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Sheryl Luzzadder-Beach, Chair 305 E. 23rd Street • CLA 3.306 • A3100 • Austin, Tx 78712 • 512-232-1595

William E. Doolittle

Professor Ph.D., University of Oklahoma

Professor - Erich W. Zimmermann Regents Professor in Geography
William E. Doolittle

Contact

Biography

Professor Doolittle received his Ph.D. in 1979 from the University of Oklahoma. He taught at Mississippi State University before joining the UT faculty in 1981, and served as undergraduate advisor, graduate advisor (receiving UT's Outstanding Graduate Advisor Award in 2004), and department chair. He was a visiting professor at Brown University in 1997, and a Fulbright Senior Specialist at Stockholm University in 2007. He is a Fellow, American Association for the Advancement of Science, and has received distinguish scholarship awards from the Association of American Geographers and the Conference of Latin Americanist Geographers.

Doolittle regularly teaches courses on the Landscapes of Mexico and Caribbean America, the historical geography of the American Southwest, Field Techniques, and ecologically sustainable and indigenously developed agricultural strategies.

Professor Doolittle's research interests include landscapes, histories, and agricultural technologies in arid lands, particularly the American Southwest and Mexico. He is actively engaged with three long-term projects: "Forests to Fields," monitoring environmental and land use change associated with agriculture in the northwest Mexico; "Bridging Troubled Waters," investigating the transfer of knowledge pertaining to water control from Renaissance Spain to Viceregal Mexico, and the merger of these technologies with those developed indigenously; and "EarthShapers," developing theories of landscape evolution involving the agency and import of individuals.

Professor Doolittle is author of more than 70 publications including four books. The Safford Valley Grids: Prehistoric Cultivation in the Southern Arizona Desert (2004), Cultivated Landscapes of Native North America (2000), Canal Irrigation in Prehistoric Mexico: The Sequence of Technological Change (1990) , and Prehistoric Occupance in the Valley of Sonora: Archaeological Confirmation of Early Spanish Reports (1988).

Dr. Doolittle Interview

On Aqueducts - Dr. Doolittle Colloquium Presentation

GRG 320K • Land And Life: Amer Southwest

36625 • Spring 2015
Meets MWF 1200pm-100pm CLA 1.102
show description

This course is a historical geography of the southwestern United States and northern Mexico, the arid southwest quadrant of the North American continent. Focus is on two subtopics.

  1. The ways of life of the "Native Americans," "Spaniards," and "Anglos." Emphasis is placed on subsistence or economic activities of the respective people as they are influenced by the bio-physical environment, technology, demographics, and culture.
  2.    
  3. The effects or changes that successive peoples had on the environment and earlier residents (e.g., how the Spanish mission system affected native cultural ecologies and landscapes) are similarly elucidated.

This course is designed for students in history, anthropology, education, Latin American Studies, American Studies, and Mexican-American Studies, as well as geography. It is intended to provide an understanding of the processes that create geographically identifiable regions. 

GRG 339K • Envir, Devel, & Food Productn

36685 • Spring 2015
Meets MWF 1100am-1200pm CLA 0.128
show description

This course focuses on "indigenously developed" and what used to be call "traditional" farming methods and techniques. Such practices are those not dependent on either fossil fuels, chemical fertilizers, or other external inputs, and hence have been called "Low extenal-input techonolgies" (LEIT). Based on "indigenous technical knowledge" (ITK), they are typically small in scale, involving for the most part the labor of individuals, families, and communities. Emphasis is placed on those systems most commonly used in various parts of the world today and in times past

Agriculture is treated here as the transformation of biophysical, sometimes referred to inappropriately as "natural," environments, into "cultural" environments. It is assessed in regard to both the plants cultivated (crops), and the soil, slope, moisture, and temperature conditions that exist and those that are either modified or created by farmers. The processes involved in the domestication of both crops and landscapes are discussed. Ecological and systematic approaches are taken in order to understand how different agricultural strategies insure continual long-term productivity and stability similar to that characteristic of environments that are not cultivated. Microeconomics is all-important.

