Farming the Wild
Farming has always operated with a degree of tension in relation to wild things and wild places. Agricultural tradition has often embraced the idea of “taming” nature or driving back the wilderness in order to meet human needs. In the 20th Century, an increasingly competitive economy, coupled with rising human populations emphasized massive monocultures that had serious impacts on wildlife and native vegetation. There is no question that conflict can exist between the wild and the curated, however there are also real possibilities for a more harmonic interface between humanized and non-humanized landscapes that can benefit both. In this team- taught course an experienced livestock farmer and a seasoned field ecologist will lead students in exploring the complex and nuanced relationships between managing land for production agriculture and land conservation. By utilizing Peggy Rockefeller Farm (PRF) as its primary case study students will be able to explore the complex histories of land conservation and the current practices of farming on the edge of nature. Students will also explore how farms can enhance native wildlife by providing key habitats and food sources. Students will be expected to learn through course lectures, extensive readings on farming, and wilderness, and practical, hands-on experience on the farm in making domesticated plants and livestock “wild safe”. Evaluation will be based on class participation, two short “problem sets” and a comprehensive final exam. Intermediary. Interdisciplinary. Students will be evaluated based on class participation, weekly quizzes, assignments, and a final project and presentation.
- Course Number
- MD2017.0
- Area of Study
- Farming & Food Systems
- Course Level
- Intermediate/advanced
- Instructors
- John G.T. Anderson, April Nugent
Related courses
Other courses in Farming & Food Systems
Agroecology
The global demand for food and fiber will continue to increase well into the next century. How will this food and fiber be produced? Will production be at the cost of soil loss, water contamination, pesticide poisoning, and increasing rural poverty? In this course, we examine the fundamental principles and practices of conventional and sustainable agriculture with a primary focus on crops. By examining farm case studies and current research on conventional and alternative agriculture we develop a set of economic, social, and ecological criteria for a critique of current agricultural practices in the United States and that will serve as the foundation for the development and analysis of new farming systems. Evaluations are based on two exams, class presentations, participation in a conference on potato production, and a final paper.
- Course Number
- ES3010
- Area of Study
- Farming & Food Systems, Field Ecology & Natural History
- Course Level
- Intermediate
- Instructor
- Suzanne R. Morse
Agroecology
The global demand for food and fiber will continue to increase well into the next century. How will this food and fiber be produced? Will production be at the cost of soil loss, water contamination, pesticide poisoning, and increasing rural poverty? In this course, we examine the fundamental principles and practices of conventional and sustainable agriculture with a primary focus on crops. By examining farm case studies and current research on conventional and alternative agriculture we develop a set of economic, social, and ecological criteria for a critique of current agricultural practices in the United States and that will serve as the foundation for the development and analysis of new farming systems. Evaluations are based on two exams, class presentations, participation in a conference on potato production, and a final paper.
- Course Number
- ES3010.0
- Area of Study
- Farming & Food Systems, Field Ecology & Natural History
- Course Level
- Intermediate
- Instructor
- Suzanne R. Morse
Art and Science of Fermented Foods
This course will take an in depth look at the art and science of fermented and cultured foods. The first half of the class will focus on the microbiology of fermentation with a specific focus on products derived from milk and soybeans. Each week there will be a laboratory portion in which students will explore how the basic fermentation processes and products change with different milk and soy qualities. These small-scale experiences and experiments will be complemented with field trips to commercial enterprises in Maine and Massachusetts. In the second half of the term students will explore the differences in flat, yeast, and sourdough breads. Final projects will focus on a foodway of choice and will culminate in presentations that explore the historical and cultural context in which these different cultured foods were developed and how these microbial-mediated processes enhance preservation, nutritional and economic value, and taste. Evaluations will be based on class participation, short quizzes, a lab report, journal, and a final project.
- Course Number
- ES2020
- Area of Study
- Farming & Food Systems
- Course Level
- Intermediate/advanced
- Instructor
- Suzanne R. Morse
Art and Science of Fermented Foods
This course will take an in depth look at the art and science of fermented and cultured foods. The first half of the class will focus on the microbiology of fermentation with a specific focus on products derived from milk and soybeans. Each week there will be a laboratory portion in which students will explore how the basic fermentation processes and products change with different milk and soy qualities. These small-scale experiences and experiments will be complemented with field trips to commercial enterprises in Maine and Massachusetts. In the second half of the term students will explore the differences in flat, yeast, and sourdough breads. Final projects will focus on a foodway of choice and will culminate in presentations that explore the historical and cultural context in which these different cultured foods were developed and how these microbial-mediated processes enhance preservation, nutritional and economic value, and taste. Evaluations will be based on class participation, short quizzes, a lab report, journal, and a final project.
