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The underestimated biodiversity of tropical grassy biomes (2016)

Murphy, Brett P. ; Andersen, Alan N. ; Parr, Catherine L.

The Royal Society

In: Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences. 2016; 371(1703): 20150319. Published 2016 Sep 19. doi: 10.1098/rstb.2015.0319.

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Publication Date: 2016-09-19

Description: For decades, there has been enormous scientific interest in tropical savannahs and grasslands, fuelled by the recognition that they are a dynamic and potentially unstable biome, requiring periodic disturbance for their maintenance. However, that scientific interest has not translated into widespread appreciation of, and concern about threats to, their biodiversity. In terms of biodiversity, grassy biomes are considered poor cousins of the other dominant biome of the tropics—forests. Simple notions of grassy biomes being species-poor cannot be supported; for some key taxa, such as vascular plants, this may be valid, but for others it is not. Here, we use an analysis of existing data to demonstrate that high-rainfall tropical grassy biomes (TGBs) have vertebrate species richness comparable with that of forests, despite having lower plant diversity. The Neotropics stand out in terms of both overall vertebrate species richness and number of range-restricted vertebrate species in TGBs. Given high rates of land-cover conversion in Neotropical grassy biomes, they should be a high priority for conservation and greater inclusion in protected areas. Fire needs to be actively maintained in these systems, and in many cases re-introduced after decades of inappropriate fire exclusion. The relative intactness of TGBs in Africa and Australia make them the least vulnerable to biodiversity loss in the immediate future. We argue that, like forests, TGBs should be recognized as a critical—but increasingly threatened—store of global biodiversity. This article is part of the themed issue ‘Tropical grassy biomes: linking ecology, human use and conservation’.

Print ISSN: 0962-8436

Electronic ISSN: 1471-2970

Topics: Biology

Published by The Royal Society

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Markov blankets, information geometry and stochastic thermodynamics (2019)

Parr, Thomas ; Da Costa, Lancelot ; Friston, Karl

The Royal Society

In: Philosophical Transactions of the Royal Society of London. Series A, Mathematical, Physical and Engineering Sciences. 2019; 378(2164): 20190159. Published 2019 Dec 23. doi: 10.1098/rsta.2019.0159.

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Publication Date: 2019-12-23

Description: This paper considers the relationship between thermodynamics, information and inference. In particular, it explores the thermodynamic concomitants of belief updating, under a variational (free energy) principle for self-organization. In brief, any (weakly mixing) random dynamical system that possesses a Markov blanket—i.e. a separation of internal and external states—is equipped with an information geometry. This means that internal states parametrize a probability density over external states. Furthermore, at non-equilibrium steady-state, the flow of internal states can be construed as a gradient flow on a quantity known in statistics as Bayesian model evidence. In short, there is a natural Bayesian mechanics for any system that possesses a Markov blanket. Crucially, this means that there is an explicit link between the inference performed by internal states and their energetics—as characterized by their stochastic thermodynamics. This article is part of the theme issue ‘Harmonizing energy-autonomous computing and intelligence’.

Print ISSN: 1364-503X

Electronic ISSN: 1471-2962

Topics: Mathematics , Physics , Technology

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Familiar and unfamiliar face recognition in crested macaques ( Macaca nigra ) (2015)

Micheletta, Jérôme ; Whitehouse, Jamie ; Parr, Lisa A. ; [et al.]

The Royal Society

In: Royal Society Open Science. 2015; 2(5): 150109. Published 2015 May 01. doi: 10.1098/rsos.150109.

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Publication Date: 2015-05-01

Description: Many species use facial features to identify conspecifics, which is necessary to navigate a complex social environment. The fundamental mechanisms underlying face processing are starting to be well understood in a variety of primate species. However, most studies focus on a limited subset of species tested with unfamiliar faces. As well as limiting our understanding of how widely distributed across species these skills are, this also limits our understanding of how primates process faces of individuals they know, and whether social factors (e.g. dominance and social bonds) influence how readily they recognize others. In this study, socially housed crested macaques voluntarily participated in a series of computerized matching-to-sample tasks investigating their ability to discriminate (i) unfamiliar individuals and (ii) members of their own social group. The macaques performed above chance on all tasks. Familiar faces were not easier to discriminate than unfamiliar faces. However, the subjects were better at discriminating higher ranking familiar individuals, but not unfamiliar ones. This suggests that our subjects applied their knowledge of their dominance hierarchies to the pictorial representation of their group mates. Faces of high-ranking individuals garner more social attention, and therefore might be more deeply encoded than other individuals. Our results extend the study of face recognition to a novel species, and consequently provide valuable data for future comparative studies.

Electronic ISSN: 2054-5703

Topics: Natural Sciences in General

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The evolution of bacterial resistance against bacteriophages in the horse chestnut phyllosphere is general across both space and time (2015)

Koskella, Britt ; Parr, Nicole

The Royal Society

In: Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences. 2015; 370(1675): 20140297. Published 2015 Aug 19. doi: 10.1098/rstb.2014.0297.

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Publication Date: 2015-08-19

Description: Insight to the spatial and temporal scales of coevolution is key to predicting the outcome of host–parasite interactions and spread of disease. For bacteria infecting long-lived hosts, selection to overcome host defences is just one factor shaping the course of evolution; populations will also be competing with other microbial species and will themselves be facing infection by bacteriophage viruses. Here, we examine the temporal and spatial patterns of bacterial adaptation against natural phage populations from within leaves of horse chestnut trees. Using a time-shift experiment with both sympatric and allopatric phages from either contemporary or earlier points in the season, we demonstrate that bacterial resistance is higher against phages from the past, regardless of spatial sympatry or how much earlier in the season phages were collected. Similarly, we show that future bacterial hosts are more resistant to both sympatric and allopatric phages than contemporary bacterial hosts. Together, our results suggest the evolution of relatively general bacterial resistance against phages in nature and are contrasting to previously observed patterns of phage adaptation to bacteria from the same tree hosts over the same time frame, indicating a potential asymmetry in coevolutionary dynamics.

Print ISSN: 0962-8436

Electronic ISSN: 1471-2970

Topics: Biology

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Tropical grassy biomes: linking ecology, human use and conservation (2016)

Lehmann, Caroline E. R. ; Parr, Catherine L.

The Royal Society

In: Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences. 2016; 371(1703): 20160329. Published 2016 Sep 19. doi: 10.1098/rstb.2016.0329.

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Publication Date: 2016-09-19

Description: Tropical grassy biomes (TGBs) are changing rapidly the world over through a coalescence of high rates of land-use change, global change and altered disturbance regimes that maintain the ecosystem structure and function of these biomes. Our theme issue brings together the latest research examining the characterization, complex ecology, drivers of change, and human use and ecosystem services of TGBs. Recent advances in ecology and evolution have facilitated a new perspective on these biomes. However, there continues to be controversies over their classification and state dynamics that demonstrate critical data and knowledge gaps in our quantitative understanding of these geographically dispersed regions. We highlight an urgent need to improve ecological understanding in order to effectively predict the sensitivity and resilience of TGBs under future scenarios of global change. With human reliance on TGBs increasing and their propensity for change, ecological and evolutionary understanding of these biomes is central to the dual goals of sustaining their ecological integrity and the diverse services these landscapes provide to millions of people. This article is part of the themed issue ‘Tropical grassy biomes: linking ecology, human use and conservation’.

Print ISSN: 0962-8436

Electronic ISSN: 1471-2970

Topics: Biology

Published by The Royal Society

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