The various "agro-ecosystems" are also discussed as economic activities that have highly visible spatial manifestations that result in distinctive "landscapes," and as activities that are dynamic, changing continuously. Development is treated conceptually as a specific type of change, not necessarily as a goal. It is envisaged as improvement in land productivity.  It is the opposite of land degradation. Agricultural features such as terraces and canals are considered "landesque capital." Social, political, and cultural aspects of agriculture and development are not topics dealt with here.

This is not a "how to" course for tree-hugging, granola-eating acolytes of John Muir who wish to remold the world into some unrealistic utopia. It is not intended for students who, like Kinky Friedman, went to Borneo to teach agriculture to people who'd been farming successfully for 2000 years. This course is not about developing "sustainable agriculture," per se.  It does, however, deal with issues of concern in the field of sustainability science, and is intended for students who wish to gain a better understanding of the complexity of human-environment interactions, particularly as they pertain to people feeding themselves. 

GRG 341K • Landscps Of Mex & Carib Amer

37585 • Fall 2014
Meets MWF 1100am-1200pm CLA 0.128
(also listed as LAS 330 )
show description

The natural regions and cultural landscapes of Mexico, Central America, and the West Indies. Latin American Studies 322 and 330 may not both be counted unless the topics vary.

GRG 373F • Field Techniques

37670 • Fall 2014
Meets MWF 1200pm-100pm CLA 3.102
show description

Geographers sitting in their offices frequently find themselves lacking the right type of data to deal with a specific problem at hand. This is the case for practitioners holding a bachelor's degree and working in the private sector as well as for academicians holding doctoral degrees and teaching at comprehensive research universities. For example, a geographer employed by a firm designing a retirement community may be faced with a problem such as assessing a series of possible sites on which to build the swimming pool. Maps and aerial photographs may be available, but do they contain sufficiently detailed information about the soils, geology, slope, vegetation, hydrology, and cultural features such as historic structures, wells, fences or walls? And, how are these items or conditions spatially distributed in absolute terms and relative to each other? Or, consider a scholar investigating the expansion cacao cultivation in the rainforests of southern Brazil. How does she or he distinguish fields from forest? Cacao, after all, is a tree which grows in the shade of taller trees, and, accordingly, farmers do not clear-cut the forest before planting their crop. And, what about the composition(s) of the "natural" environment(s) and that (those) of the fields? What about the sizes and shapes of the fields, and socio-economic characteristics of the farmers? The only way to get these data are to go into "the field," and to use certain techniques.

This course introduces advanced geography students to a number of various techniques used in gathering field data. It does not deal with every technique nor does it go into great detail on any one.  It does, however, offer the basics of certain types of data collection, and, in so doing, it provides a foundation on which more advanced study--either formally through other classes, or informally through self-training--can be undertaken.

The course is divided into two parts, each dealing with different types of techniques, and each with different levels of supervision.  The first part of the course deals with mapping, the most fundamental of geographic activities. Students learn how to collect data with a clearly spatial dimensions. They begin by using some very simple instruments and progress to using the latest electronic surveying equipment. Emphasis is placed on mapping small areas largely because data at this scale are usually what geographers do not already possess, and, therefore, need. Also, working at this scale gives students a first-hand appreciation for, or at least a "taste" of, the processes involved in collecting data portrayed on existing maps of various scales. Instruction during this first half of the semester is very focused; students are closely supervised.

The second part of the course focuses on the collection of various types of environmental data that can be mapped. Emphasis here is placed on both "natural" data used most often, but not exclusively, by so-called "physical geographers," and "cultural" data commonly used by so-called "human geographers." Also, techniques for determining past as well as current conditions are covered in order for students to assess changing geographies. Instruction during the second half of the semester is less supervised than in the first half. Students are given a great deal of liberty to hone their skills at making professional judgements.

