Spring 2021 - Project Abstracts

Nassau County is an older suburb of New York City and primarily has suburban, beach, wetland, open vegetation, and some urban land use for its 1.36 million inhabitants (in 2016). Between 1990 and 2016, the county’s population increased 5%; as the county absorbed this population, how did land use change? I analyze land cover change by performing supervised classification on Landsat 5 and 8 true color images of both the county and multiple counties around the metropolitan core. In both images, there is a gradual progression of land use change, with the dominant changes being open vegetation to suburban and suburban to urban land cover classes. Using classification on the multiple county image reveals greater suburbanization than the single county image, and both images misclassify urban and wetland pixels in the 1988 image. Nonetheless, the suburbanization and urbanization trends for the county are similar in both images, demonstrating the validity of this simple classification procedure while acknowledging the limitations in the representation of land use in the given land cover categories.  

Jacqueline Buonfiglio - Investigating Changes in Human Impact Outside Protected Area in Kwazulu-Natal, South Africa

African wild dogs (Lycaon pictus) are an extremely endangered species, and are highly affected by human impacts. The KwaZulu-Natal (KZN) province of South Africa contains an essential population of wild dogs, and my Master’s thesis focuses on investigating how these animals move in a landscape characterized by abundant anthropogenic activity. In this project Landsat 4-5 TM and Landsat 8 OLI-TIRS images are obtained for the study region in June 1998 and June 2020 respectively. These images are clipped to the extent of the study region to exclude protected areas, and classified into five land use categories: agriculture, urban, water, forest, and bare ground. Class and change detection statistics are calculated to investigate how land cover has changed between 1998 and 2020. Class statistics showed similar shapes and reflectance for the urban, forest, and bare ground classes, with decreases in the percentage of pixels in the urban, agriculture, and water classes from 1998 to 2020. Change detection statistics show that water, urban, agriculture, and forest mostly became bare ground, while bare ground mostly became forest. It is likely that urban pixels were often misclassified as bare ground due to the similarities in reflectance patterns between the two classes. Furthermore, the intense drought occurring in South Africa during the period in which the 2020 images were obtained is the most likely cause for the high level of turnover to bare ground. Future studies should investigate if similar trends hold true during the rainy season. 

Michela Catena - Evaluation Land Cover Change in Central Vietnam to Inform Flood Hazard Analysis

Loss of green vegetation, especially trees, has adverse impacts on flood risk, especially when combined with climate change. Increased urbanization around the world is leading to more severe flood events. Central Vietnam experienced extreme storms and flooding for weeks, which caused major damage, and many people blame climate change, urbanization, hydropower, and mining. This study examines land cover change in this region using a Landsat 5 image from 1989 and a Landsat 8 image from 2021. Atmospheric correction, supervised classification, and change detection analyses were conducted. Overall, there are been significant conversion of natural vegetation, agriculture, and sand in the region.

Jeamme Chia - Understanding Land Cover Change in Sepaku District, East Kalimantan Province, Indonesia (2000-2009)

Remote sensing is a powerful tool to assist policymakers and environmental advocates in understanding environmental degradation. This is especially important in regions where field studies are challenging due to geographical and political complexities, as well as when the environment is facing significant threats. A significant threat facing the environment in Sepaku District in East Kalimantan, Indonesia, is the construction of Indonesia’s new capital. To understand the impact of the development on the environment, a land cover change analysis was performed on the region. The findings will be compared to later imagery in 2023.

Melissa Halstead - Fracking Pipeline Landscape Change

New technologies and legal framework have contributed to the rapid increase of hydraulic fracturing in the northeastern United States within the last 10 years. Studies investigating the specific impacts such as pollution have been completed. However relatively few studies have investigated landscape change as an impact of the increase in hydraulic fracturing. Those that do investigate landscape change investigate the construction of well pads and do not consider the impact of pipeline construction. This study aims to investigate the landscape impacts of pipeline construction through classification using regions of interest and comparative NDVI in the region of Beaver County Pennsylvania. Results from the comparative NDVI analysis indicate that the process of clearing forest for pipelines has significant habitat fragmentation effects in the region. This could have implications for small terrestrial migratory species found within the area.

Erin Lippitt - Land Use Change Detection in the Southeastern Adirondacks

The highly biodiversity and endemic subtropical forests of South China Karst is spread on a heterogenous and complex landscape. The forest cover change in the area is highly dynamic and local as impacted by human disturbances. In this project, I aim to use remote sensing to attempt to classify the rugged, challenging terrain and quantify the forest area change in a 100 km2 area around Nonggang Village in Guangxi, China with two Landsat images from the November of 1990 and 2020. I utilized indices such as NDMI (normalized difference moisture index) and MSI (moisture stress index) to separate out karst forests from agricultural lands, then performed supervised classification with Maximum Likelihood methods with the Landsat bands and the two indices. The classification was cleaned and then change detection was used to compare the land cover in the two years. A net loss of 2.48km2 (~3.053%) of karst forests was detected, mostly on the periphery of existing agricultural areas.

