Update projects.html

index.html

@@ -92,7 +92,7 @@ <h1>Welcome to Shayne's Amazing Website</h1>
         <ul>
             <li><a href="#">Home</a></li>
             <li><a href="#">About</a></li>
-            <li><a href="projects.html">Projects</a></li> <!-- Updated link -->
+            <li><a href="projects.html">Research</a></li> <!-- Updated link -->
             <li><a href="#">Contact</a></li>
         </ul>
     </nav>

proj1.html

@@ -0,0 +1,58 @@
+<!DOCTYPE html>
+<html lang="en">
+<head>
+    <meta charset="UTF-8">
+    <meta name="viewport" content="width=device-width, initial-scale=1.0">
+    <title>Project 1</title>
+    <style>
+        body {
+            font-family: Arial, sans-serif;
+            background-color: #f4f4f2; /* Light earthy background */
+            color: #333;
+            margin: 0;
+            padding: 0;
+        }
+        .container {
+            max-width: 800px;
+            margin: auto;
+            padding: 20px;
+        }
+        h1, h2 {
+            color: #2c5f2d; /* Forest green */
+        }
+        p {
+            margin: 20px 0;
+            line-height: 1.6;
+        }
+        .section {
+            background-color: #fff;
+            padding: 20px;
+            margin-bottom: 20px;
+            border-radius: 8px;
+            box-shadow: 0 0 10px rgba(0, 0, 0, 0.1);
+        }
+    </style>
+</head>
+<body>
+    <div class="container">
+        <img src="project1_TITLE.png" alt="Description of the image" class="section-image">
+
+        <div class="section">
+            <h1>Introduction</h1>
+            <p>Coastal redwoods, the world's largest coniferous tree species, are a central part of Northern California's ecology and economy. These magnificent trees, found solely along the Pacific Coast, provide vital habitats for a variety of species, including the threatened Northern Spotted Owl. Yet, they face challenges from several disturbances, notably bark stripping by black bears. This behavior can compromise tree health and growth, leading to notable economic implications for timber production. This study explores a novel remote sensing technique to early detect and map the damage inflicted by bears, offering a potential solution to mitigate the adverse effects on redwood timber stands.</p>
+        </div>
+        <div class="section">
+            <h2>Methods</h2>
+            <p>The research leveraged high-resolution hyperspectral imagery from Unmanned Aerial Vehicles (UAVs) to capture detailed spectral signatures of redwood trees. These signatures helped distinguish between healthy trees, those recently attacked by bears, and those with old damage. The study utilized advanced machine learning models to analyze the imagery, focusing on identifying specific spectral features indicative of bear damage. This approach aimed to provide a non-invasive, accurate, and efficient method for monitoring redwood health and assessing the spatial patterns of bear bark stripping.</p>
+        </div>
+        <div class="section">
+            <h2>Results</h2>
+            <p>The study achieved some success in distinguishing healthy trees from those with old bear damage. However, it faced challenges in identifying trees recently attacked by bears due to the subtle spectral changes not adequately captured within the study's timeframe. Despite these limitations, the research uncovered potential spectral bands and indices significant for detecting tree health variations, hinting at the possibility of improving early detection methods with further assessment.</p>
+        </div>
+        <div class="section">
+            <h2>Discussion</h2>
+            <p>This investigation highlights the unique resilience of redwood trees to bear bark stripping, contrasting with the uniform damage patterns observed in other species affected by pests like bark beetles. Although the study faced challenges in early detection of recent damage, it emphasized the potential of UAV-based hyperspectral imaging in forest health monitoring. By refining data collection and analysis methods, there's hope for developing more precise tools to combat and mitigate the impacts of bear bark stripping on redwood forests. The findings underscore the importance of continuous innovation and research in preserving these critical ecosystems for future generations.</p>
+        </div>
+    </div>
+</body>
+</html>

proj2.html

@@ -0,0 +1,58 @@
+<!DOCTYPE html>
+<html lang="en">
+<head>
+    <meta charset="UTF-8">
+    <meta name="viewport" content="width=device-width, initial-scale=1.0">
+    <title>Project 1</title>
+    <style>
+        body {
+            font-family: Arial, sans-serif;
+            background-color: #f4f4f2; /* Light earthy background */
+            color: #333;
+            margin: 0;
+            padding: 0;
+        }
+        .container {
+            max-width: 800px;
+            margin: auto;
+            padding: 20px;
+        }
+        h1, h2 {
+            color: #2c5f2d; /* Forest green */
+        }
+        p {
+            margin: 20px 0;
+            line-height: 1.6;
+        }
+        .section {
+            background-color: #fff;
+            padding: 20px;
+            margin-bottom: 20px;
+            border-radius: 8px;
+            box-shadow: 0 0 10px rgba(0, 0, 0, 0.1);
+        }
+    </style>
+</head>
+<body>
+    <div class="container">
+        <img src="project2_TITLE.png" alt="Description of the image" class="section-image">
+
+        <div class="section">
+            <h1>Introduction</h1>
+            <p>Dune ecosystems are dynamic landscapes shaped by geological, human, and climatic factors. Utilizing Unmanned Aerial Vehicles (UAV), this study investigates the Manila Dunes in Humboldt County, California, focusing on how vegetative stabilization, social trails, and invasive species influence dune movements. Through advanced remote sensing techniques, the research aims to shed light on the interactions between human activity, vegetation density, and dune dynamics, offering insights for more effective coastal management and conservation strategies.</p>
+        </div>
+        <div class="section">
+            <h2>Methods</h2>
+            <p>This research employed UAVs equipped with high-resolution cameras to capture detailed imagery of the Manila Dunes, covering a 22.5-acre plot. The imagery underwent a photogrammetry process to create an orthomosaic image, providing a detailed overview of the area's topography and vegetation. The study utilized object-based feature extraction and pixel-based supervised classification methods to analyze the dune vegetation, focusing on distinguishing invasive from native species. Additionally, the analysis included monitoring dune movement through comparison of UAV-derived digital surface models across different years, aiming to assess the impact of trails and vegetation on dune stability.</p>
+        </div>
+        <div class="section">
+            <h2>Results</h2>
+            <p>The findings reveal that established trails contribute to reducing dune movement, contrasting with social trails, which exhibit more local movements. The research successfully identified areas of erosion and deposition within the dunes, highlighting the stabilizing effect of vegetative cover against dune movements. Furthermore, the study compared two classification methods to map dune vegetation, finding that object-based feature extraction offered a more accurate identification of invasive and native species compared to pixel-based classification.</p>
+        </div>
+        <div class="section">
+            <h2>Discussion</h2>
+            <p>The study emphasizes the complexity of coastal dune ecosystems, where human activities, such as the creation of social trails, can significantly impact dune dynamics and vegetation distribution. The results underscore the importance of integrating remote sensing technologies and machine learning methods in environmental management practices. By providing a baseline of dune movement and vegetation distribution, the research supports the development of informed conservation strategies, aiming to preserve these dynamic landscapes against the challenges posed by invasive species and human disturbances.</p>
+        </div>
+    </div>
+</body>
+</html>