The focus of this course is on landscapes, especially those that are material and visible. Instruction includes some classroom lectures and several outdoor exercises. This course involves hands-on experience. Students can expect to be hot, cold, dirty, and wet, and exposed to some health risks. Research methods, project formulation, laboratory data analyses, and cartography are not be part of this course. This course deals exclusively with outdoor data collection techniques.

GRG 339K • Envir, Devel, & Food Productn

37818 • Spring 2014
Meets MWF 1100am-1200pm GDC 1.406
show description

see syllabus

GRG 373F • Field Techniques

37865 • Spring 2014
Meets MWF 1200pm-100pm CLA 3.102
show description

see syllabus

GRG 373F • Field Techniques

37925 • Fall 2013
Meets MWF 1200pm-100pm CLA 3.102
show description

Geographers sitting in their offices frequently find themselves lacking the right type of data to deal with a specific problem at hand. This is the case for practitioners holding a bachelor's degree and working in the private sector as well as for academicians holding doctoral degrees and teaching at comprehensive research universities. For example, a geographer employed by a firm designing a retirement community may be faced with a problem such as assessing a series of possible sites on which to build the swimming pool. Maps and aerial photographs may be available, but do they contain sufficiently detailed information about the soils, geology, slope, vegetation, hydrology, and cultural features such as historic structures, wells, fences or walls? And, how are these items or conditions spatially distributed in absolute terms and relative to each other? Or, consider a scholar investigating the expansion cacao cultivation in the rainforests of southern Brazil. How does she or he distinguish fields from forest? Cacao, after all, is a tree which grows in the shade of taller trees, and, accordingly, farmers do not clear-cut the forest before planting their crop. And, what about the composition(s) of the "natural" environment(s) and that (those) of the fields? What about the sizes and shapes of the fields, and socio-economic characteristics of the farmers? The only way to get these data are to go into "the field," and to use certain techniques.

This course introduces advanced geography students to a number of various techniques used in gathering field data. It does not deal with every technique nor does it go into great detail on any one.  It does, however, offer the basics of certain types of data collection, and, in so doing, it provides a foundation on which more advanced study--either formally through other classes, or informally through self-training--can be undertaken.

The course is divided into two parts, each dealing with different types of techniques, and each with different levels of supervision.  The first part of the course deals with mapping, the most fundamental of geographic activities. Students learn how to collect data with a clearly spatial dimensions. They begin by using some very simple instruments and progress to using the latest electronic surveying equipment. Emphasis is placed on mapping small areas largely because data at this scale are usually what geographers do not already possess, and, therefore, need. Also, working at this scale gives students a first-hand appreciation for, or at least a "taste" of, the processes involved in collecting data portrayed on existing maps of various scales. Instruction during this first half of the semester is very focused; students are closely supervised.

The second part of the course focuses on the collection of various types of environmental data that can be mapped. Emphasis here is placed on both "natural" data used most often, but not exclusively, by so-called "physical geographers," and "cultural" data commonly used by so-called "human geographers." Also, techniques for determining past as well as current conditions are covered in order for students to assess changing geographies. Instruction during the second half of the semester is less supervised than in the first half. Students are given a great deal of liberty to hone their skills at making professional judgements.

The focus of this course is on landscapes, especially those that are material and visible. Instruction includes some classroom lectures and several outdoor exercises. This course involves hands-on experience. Students can expect to be hot, cold, dirty, and wet, and exposed to some health risks. Research methods, project formulation, laboratory data analyses, and cartography are not be part of this course. This course deals exclusively with outdoor data collection techniques.

GRG 320K • Land And Life: Amer Southwest

37465 • Spring 2013
Meets MWF 1200pm-100pm CLA 1.104
(also listed as LAS 330 )
show description

This course is a historical geography of the southwestern United States and northern Mexico, the arid southwest quadrant of the North American continent. Focus is on two subtopics.

  1. The ways of life of the "Native Americans," "Spaniards," and "Anglos." Emphasis is placed on subsistence or economic activities of the respective people as they are influenced by the bio-physical environment, technology, demographics, and culture.
  2.    
  3. The effects or changes that successive peoples had on the environment and earlier residents (e.g., how the Spanish mission system affected native cultural ecologies and landscapes) are similarly elucidated.

