Environment Management
Kent State’s environment management programs equip students with the knowledge and tools needed to address critical ecological challenges. From Geographic Information Science (GISc) to sustainable resource management, these programs combine technical expertise with a focus on preserving and restoring natural systems. Explore how Kent State prepares future leaders to drive environmental solutions in fields like urban planning, disaster management, conservation, and climate resilience.
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Careers in GIS are in demand more than ever. Equipped with data visualization and spatial analysis skills, GIS professionals qualify for occupations in countless fields.1
Even if you’re considering enrolling in a GIS program and pursuing a GIS master’s degree, you may not realize how prevalent Geographic Information Science (GISc) is in our world.
The American Geophysical Union (AGU) recently appointed Scott Sheridan, Ph.D., professor and chair of the Department of Geography and professor in the online Geographic Information Science (GISc) programs, to its inaugural cohort for the Leadership Academy and Network for Diversity and Inclusion in the Geosciences (AGU LANDInG). AGU LANDInG’s Academy is a 2-year commitment supporting its participating Fellows to move from people, culture, and belonging advocacy to DEI leadership through concrete efforts with a focus on evidence-based resources and practices.
Have you heard of the term “geographic information science (GISc)”?
He Yin, Ph.D., assistant professor in Kent State University’s Department of Geography in the College of Arts and Sciences, recently received NASA’s New (Early Career) Investigator Award in Earth Science. The award will provide funding for Yin’s research on the effects of the Syrian civil war on croplands throughout the eastern Mediterranean region.
Geographical information science (GISc) is a fascinating and diverse discipline, expanding rapidly into nearly every industry across the globe. Geospatial technologies support fields as widely varied as agriculture, climatology, disaster management, energy production, infrastructure, healthcare, law enforcement, logistics, marine sciences, national defense and real estate. If you’re detail-oriented and enjoy working with statistics, mathematics and powerful computer technologies, earning an online certificate in GISc will significantly boost your career opportunities as a GIS professional.
A recent scan of Geographic Information System (GIS) news stories highlights its critical role in conservation efforts, tropical cyclone risk assessment; citywide collaboration, planning and response; electrical utility infrastructure resilience and U.S. Department of Transportation planning and operation.1,2,3,4,5 These are just a few examples of the far-reaching influence GIS and Geographic Information Science (GISc), the science behind this technology, has in our lives. The global market for GIS was $8.1 billion in 2020 and has a projected growth of $14.5 billion by 2025.6 There’s no better time to get involved in this red-hot field by arming yourself with the education and credentials necessary to compete for the most lucrative, in-demand and rewarding jobs.
Acronyms can be confusing, especially when two abbreviations relate to the same field. An example is geographic information systems (GIS) and geographic information science (GISc). Although both acronyms are rooted in the science of geography, the roles of GIS and GISc differ.
A GISc program can help professionals advance their knowledge and prepare for work in fields such as anthropology, economics, geoscience, market research, political science, disaster relief, real estate, surveying or urban planning. GISc professionals can choose from a broad spectrum of careers in different sectors, from the government to cartographers or geoscientists.
A whole variety of career opportunities are available for professionals in the field of geographic information systems (GIS) and geographic information science (GISc). These fields are among the fastest-growing disciplines, requiring a broad spectrum of skills in environmental sciences, digital technologies and project management. There are exciting, high-paying GIS and GISc careers for every interest, whether you enjoy being outdoors and exploring natural environments, have a passion for sustainable urban development or prefer the challenge of operating high-tech digital tools in an office setting.
Geographic Information Science (GISc) is a field of study that covers a range of socio-political, geographical and informational disciplines. It involves the use of various technologies for recording and analyzing spatial and geographic data in a useful and easily-accessible manner. Using computer-based applications, GIS frameworks allow engineers and technicians to create interactive queries from collected data and produce visually compelling data maps.
The term “geographic information science” (GISc) might be unfamiliar or seem a little obscure, but it’s actually a rapidly growing profession with careers in high demand. The world is increasingly reliant on GISc graduates with skills in geographic information systems in a wide variety of industries. From software development and law enforcement to climate scientists and urban planners, GISc is an important field of study.
What is a Geographic Information Sciences Master’s Degree?
