Nathan Bush scite author profile

Nathan Bush

5Publications

59Citation Statements Received

13Citation Statements Given

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Affiliations

Texas A&M University, University of Massachusetts Amherst

Publications

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Lights, Camera…Citizen Science: Assessing the Effectiveness of Smartphone-Based Video Training in Invasive Plant Identification

et al. 2014

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The rapid growth and increasing popularity of smartphone technology is putting sophisticated data-collection tools in the hands of more and more citizens. This has exciting implications for the expanding field of citizen science. With smartphone-based applications (apps), it is now increasingly practical to remotely acquire high quality citizen-submitted data at a fraction of the cost of a traditional study. Yet, one impediment to citizen science projects is the question of how to train participants. The traditional “in-person” training model, while effective, can be cost prohibitive as the spatial scale of a project increases. To explore possible solutions, we analyze three training models: 1) in-person, 2) app-based video, and 3) app-based text/images in the context of invasive plant identification in Massachusetts. Encouragingly, we find that participants who received video training were as successful at invasive plant identification as those trained in-person, while those receiving just text/images were less successful. This finding has implications for a variety of citizen science projects that need alternative methods to effectively train participants when in-person training is impractical.

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Utilizing the physiological adaptation mechanisms of coastal plants for vegetative restoration of barrier islands

Bush

Sokolova

et al. 2018

Ocean & Coastal Management

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Mitigation of Hypoxic Ecosystems Using Hemolymph Analysis of Callinectes sapidus and Procambarus clarkii in Relation to Spartina Grasses

Bush¹,

Bush²,

Green³

et al. 2016

OJE

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In the past 80 years, Louisiana has lost over one million acres in land, affecting plants and crustaceans that live in these environments. The first objective of this research was to determine the relationship between diffused oxygen in water and time with the behavioral and physiological health of Callinectes sapidus (blue crab) and Procambarus clarkii (crawfish). After 24 hours, manual dexterity, or the amount of time it takes for a crustacean to flip itself over increased under hypoxic conditions. Hemolymph was extracted and tested for lactate, glucose, and protein. Crawfish were also exposed to this same procedure. An additional crawfish study comparing Spartina plants to assimilate oxygen for aeration compared to mechanical aeration was conducted. The hypoxic groups for all three studies at the 0.05 level had a significantly greater manual dexterity time and greater amounts of lactate and glucose. The protein was significantly higher in hypoxiaexposed crawfish. Time and aeration affect the health of crustaceans, and plants were shown to effectively provide normoxic oxygen levels at a similar level as mechanical aeration. These studies support the importance of marsh grasses for the coast and crustacean viability.N. Bush et al.

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Studying the Ecological Benefits of Spartina Grass Species and Use of a Mathematical Model (Pick’s Theorem) for Historical Documentation and Future Restoration of Hypoxic Marshlands

Bush¹,

Bush²,

Blanchard³

et al. 2015

JWARP

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Coastal erosion, subsidence, salt water intrusion, and hypoxia are forces that impact Louisiana and beyond. The objective of this research was to determine the extent of land loss due to erosion and establish the best Spartina (S.) species to ameliorate the coast. Using graph theory in the Geometer's Sketch Pad program, progressive land loss from Isles Dernieres was determined from 1853 to 2005. This was accomplished using Pick's Theorem (A = I + B/2 − 1), where A = total land area, I = interior intersections, and B = boundary intersections. The analysis indicated that there had been more than ninety percent land loss from 1853 to 2005. Additionally, four plants from each Spartina species (alterniflora, patens, and spartinae) were planted and flooded in four containers, respectively, filled with potting soil, and a non-vegetated control was included in this same manner. Dissolved oxygen was measured three times a week under three different temperature regimes, twenty-two, thirty, and ten degrees Celsius, respectively. This resulted in the control group diffusing the most oxygen at twenty-two degrees Celsius, the S. alterniflora diffusing the most oxygen at thirty degrees Celsius, and all the species diffusing statistically similar oxygen levels at ten degrees Celsius. After six months of flooded conditions, penetration and subsidence were measured. The vegetated soils required the greatest penetration forces and subsided the least. Oxygen diffusion is dependent on plant species and temperature. The penetration and sub- N. Bush et al. 1364 sidence results also support the conclusion that plants can reduce land loss and preserve the coastline.

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Niche-Based Modeling of Japanese Stiltgrass (Microstegium vimineum) Using Presence-Only Information

Bush¹

2015

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Nathan Bush

Lights, Camera…Citizen Science: Assessing the Effectiveness of Smartphone-Based Video Training in Invasive Plant Identification

Utilizing the physiological adaptation mechanisms of coastal plants for vegetative restoration of barrier islands

Mitigation of Hypoxic Ecosystems Using Hemolymph Analysis of <i>Callinectes sapidus</i> and <i>Procambarus clarkii</i> in Relation to <i>Spartina</i> Grasses

Studying the Ecological Benefits of <i>Spartina</i> Grass Species and Use of a Mathematical Model (Pick’s Theorem) for Historical Documentation and Future Restoration of Hypoxic Marshlands

Niche-Based Modeling of Japanese Stiltgrass (Microstegium vimineum) Using Presence-Only Information

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Nathan Bush

Lights, Camera…Citizen Science: Assessing the Effectiveness of Smartphone-Based Video Training in Invasive Plant Identification

Utilizing the physiological adaptation mechanisms of coastal plants for vegetative restoration of barrier islands

Mitigation of Hypoxic Ecosystems Using Hemolymph Analysis of &lt;i&gt;Callinectes sapidus&lt;/i&gt; and &lt;i&gt;Procambarus clarkii&lt;/i&gt; in Relation to &lt;i&gt;Spartina&lt;/i&gt; Grasses

Studying the Ecological Benefits of &lt;i&gt;Spartina&lt;/i&gt; Grass Species and Use of a Mathematical Model (Pick’s Theorem) for Historical Documentation and Future Restoration of Hypoxic Marshlands

Niche-Based Modeling of Japanese Stiltgrass (Microstegium vimineum) Using Presence-Only Information

Contact Info

Product

Resources

About

Mitigation of Hypoxic Ecosystems Using Hemolymph Analysis of <i>Callinectes sapidus</i> and <i>Procambarus clarkii</i> in Relation to <i>Spartina</i> Grasses

Studying the Ecological Benefits of <i>Spartina</i> Grass Species and Use of a Mathematical Model (Pick’s Theorem) for Historical Documentation and Future Restoration of Hypoxic Marshlands