This course is designed for students in history, anthropology, education, Latin American Studies, American Studies, and Mexican-American Studies, as well as geography. It is intended to provide an understanding of the processes that create geographically identifiable regions. 

GRG 339K • Envir, Devel, & Food Productn

37500 • Spring 2013
Meets MWF 1100am-1200pm ART 1.120
show description

This course focuses on "indigenously developed" and what used to be call "traditional" farming methods and techniques. Such practices are those not dependent on either fossil fuels, chemical fertilizers, or other external inputs, and hence have been called "Low extenal-input techonolgies" (LEIT). Based on "indigenous technical knowledge" (ITK), they are typically small in scale, involving for the most part the labor of individuals, families, and communities. Emphasis is placed on those systems most commonly used in various parts of the world today and in times past

Agriculture is treated here as the transformation of biophysical, sometimes referred to inappropriately as "natural," environments, into "cultural" environments. It is assessed in regard to both the plants cultivated (crops), and the soil, slope, moisture, and temperature conditions that exist and those that are either modified or created by farmers. The processes involved in the domestication of both crops and landscapes are discussed. Ecological and systematic approaches are taken in order to understand how different agricultural strategies insure continual long-term productivity and stability similar to that characteristic of environments that are not cultivated. Microeconomics is all-important.

The various "agro-ecosystems" are also discussed as economic activities that have highly visible spatial manifestations that result in distinctive "landscapes," and as activities that are dynamic, changing continuously. Development is treated conceptually as a specific type of change, not necessarily as a goal. It is envisaged as improvement in land productivity.  It is the opposite of land degradation. Agricultural features such as terraces and canals are considered "landesque capital." Social, political, and cultural aspects of agriculture and development are not topics dealt with here.

This is not a "how to" course for tree-hugging, granola-eating acolytes of John Muir who wish to remold the world into some unrealistic utopia. It is not intended for students who, like Kinky Friedman, went to Borneo to teach agriculture to people who'd been farming successfully for 2000 years. This course is not about developing "sustainable agriculture," per se.  It does, however, deal with issues of concern in the field of sustainability science, and is intended for students who wish to gain a better understanding of the complexity of human-environment interactions, particularly as they pertain to people feeding themselves. 

GRG 373F • Field Techniques

37475 • Fall 2012
Meets MWF 1200pm-100pm GRG 312
show description

Geographers sitting in their offices frequently find themselves lacking the right type of data to deal with a specific problem at hand. This is the case for practitioners holding a bachelor's degree and working in the private sector as well as for academicians holding doctoral degrees and teaching at comprehensive research universities. For example, a geographer employed by a firm designing a retirement community may be faced with a problem such as assessing a series of possible sites on which to build the swimming pool. Maps and aerial photographs may be available, but do they contain sufficiently detailed information about the soils, geology, slope, vegetation, hydrology, and cultural features such as historic structures, wells, fences or walls? And, how are these items or conditions spatially distributed in absolute terms and relative to each other? Or, consider a scholar investigating the expansion cacao cultivation in the rainforests of southern Brazil. How does she or he distinguish fields from forest? Cacao, after all, is a tree which grows in the shade of taller trees, and, accordingly, farmers do not clear-cut the forest before planting their crop. And, what about the composition(s) of the "natural" environment(s) and that (those) of the fields? What about the sizes and shapes of the fields, and socio-economic characteristics of the farmers? The only way to get these data are to go into "the field," and to use certain techniques.

This course introduces advanced geography students to a number of various techniques used in gathering field data. It does not deal with every technique nor does it go into great detail on any one.  It does, however, offer the basics of certain types of data collection, and, in so doing, it provides a foundation on which more advanced study--either formally through other classes, or informally through self-training--can be undertaken.