proj3.html

@@ -0,0 +1,58 @@
+<!DOCTYPE html>
+<html lang="en">
+<head>
+    <meta charset="UTF-8">
+    <meta name="viewport" content="width=device-width, initial-scale=1.0">
+    <title>Project 1</title>
+    <style>
+        body {
+            font-family: Arial, sans-serif;
+            background-color: #f4f4f2; /* Light earthy background */
+            color: #333;
+            margin: 0;
+            padding: 0;
+        }
+        .container {
+            max-width: 800px;
+            margin: auto;
+            padding: 20px;
+        }
+        h1, h2 {
+            color: #2c5f2d; /* Forest green */
+        }
+        p {
+            margin: 20px 0;
+            line-height: 1.6;
+        }
+        .section {
+            background-color: #fff;
+            padding: 20px;
+            margin-bottom: 20px;
+            border-radius: 8px;
+            box-shadow: 0 0 10px rgba(0, 0, 0, 0.1);
+        }
+    </style>
+</head>
+<body>
+    <div class="container">
+        <img src="project3_TITLE.png" alt="Description of the image" class="section-image">
+
+        <div class="section">
+            <h1>Introduction</h1>
+            <p>The retention of federal fire suppression workforce in the U.S. is under increasing pressure. As wildland fire seasons lengthen and fires grow in size, the demand for skilled firefighting personnel escalates. However, federal agencies face challenges in both recruiting and retaining these critical staff. Speculations suggest that long seasons, demanding working conditions, and low wages contribute to these challenges. This study assembles a unique dataset on federally funded Interagency Hotshot Crews to investigate the factors affecting firefighter retention. Through empirical analysis, it seeks to understand the influences of workload, wages, and career experience on the likelihood of firefighters remaining within the firefighting workforce.</p>
+        </div>
+        <div class="section">
+            <h2>Methods</h2>
+            <p>Utilizing a Cox proportional hazard model, this research analyzes a comprehensive dataset covering Interagency Hotshot Crews from 2012 to 2018. This dataset includes detailed information on the number of days firefighters were assigned to significant incidents each year and local wage data for alternative occupations based on their home forest locations. The study aims to estimate the effects of an individual’s workload, competing occupation wages, and accumulated experience on their retention within the firefighting workforce. This approach provides insights into the balance between economic incentives and the challenging conditions faced by wildland firefighters.</p>
+        </div>
+        <div class="section">
+            <h2>Results</h2>
+            <p>The study's findings indicate that both a higher workload, serving as a proxy for higher earnings, and accumulated experience throughout a firefighter's career have a positive impact on retention. Surprisingly, the wages of alternative occupations did not significantly influence retention decisions. This suggests that factors intrinsic to the firefighting profession and the economic benefits associated with intensive firefighting efforts play more critical roles in retaining personnel than the lure of potentially higher wages in other fields. Over the study period, retention rates showed a decline, underscoring the growing challenges in maintaining a skilled firefighting workforce.</p>
+        </div>
+        <div class="section">
+            <h2>Discussion</h2>
+            <p>The retention challenges highlighted in this study underscore the complex dynamics within the federal firefighting workforce. The positive impact of workload and experience on retention suggests that economic incentives tied to firefighting assignments are significant factors in personnel decisions to stay. However, the lack of influence from alternative occupation wages points to a strong dedication among firefighters to their profession, likely driven by the unique nature of the work and the sense of community and purpose it provides. Addressing these retention challenges will require a nuanced understanding of the motivations and constraints faced by wildland firefighters, as well as policy responses that balance economic incentives, working conditions, and career development opportunities.</p>
+        </div>
+    </div>
+</body>
+</html>

projects.html

@@ -32,10 +32,10 @@
 </head>
 <body>
     <div class="container">
-        <h1>Choose a Project</h1>
-        <a href="#" class="btn">Project 1</a>
-        <a href="#" class="btn">Project 2</a>
-        <a href="#" class="btn">Project 3</a>
+        <h1>Research</h1>
+        <a href="proj1.html" class="btn">Bark Stripping</a>
+        <a href="proj2.html" class="btn">Coastal Dune Movement</a>
+        <a href="proj3.html" class="btn">Firefighter Retention</a>
         <a href="#" class="btn">Project 4</a>
     </div>
 </body>