Andrew J. Titmus scite author profile

A recently developed robotic platform termed "Genepaint" can carry out large-scale nonradioactive in situ hybridization (ISH) on tissue sections. We report a series of experiments that validate this novel platform. Signal-to-noise ratio and mRNA detection limits were comparable to traditional ISH procedures, and hybridization was transcript-specific, even in cases in which probes could have hybridized to several transcripts of a multigene family. We established an atlas of expression patterns of fibroblast growth factors (Fgfs) and their receptors (Fgfrs) for the embryonic day 14.5 mouse embryo. This atlas provides a comprehensive overview of previously known as well as novel sites of expression for this important family of signaling molecules. The Fgf/Fgfr atlas was integrated into the transcriptome database (www.genepaint.org), where individual Fgf and Fgfr expression patterns can be interactively viewed at cellular resolution and where sites of expressions can be retrieved using an anatomy-based search.

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Scales of Spatial Heterogeneity of Plastic Marine Debris in the Northeast Pacific Ocean

Goldstein

2013

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Plastic debris has been documented in many marine ecosystems, including remote coastlines, the water column, the deep sea, and subtropical gyres. The North Pacific Subtropical Gyre (NPSG), colloquially called the “Great Pacific Garbage Patch,” has been an area of particular scientific and public concern. However, quantitative assessments of the extent and variability of plastic in the NPSG have been limited. Here, we quantify the distribution, abundance, and size of plastic in a subset of the eastern Pacific (approximately 20–40°N, 120–155°W) over multiple spatial scales. Samples were collected in Summer 2009 using surface and subsurface plankton net tows and quantitative visual observations, and Fall 2010 using surface net tows only. We documented widespread, though spatially variable, plastic pollution in this portion of the NPSG and adjacent waters. The overall median microplastic numerical concentration in Summer 2009 was 0.448 particles m−2 and in Fall 2010 was 0.021 particles m−2, but plastic concentrations were highly variable over the submesoscale (10 s of km). Size-frequency spectra were skewed towards small particles, with the most abundant particles having a cross-sectional area of approximately 0.01 cm2. Most microplastic was found on the sea surface, with the highest densities detected in low-wind conditions. The numerical majority of objects were small particles collected with nets, but the majority of debris surface area was found in large objects assessed visually. Our ability to detect high-plastic areas varied with methodology, as stations with substantial microplastic did not necessarily also contain large visually observable objects. A power analysis of our data suggests that high variability of surface microplastic will make future changes in abundance difficult to detect without substantial sampling effort. Our findings suggest that assessment and monitoring of oceanic plastic debris must account for high spatial variability, particularly in regards to the evaluation of initiatives designed to reduce marine debris.

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Multi-species predator eradication within a predator-proof fence at Ka‘ena Point, Hawai‘i

et al. 2013

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Habitat associations of floating debris and marine birds in the North East Pacific Ocean at coarse and meso spatial scales

Titmus

Hyrenbach

2011

Marine Pollution Bulletin

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Combining watershed models and knowledge-based models to predict local-scale impacts of climate change on endangered wildlife

Htun

Gray

Lepczyk

et al. 2016

Environmental Modelling & Software

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Andrew J. Titmus

Comprehensive expression atlas of fibroblast growth factors and their receptors generated by a novel robotic in situ hybridization platform

Scales of Spatial Heterogeneity of Plastic Marine Debris in the Northeast Pacific Ocean

Multi-species predator eradication within a predator-proof fence at Ka‘ena Point, Hawai‘i

Habitat associations of floating debris and marine birds in the North East Pacific Ocean at coarse and meso spatial scales

Combining watershed models and knowledge-based models to predict local-scale impacts of climate change on endangered wildlife

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