The course is divided into two parts, each dealing with different types of techniques, and each with different levels of supervision.  The first part of the course deals with mapping, the most fundamental of geographic activities. Students learn how to collect data with a clearly spatial dimensions. They begin by using some very simple instruments and progress to using the latest electronic surveying equipment. Emphasis is placed on mapping small areas largely because data at this scale are usually what geographers do not already possess, and, therefore, need. Also, working at this scale gives students a first-hand appreciation for, or at least a "taste" of, the processes involved in collecting data portrayed on existing maps of various scales. Instruction during this first half of the semester is very focused; students are closely supervised.

The second part of the course focuses on the collection of various types of environmental data that can be mapped. Emphasis here is placed on both "natural" data used most often, but not exclusively, by so-called "physical geographers," and "cultural" data commonly used by so-called "human geographers." Also, techniques for determining past as well as current conditions are covered in order for students to assess changing geographies. Instruction during the second half of the semester is less supervised than in the first half. Students are given a great deal of liberty to hone their skills at making professional judgements.

The focus of this course is on landscapes, especially those that are material and visible. Instruction includes some classroom lectures and several outdoor exercises. This course involves hands-on experience. Students can expect to be hot, cold, dirty, and wet, and exposed to some health risks. Research methods, project formulation, laboratory data analyses, and cartography are not be part of this course. This course deals exclusively with outdoor data collection techniques.

GRG 373F • Field Techniques

37425 • Spring 2012
Meets MWF 1200pm-100pm GRG 312
show description

Geographers sitting in their offices frequently find themselves lacking the right type of data to deal with a specific problem at hand. This is the case for practitioners holding a bachelor's degree and working in the private sector as well as for academicians holding doctoral degrees and teaching at comprehensive research universities. For example, a geographer employed by a firm designing a retirement community may be faced with a problem such as assessing a series of possible sites on which to build the swimming pool. Maps and aerial photographs may be available, but do they contain sufficiently detailed information about the soils, geology, slope, vegetation, hydrology, and cultural features such as historic structures, wells, fences or walls? And, how are these items or conditions spatially distributed in absolute terms and relative to each other? Or, consider a scholar investigating the expansion cacao cultivation in the rainforests of southern Brazil. How does she or he distinguish fields from forest? Cacao, after all, is a tree which grows in the shade of taller trees, and, accordingly, farmers do not clear-cut the forest before planting their crop. And, what about the composition(s) of the "natural" environment(s) and that (those) of the fields? What about the sizes and shapes of the fields, and socio-economic characteristics of the farmers? The only way to get these data are to go into "the field," and to use certain techniques.

This course introduces advanced geography students to a number of various techniques used in gathering field data. It does not deal with every technique nor does it go into great detail on any one.  It does, however, offer the basics of certain types of data collection, and, in so doing, it provides a foundation on which more advanced study--either formally through other classes, or informally through self-training--can be undertaken.

The course is divided into two parts, each dealing with different types of techniques, and each with different levels of supervision.  The first part of the course deals with mapping, the most fundamental of geographic activities. Students learn how to collect data with a clearly spatial dimensions. They begin by using some very simple instruments and progress to using the latest electronic surveying equipment. Emphasis is placed on mapping small areas largely because data at this scale are usually what geographers do not already possess, and, therefore, need. Also, working at this scale gives students a first-hand appreciation for, or at least a "taste" of, the processes involved in collecting data portrayed on existing maps of various scales. Instruction during this first half of the semester is very focused; students are closely supervised.

The second part of the course focuses on the collection of various types of environmental data that can be mapped. Emphasis here is placed on both "natural" data used most often, but not exclusively, by so-called "physical geographers," and "cultural" data commonly used by so-called "human geographers." Also, techniques for determining past as well as current conditions are covered in order for students to assess changing geographies. Instruction during the second half of the semester is less supervised than in the first half. Students are given a great deal of liberty to hone their skills at making professional judgements.

The focus of this course is on landscapes, especially those that are material and visible. Instruction includes some classroom lectures and several outdoor exercises. This course involves hands-on experience. Students can expect to be hot, cold, dirty, and wet, and exposed to some health risks. Research methods, project formulation, laboratory data analyses, and cartography are not be part of this course. This course deals exclusively with outdoor data collection techniques.

