Submitted
Qu C, Bonner MF, DeWind NK, & Brannon EM (submitted) Contextual coherence increases perceived numerosity independent of semantic content. PsyArXiv
Li SPD & Bonner MF (submitted) Emergent selectivity for scenes, object properties, and contour statistics in feedforward models of scene-preferring cortex. bioRxiv
Hafri AA, Bonner MF, Landau B, & Firestone C. (submitted) A phone in a basket looks like a knife in a cup: The perception of abstract relations. PsyArXiv
Publications
Elmoznino E & Bonner MF (2024) High-performing neural network models of visual cortex benefit from high latent dimensionality. PLOS Computational Biology, 0(1): e1011792. [article] [code and data]
Robinson BS, Drenkow N, Conwell C, & Bonner MF. (2023) A sparse null code emerges in deep neural networks. NeurIPS UniReps Workshop. pdf
McMahon E, Bonner MF, & Isik L. (2023) Hierarchical organization of social action features along the lateral visual pathway. Current Biology, 33, 1-13. [pdf] [code and data]
Magri C, Elmoznino E, & Bonner MF (2023) Scene context is predictive of unconstrained object similarity judgments. Cognition, 239, 105535. pdf
Hafri AA, Wadhwa S, & Bonner MF (2022) Perceived distance alters memory for scene boundaries. Psychological Science, 33(12), 2040–2058. [pdf] [code and data]
Lin F, Hafri AA, & Bonner MF (2022) Scene memories are biased toward high-probability views. Journal of Experimental Psychology: Human Perception and Performance, 48(10): 1116-1129. [pdf] [code and data]
Harel A, Nador J, Bonner MF, & Epstein RA (2022) Early electrophysiological markers of navigational affordances in scenes. Journal of Cognitive Neuroscience, 34 (3): 397–410. pdf
Dwivedi K, Bonner MF, Cichy RM, & Roig G. (2021) Unveiling functions of the visual cortex using task-specific deep neural networks. PLOS Computational Biology, 17(8), e1009267. article
Bonner MF & Epstein RA (2021) Object representations in the human brain reflect the co-occurrence statistics of vision and language. Nature Communications, 12, 4081. [pdf] [tweet-thread] [code and data]
DeWind NK, Bonner MF, & Brannon EM (2020) Similarly oriented objects appear more numerous. Journal of Vision, 20, 4-4. pdf
Bonner MF & Epstein RA (2018) Computational mechanisms underlying cortical responses to the affordance properties of visual scenes. PLOS Computational Biology, 14:e1006111. pdf
Bonner MF & Epstein RA (2017) Coding of navigational affordances in the human visual system. Proceedings of the National Academy of Sciences, 114(18): 4793-8. [pdf] [NeuroMatch Academy repo - thanks to Kshitij Dwivedi]
Price AR, Bonner MF, Peelle JE & Grossman M (2017) Neural coding of fine-grained object knowledge in perirhinal cortex. bioRxiv
Price AR, Peelle JE, Bonner MF, Grossman M & Hamilton RH (2016) Causal evidence for a mechanism of semantic integration in the angular gyrus revealed by high-definition transcranial direct current stimulation (HD-tDCS). Journal of Neuroscience, 36(13): 3829-38. pdf
Bonner MF, Price AR, Peelle JE & Grossman M (2016) Semantics of the visual environment encoded in parahippocampal cortex. Journal of Cognitive Neuroscience, 28(3): 361-78. pdf
Price AR, Bonner MF & Grossman M (2015) Semantic memory: cognitive and neuroanatomical perspectives. In: Brain Mapping: An Encyclopedic Reference. Toga AW, Poldrack RA (Eds.) Waltham: Academic Press. 529-36. pdf
Price AR, Bonner MF, Peelle JE & Grossman M (2015) Converging evidence for the neuroanatomic basis of combinatorial semantics in the angular gyrus. Journal of Neuroscience, 35:3276-84. pdf
Bonner MF & Grossman M (2014) The neural basis of semantic memory. In: Dementia and Memory. Nilsson L-G, Ohta N (Eds.) Hove: Psychology Press. 207-24.
Bonner MF & Grossman M (2013) Deficits in semantic memory associated with focal neurodegenerative diseases. In: The Boston Process Approach to Neuropsychological Assessment: A Practitioner’s Guide. Ashendorf L, Swenson R, Libon DJ (Eds.) Oxford: Oxford University Press. 200-16
Bonner MF & Price AR (2013) Where is the anterior temporal lobe and what does it do? Journal of Neuroscience, 33:4213-5. pdf
Bonner MF, Peelle JE, Cook PA & Grossman M (2013) Heteromodal conceptual processing in the angular gyrus. NeuroImage, 71:175-86. pdf
Grossman M, Peelle JE, Smith EE, McMillan CT, Cook P, Powers J, Dreyfuss M, Bonner MF, Richmond L, Boller A, Camp E & Burkholder L (2013) Category-specific semantic memory: Converging evidence from BOLD fMRI and Alzheimer’s disease. NeuroImage, 68:263–74. pdf
Bonner MF & Grossman M (2012) Gray matter density of auditory association cortex relates to knowledge of sound concepts in primary progressive aphasia. Journal of Neuroscience, 32(23): 7986-91. pdf
Grossman M, Bonner MF & Weinstein J (2011) Music and Semantic Dementia--Reply. Archives of Neurology, 68,1089-90. pdf
Weinstein J, Koenig P, Gunawardena D, McMillan C, Bonner MF & Grossman M (2011) Preserved musical semantic memory in semantic dementia. Archives of Neurology, 68, 248-50. pdf
Bonner MF, Ash S & Grossman M (2010) The new classification of primary progressive aphasia into semantic, logopenic, or nonfluent/agrammatic variants. Current Neurology and Neuroscience Reports, 10(6), 484-90. pdf
Farag C, Troiani V, Bonner MF, Powers C, Avants B, Gee J & Grossman M (2010) Hierarchical organization of scripts: converging evidence from fMRI and frontotemporal degeneration. Cerebral Cortex, 20, 2453-63. pdf
Bonner MF, Vesely L, Price C, Anderson C, Richmond L, Farag C, Avants B & Grossman M (2009) Reversal of the concreteness effect in semantic dementia. Cognitive Neuropsychology, 26(6), 568-79. pdf
Vesely L, Bonner MF, Reilly J & Grossman M (2007) Free association in semantic dementia: The importance of being abstract. Brain and Language, 103(1-2):154-5.
Zhang R, Liu ST, Chen W, Bonner MF, Pehrson J, Yen TJ & Adams PD (2007) HP1 proteins are essential for a dynamic nuclear response that rescues the function of perturbed heterochromatin in primary human cells. Molecular and Cellular Biology, 27(3):949-62. pdf