Even if you’re thinking about enrolling in a GIS program and pursuing a GIS master’s degree, you may not realize how prevalent Geographic Information Science (GIScience) is in our world. It is the science behind the devices that are woven into our daily lives. Geographical Information Systems (GIS) are everywhere, from the mapping applications on our phones to systems that monitor our health, manage communications networks, plan disaster response and study environmental sustainability.1
From global climate change to regional virus outbreaks, geographic information systems (GIS) are used to analyze and answer an entire spectrum of issues associated with geographic space. The researchers and analysts addressing these issues typically have academic degrees in Geographic Information Science (GISc), providing the scientific knowledge, skills and training in specialized computer-based GIS apps.1 Tech-based careers requiring degrees in GISc include a wide variety of fields such as national defense, meteorology, climatology, marine sciences, earth sciences, energy production, biotech, agriculture, healthcare, law enforcement, real estate, logistics, infrastructure and disaster risk management and relief.
Environmental education connects us with the world. It enhances the community you live in. It empowers you and those around you. Kent State University strives to enhance the quality of life in your region, your state, and your community.1
You’re tech-savvy and fascinated by geography, but is there a career in that? Consider this, from the geographic information system company Esri:
Whether you thrive in the sunshine or the snow, near water or mountains, in big cities or under big sky, we have good news for you: there are geographic information science jobs all over the country.
When you tune in to a local weather forecast or reach your destination with the help of a GPS device, you’re reaping the benefits of geographic information system (GIS) remote sensing technology. GIS was first applied in the 1960s to collect and analyze data regarding land usage. Today, there are a myriad of GIS applications ranging from urban planning to predicting the environmental effects of climate change. GIS technology continues to develop, creating an ever-increasing need for skilled professionals.1
If you’re researching either geographic information systems or geographic information science, it can sometimes be difficult to distinguish one from the other. Although geographic information science is often confused with geographic information systems, and the two terms are closely related, they are not perfectly interchangeable.1
If you’re researching either geographic information systems or geographic information science, it can sometimes be difficult to distinguish one from the other. Although geographic information science is often confused with geographic information systems, and the two terms are closely related, they are not perfectly interchangeable.1
Geographic information science (GISc) is a broadly applicable degree that can be used in many fields around the world, including healthcare, climatology, urban development, national parks and more.1 Working in GISc could take you to places as different as a laboratory or the deep wilderness. For example, you might use the skills you have learned to protect the environment, study volcanic activity in other areas of the world, or support the homeless population in your city.2 If you have an analytical mind and are good at visualizing information, you can use GISc technology to tell stories that help others and better understand and serve the world around you in countless different ways.
Geographical information systems (GIS) are the backbone for geographical science and all its related fields. Modern geography uses sophisticated, highly specialized technology to gather, analyze and report on data about positions on Earth’s surface.1
If you want to understand the world around you — literally — there is no better way than by studying geographical science. This field uses technology to answer important questions about our world: Why are different places the way they are? What is the relationship between people and where they live? How can we best take care of our planet and its unique natural characteristics?1
The growing field of geographic information systems (GIS) has opened up a range of career possibilities for people who are fascinated with data and who want a fulfilling career that addresses pressing real-world problems, and this includes GIS analysts.
Although various fields of science may differ in how they use the word, a “biome” can generally be defined as a geographically large ecosystem with a shared physical climate. Earth’s biomes can be classified broadly into two overarching categories, terrestrial and aquatic. These are further divided based on climate and on the dominant plants and animals that have evolved to thrive in their specific environmental conditions.
Human activity has had an effect on the environment for thousands of years, from the time of our very earliest ancestors. Since Homo sapiens first walked the earth, we have been modifying the environment around us through agriculture, travel and eventually through urbanization and commercial networks. At this point in earth’s physical history, our impact on the environment is so substantial that scientists believe “pristine nature,” or ecosystems untouched by human intervention, no longer exist.1
There’s an old adage nearly everyone’s heard: “Work a job you love, and you’ll never work a day in your life.” As true as this sentiment may be, the facts about employment suggest that a majority of people are not working jobs they love. In fact, far from it.
In the modern world, media is saturated with images of natural disasters and their impacts on human health and infrastructure. And while the most memorable images for many are of the damages done by hurricanes, tornadoes or earthquakes, in the U.S., the deadliest atmospheric hazard over the last few decades has been excessive heat. While everyone generally knows the advice to take it easy during hot weather, it tends to get much less attention than other hazards because its impacts are not nearly as visibly dramatic. This said, several hundred people a year in the U.S. on average still die from excess heat.
We’re all familiar with oceanic tides, which cycle roughly every 12 1/2 hours based on the relative positions of the earth and the moon. Some places have greater ranges than others, based on the local configuration of the coastline. Every couple of weeks, when the sun, earth and moon all line up, we have “spring tides,” in which the tidal fluctuations are stronger than normal.
Click on the image below to explore all of the aspects of a GIS career with our new infographic. Read up on the job market, education requirements and salary expectations for a GIScience professional.