Annie Polish - Multi-Instrument Observation of a Glacial Feature on Mars

Mars is known to have large water-ice caps at its poles, but much of the rest of its surface may also have been covered by glaciers in the past. The extent and history of martian glaciation is very relevant to the ongoing scientific effort to understand the history of water and potentially life on Mars. In this project, I select a single potentially glacial site on Mars, and examine it using data from the HiRISE and CRISM instruments flying on the Mars Reconnaissance Orbiter. I use qualitative methods and image classification to demonstrate that the site is very likely to have a glacial origin, and comment on the utility of remote sensing methods typically used for Earth data in the new context of Mars. Then, I introduce the analysis method of Spatial Fourier Transforms, and demonstrate its potential for classifying and measuring glacial terrain on Mars.

Carlos Carrillo-Gallegos - Urbanization of Conservation Area in Southern Mexico City

Mexico City is the largest city in North America with just over 20 million residents in the metropolitan area. However, over 50% of the city’s land is environmentally protected (Sanchez), meaning that private residences are not allowed to be constructed. The city’s large population coupled with wealth inequality and high real estate prices have resulted in the establishment of technically illegal but significant communities being built in the environmentally protected land (Sanchez). These form one of the largest clusters of informal settlements in the world (Lopez et al 2016), and they pose a significant humanitarian and environmental concern. My project aims to use image classification to quantify how much land in the south of Mexico City, where most of these communities are, converted to urbanized land from 2000 to 2020. The analysis found that about 15.83% of the Natural Land in the region we focused on was lost, primarily to urbanization, and that a significant portion of that land was within the protected regions.

Raymond Zhao - Utility-Scale Solar Farm Development and Its Impact on Land Use, NDVI, and Land Surface Temperature in California’s Imperial Valley

The Imperial Valley is a historically agricultural region that has seen an increase in utility-scale solar farm (USSF) development since 2012. Although large PV solar power stations play an important role in the global clean energy transition, it still has nontrivial local environmental impacts. Development of USSFs and change in land cover, Normalized Vegetation Index, and land surface temperature are investigated using Landsat 5 (TM) and Landsat 8 (OLI & TIRS) images. Statistical, visual, and time series analyses revealed that about 89% of USSFs were built on agricultural land between 2011 and 2021. Agricultural land decrease by over 140 km2 and USSFs accounted for about 17% of that change. USSFs were shown to have an influence on NDVI and ST in the area, particularly in the southern region. These findings have various regional climate implications. Therefore, future PV Heat Island Effect research coupled with the integration of advanced remote sensing experiments at the appropriate temporal resolution are needed to monitor the impacts that the growth of USSFs will have on the Imperial Valley.

Benjamin W. Stern - Pittsburgh’s Changing Vegetation Cover: Estimates & Inferences Using Satellite Imagery

The city of Pittsburgh has a relatively high proportion of vegetative cover compared to many other United States cities. Recent mayors have prioritized tree plantings and urban forestry to increase vegetative cover. So how have these efforts fared? This project will utilize satellite imagery (Landsat 5 & 8 images) to see how vegetative cover within the city limits have changed from 2001 to 2016, both at the city-wide scale and at the neighborhood-level scale. Using the ENVI program and the NDVI index, a change detection map was created. With the change detection map, pixels were classified into areas of no vegetative change, vegetative increase, and vegetative decrease.

The city overall saw a slight increase in vegetative cover (~3%) from 2001 to 2016. There also existed spatial, racial, and socioeconomic patterns regarding which neighborhoods saw increases (and decreases) to vegetative cover. The neighborhoods experiencing the greatest increases to vegetative cover were poorer and more racially diverse than the city average, while the areas seeing the greatest decreases were whiter and wealthier. More research is needed to understand why this surprising finding is the case.

Carolyn Savoldelli - Quinnipiac River Marsh Vegetation Succession

Monitoring vulnerable salt marshes over time can improve our understanding of these systems and inform management practices. This study uses maximum likelihood classification to geospatially examine salt marsh vegetation changes in a brackish tidal salt marsh on the Quinnipiac River. It identifies native vegetation, non-native vegetation, and loss of vegetation to mudflat in select years from 1974-2016. The vegetation lost to mudflat area peaks in 2000 when roughly a quarter of the analyzed marsh and river area is mudflat, up from less than ten percent in 1974. The native plant evaluated, Typha latifolia, was reduced to a sixth of its original presence while non-native phragmites more than doubled. However, recent years indicate a rebound through the growth of native Spartina alterniflora. Careful understanding of these results will help predict future vegetation succession and identify paths for management.

Rachael Ross - Using Remote Sensing to Analyze Smallholder Farmland Expansion in Loibor Siret, Northern Tanzania