turner IM

Subjects

Australia, Magnoliopsida classification, Panama, Rain, Singapore, Species Specificity, Magnoliopsida growth & development, Plant Leaves growth & development, Trees genetics, Tropical Climate

Abstract

Background and Aims: There has been little previous work on the toughness of the laminae of monocots in tropical lowland rain forest (TLRF) despite the potential importance of greater toughness in inhibiting herbivory by invertebrates. Of 15 monocot families with >100 species in TLRF, eight have notably high densities of fibres in the lamina so that high values for toughness are expected., Methods: In north-eastern Australia punch strength was determined with a penetrometer for both immature leaves (approx. 30 % final area on average) and fully expanded, fully toughened leaves. In Singapore and Panama, fracture toughness was determined with an automated scissors apparatus using fully toughened leaves only., Key Results: In Australia punch strength was, on average, 7x greater in shade-tolerant monocots than in neighbouring dicots at the immature stage, and 3x greater at the mature stage. In Singapore, shade-tolerant monocots had, on average, 1.3x higher values for fracture toughness than neighbouring dicots. In Panama, both shade-tolerant and gap-demanding monocots were tested; they did not differ in fracture toughness. The monocots had markedly higher values than the dicots whether shade-tolerant or gap-demanding species were considered., Conclusions: It is predicted that monocots will be found to experience lower rates of herbivory by invertebrates than dicots. The tough monocot leaves include both stiff leaves containing relatively little water at saturation (e.g. palms), and leaves which lack stiffness, are rich in water at saturation and roll readily during dry weather or even in bright sun around midday (e.g. gingers, heliconias and marants). Monocot leaves also show that it is possible for leaves to be notably tough throughout the expansion phase of development, something never recorded for dicots. The need to broaden the botanist's mental picture of a 'tough leaf' is emphasized.

Published

2008

217. The isotopic ecology of African mole rats informs hypotheses on the evolution of human diet.

Author

Yeakel JD, Bennett NC, Koch PL, and Dominy NJ

Subjects

Animals, Carbon Isotopes analysis, Hominidae physiology, Humans, Mass Spectrometry, Oxygen Isotopes analysis, Plants chemistry, South Africa, Species Specificity, Statistics, Nonparametric, Bone and Bones chemistry, Diet, Ecosystem, Mole Rats physiology, Tooth chemistry

Abstract

The diets of Australopithecus africanus and Paranthropus robustus are hypothesized to have included C4 plants, such as tropical grasses and sedges, or the tissues of animals which themselves consumed C4 plants. Yet inferences based on the craniodental morphology of A. africanus and P. robustus indicate a seasonal diet governed by hard, brittle foods. Such mechanical characteristics are incompatible with a diet of grasses or uncooked meat, which are too tough for efficient mastication by flat, low-cusped molars. This discrepancy, termed the C4 conundrum, has led to the speculation that C4 plant underground storage organs (USOs) were a source of nutrition for hominin species. We test this hypothesis by examining the isotopic ecology of African mole rats, which consume USOs extensively. We measured delta18O and delta13C of enamel and bone apatite from fossil and modern species distributed across a range of habitats. We show that delta18O values vary little and that delta13C values vary along the C3 to C4/CAM-vegetative axis. Relatively high delta13C values exist in modern Cryptomys hottentotus natalensis and Cryptomys spp. recovered from hominin-bearing deposits. These values overlap those reported for A. africanus and P. robustus and we conclude that the USO hypothesis for hominin diets retains certain plausibility.

Published

2007