- Course Number
- ES2020.0
- Area of Study
- Farming & Food Systems
- Course Level
- Intermediate/advanced
- Instructor
- Suzanne R. Morse
Blue Food Systems
Just three aquatic species account for most seafood consumed in the US: shrimp, tuna, and salmon. But worldwide consumption is more diverse, including an array of finfish, invertebrates, aquatic plants, algae, and other animals. These ‘blue foods’ are fished, collected, gathered, or grown in the sea or freshwater and play essential roles in supporting human health, nutrition, livelihoods, and culture. Recent studies have shown that the top 7 categories of nutrient-rich animal-source foods are all aquatic in origin. So why do food policy and science still heavily focus on terrestrially produced foods, overlooking blue foods? This course will unpack this conundrum and examine blue food systems from ‘bait to plate’ by analyzing food production, provisioning, and consumption as interlinked activities. Blue food production includes small-scale and industrial harvesting and wild capture and aquaculture systems. Provisioning activities link production and consumption: the offloading of catch, storage and transportation of highly perishable foods, transformations from raw fish to the final product, and the marketing and distribution affected to reach consumers. Finally, consumption includes how we acquire our food, cook and eat it, and dispose of waste, as well as our nutritional and health outcomes. While conventional food policy and science have focused on food production in isolation, a food systems framework sheds light on dynamics that impact the flows and distribution of foods with equity implications: which foods are made by whom, where does food go, and who benefits? This course will introduce students to key changes in the goals and means of food policy, focusing on how the emergent dialogue on food systems in fisheries is reframing how we know and govern aquatic resources. A significant portion of the course will be dedicated to examining blue food case studies, which may include: seaweed farming in Tanzania, fishing cooperatives in Mexico, tuna longliners in the Mid-Atlantic, and Lobster fishing in Maine. Students will work in teams to analyze one of these case studies in-depth, applying a food systems lens to examine each case’s sustainability and equity challenges. Students will be evaluated through their participation in class discussions and in-class activities, weekly writing reflections, and co-leading a class with your case study team. The final project will be a group policy proposal outlining how stakeholders could better govern from a ‘food systems’ perspective in your blue food case study.
- Course Number
- HS3106.0
- Area of Study
- Farming & Food Systems, Marine Science, Sustainable Business
- Course Level
- Intermediate
- Instructor
- Hillary Smith
Blue Food Systems
Just three aquatic species account for most seafood consumed in the US: shrimp, tuna, and salmon. But worldwide consumption is more diverse, including an array of finfish, invertebrates, aquatic plants, algae, and other animals. These ‘blue foods’ are fished, collected, gathered, or grown in the sea or freshwater and play essential roles in supporting human health, nutrition, livelihoods, and culture. Recent studies have shown that the top 7 categories of nutrient-rich animal-source foods are all aquatic in origin. So why do food policy and science still heavily focus on terrestrially produced foods, overlooking blue foods? This course will unpack this conundrum and examine blue food systems from ‘bait to plate’ by analyzing food production, provisioning, and consumption as interlinked activities. Blue food production includes small-scale and industrial harvesting and wild capture and aquaculture systems. Provisioning activities link production and consumption: the offloading of catch, storage and transportation of highly perishable foods, transformations from raw fish to the final product, and the marketing and distribution affected to reach consumers. Finally, consumption includes how we acquire our food, cook and eat it, and dispose of waste, as well as our nutritional and health outcomes. While conventional food policy and science have focused on food production in isolation, a food systems framework sheds light on dynamics that impact the flows and distribution of foods with equity implications: which foods are made by whom, where does food go, and who benefits? This course will introduce students to key changes in the goals and means of food policy, focusing on how the emergent dialogue on food systems in fisheries is reframing how we know and govern aquatic resources. A significant portion of the course will be dedicated to examining blue food case studies, which may include: seaweed farming in Tanzania, fishing cooperatives in Mexico, tuna longliners in the Mid-Atlantic, and Lobster fishing in Maine. Students will work in teams to analyze one of these case studies in-depth, applying a food systems lens to examine each case’s sustainability and equity challenges. Students will be evaluated through their participation in class discussions and in-class activities, weekly writing reflections, and co-leading a class with your case study team. The final project will be a group policy proposal outlining how stakeholders could better govern from a ‘food systems’ perspective in your blue food case study.
- Course Number
- HS3106
- Area of Study
- Farming & Food Systems, Marine Science, Sustainable Business
- Course Level
- Intermediate
- Instructor
- Hillary Smith