Open Access. Powered by Scholars. Published by Universities.®
- Discipline
- Keyword
-
- CART analysis (1)
- Carbon cycle (1)
- Cell migration (1)
- Colonization (1)
- Disturbance (1)
-
- Ecological niche (1)
- GIS (1)
- Histosol (1)
- Invasive species (1)
- Invasive species distribution model (1)
- LARCA (1)
- Landscape pattern (1)
- Long-term apparent rate of carbon accumulation (1)
- Lumbricus terrestris (1)
- Ottawa National Forest (1)
- Radiocarbon (1)
- Scratch wound assay (1)
- Soil carbon (1)
- Soil organic matter (1)
- Spatial prediction (1)
- Timelapse (1)
- Using Scratch Wound Assay To Study The Effect Of Soil Arsenic On Human Dermal Fibroblasts Cell Migration Due To Contact Exposure (1)
- Wildfire (1)
Articles 1 - 6 of 6
Full-Text Articles in Life Sciences
Metabolism And Decomposition Rates From 5 Lake Superior Tributaries, 2018-2019, Renn Schipper, Michelle Kelly, Amy Marcarelli
Metabolism And Decomposition Rates From 5 Lake Superior Tributaries, 2018-2019, Renn Schipper, Michelle Kelly, Amy Marcarelli
Michigan Tech Research Data
Ecosystem respiration (ER), and decomposition are fundamental processes driving carbon cycling in streams. Most studies examine rates of autotrophic respiration (AR) and heterotrophic respiration (HR) together as ecosystem respiration (ER), even though these two processes are carried out by different groups of organisms, and these processes, alongside decomposition, may respond differently to ongoing changes in environmental factors. We measured metabolism (gross primary production and ER) and decomposition at eight sites in four streams in the Upper Peninsula of Michigan across gradients of canopy cover and DOC concentrations. We estimated AR and HR using quantile regression and used predictive modeling to …
Fire History And Long-Term Carbon Accumulation In Hemi-Boreal Peatlands Companion Dataset, Dominic Uhelski, Evan Kane, Katherine Heckman, Rodney Chimner
Fire History And Long-Term Carbon Accumulation In Hemi-Boreal Peatlands Companion Dataset, Dominic Uhelski, Evan Kane, Katherine Heckman, Rodney Chimner
Michigan Tech Research Data
This dataset contains peat property data including location, depth, bulk density, organic matter content, and carbon content, infrared spectra, and radiocarbon dates. Peat cores were collected between 2011 and 2019. Analyses were performed between 2018 and 2021. Samples were collected from peatlands in Michigan, Wisconsin, and Minnesota for the purposes of reconstruction of fire history. The data is associated with a yet-to-be-published manuscript to be submitted to Ecosystems.
A README file is included describing the contents of the dataset and all major spreadsheet files contain a Meta worksheet which describes each column of
data.
Using Scratch Wound Assay To Study The Effect Of Soil Arsenic On Human Keratinocyte Cell Migration Due To Contact Exposure, Manas Warke, Laura De March, Srinivas Kannan, Madeline English, Rohan Sarkar, Rupali Datta, Smitha Rao
Using Scratch Wound Assay To Study The Effect Of Soil Arsenic On Human Keratinocyte Cell Migration Due To Contact Exposure, Manas Warke, Laura De March, Srinivas Kannan, Madeline English, Rohan Sarkar, Rupali Datta, Smitha Rao
Michigan Tech Research Data
The scratch wound assay was performed on Human immortalized keratinocytes (HaCaT) cells to observe the effect on cell migration due to contact exposure to arsenic-contaminated Immokalee soil. The cell migration was observed through a microscope for 72 h. HaCaT cells were seeded in 48-well plate. On day 3, treatment media was added (n=8). The cells were treated with four concentrations of soil As (45, 225, 450, and 900 mg/kg) and two controls - Negative control (NC; Pure media) and control (C; 0 mg/kg soil As) for 72 h. A scratch was made using a pipette tip. The wound healing was …
Using Scratch Wound Assay To Study The Effect Of Soil Arsenic On Human Dermal Fibroblasts Cell Migration Due To Contact Exposure, Manas Warke, Laura De Marchi, Srinivas Kannan, Madeline English, Rohan Sarkar, Rupali Datta, Smitha Rao
Using Scratch Wound Assay To Study The Effect Of Soil Arsenic On Human Dermal Fibroblasts Cell Migration Due To Contact Exposure, Manas Warke, Laura De Marchi, Srinivas Kannan, Madeline English, Rohan Sarkar, Rupali Datta, Smitha Rao
Michigan Tech Research Data
The scratch wound assay was performed on Normal Human Primary Dermal Fibroblasts (HDFa) cells to observe the effect on cell migration due to contact exposure to arsenic-contaminated Immokalee soil. The cell migration was observed through a microscope for 72 h. HDFa cells were seeded in 48-well plate. On day 3, treatment media was added (n=8). The cells were treated with four concentrations of soil As (45, 225, 450, and 900 mg/kg) and two controls - Negative control (NC; Pure media) and control (C; 0 mg/kg soil As) for 72 h. A scratch was made using a pipette tip. The wound …
Earthworm And Soil Data For Ottawa National Forest, Blair Orr
Earthworm And Soil Data For Ottawa National Forest, Blair Orr
Michigan Tech Research Data
Two types of analysis were run.
I. Probability of finding L. terrestris in habitat types of the Ottawa National Forests.
Abstract: Parts of the Ottawa National Forest (ONF) provide suitable habitat for invasive earthworms. Extensive earthworm invasion is a relatively recent event on the ONF and this study captures the current state of the earthworm invasion through a four-stage invasive species distribution model (iSDM). The random distribution of earthworms indicates early colonization by earthworms which is moderated by habitat (forest type, soil group, and drainage class). CART modeling was used to determine probability of earthworm invasion. The CART model had …
Water Chemistry And Aquatic Vegetation Data From Les Cheneaux Islands, Northern Lake Huron, Michigan, Usa, 2016-2018, Colin Brooks, Amy Marcarelli, Casey Huckins, Amanda Grimm
Water Chemistry And Aquatic Vegetation Data From Les Cheneaux Islands, Northern Lake Huron, Michigan, Usa, 2016-2018, Colin Brooks, Amy Marcarelli, Casey Huckins, Amanda Grimm
Michigan Tech Research Data
Remote sensing approaches that could identify species of submerged aquatic vegetation (SAV) and measure their extent in lake littoral zones would greatly enhance their study and management, especially if they can provide faster or more accurate results than traditional field methods. Remote sensing with multispectral sensors can provide this capability, but SAV identification with this technology must address the challenges of light extinction in aquatic environments where chlorophyll, dissolved organic carbon, and suspended minerals can affect water clarity and the strength of the sensed light signal. Here, we present environmental data collected to support a study using an unmanned aerial …