GRG 373F • Field Techniques

37440 • Fall 2011
Meets MWF 1200pm-100pm GRG 312
show description

Geographers sitting in their offices frequently find themselves lacking the right type of data to deal with a specific problem at hand. This is the case for practitioners holding a bachelor's degree and working in the private sector as well as for academicians holding doctoral degrees and teaching at comprehensive research universities. For example, a geographer employed by a firm designing a retirement community may be faced with a problem such as assessing a series of possible sites on which to build the swimming pool. Maps and aerial photographs may be available, but do they contain sufficiently detailed information about the soils, geology, slope, vegetation, hydrology, and cultural features such as historic structures, wells, fences or walls? And, how are these items or conditions spatially distributed in absolute terms and relative to each other? Or, consider a scholar investigating the expansion cacao cultivation in the rainforests of southern Brazil. How does she or he distinguish fields from forest? Cacao, after all, is a tree which grows in the shade of taller trees, and, accordingly, farmers do not clear-cut the forest before planting their crop. And, what about the composition(s) of the "natural" environment(s) and that (those) of the fields? What about the sizes and shapes of the fields, and socio-economic characteristics of the farmers? The only way to get these data are to go into "the field," and to use certain techniques.

This course introduces advanced geography students to a number of various techniques used in gathering field data. It does not deal with every technique nor does it go into great detail on any one.  It does, however, offer the basics of certain types of data collection, and, in so doing, it provides a foundation on which more advanced study--either formally through other classes, or informally through self-training--can be undertaken.

The course is divided into two parts, each dealing with different types of techniques, and each with different levels of supervision.  The first part of the course deals with mapping, the most fundamental of geographic activities. Students learn how to collect data with a clearly spatial dimensions. They begin by using some very simple instruments and progress to using the latest electronic surveying equipment. Emphasis is placed on mapping small areas largely because data at this scale are usually what geographers do not already possess, and, therefore, need. Also, working at this scale gives students a first-hand appreciation for, or at least a "taste" of, the processes involved in collecting data portrayed on existing maps of various scales. Instruction during this first half of the semester is very focused; students are closely supervised.

The second part of the course focuses on the collection of various types of environmental data that can be mapped. Emphasis here is placed on both "natural" data used most often, but not exclusively, by so-called "physical geographers," and "cultural" data commonly used by so-called "human geographers." Also, techniques for determining past as well as current conditions are covered in order for students to assess changing geographies. Instruction during the second half of the semester is less supervised than in the first half. Students are given a great deal of liberty to hone their skills at making professional judgements.

The focus of this course is on landscapes, especially those that are material and visible. Instruction includes some classroom lectures and several outdoor exercises. This course involves hands-on experience. Students can expect to be hot, cold, dirty, and wet, and exposed to some health risks. Research methods, project formulation, laboratory data analyses, and cartography are not be part of this course. This course deals exclusively with outdoor data collection techniques.

GRG 320K • Land And Life: Amer Southwest

37555 • Spring 2011
Meets MWF 1200pm-100pm GRG 316
show description

This course is a historical geography of the southwestern United States and northern Mexico, the arid southwest quadrant of the North American continent. Focus is on two subtopics.

  1. The ways of life of the "Native Americans," "Spaniards," and "Anglos." Emphasis is placed on subsistence or economic activities of the respective people as they are influenced by the bio-physical environment, technology, demographics, and culture.
  2.    
  3. The effects or changes that successive peoples had on the environment and earlier residents (e.g., how the Spanish mission system affected native cultural ecologies and landscapes) are similarly elucidated.

This course is designed for students in history, anthropology, education, Latin American Studies, American Studies, and Mexican-American Studies, as well as geography. It is intended to provide an understanding of the processes that create geographically identifiable regions. 

GRG 339K • Envir, Devel, & Food Productn

37585 • Spring 2011
Meets MWF 1100am-1200pm GRG 312
show description

This course focuses on "indigenously developed" and what used to be call "traditional" farming methods and techniques. Such practices are those not dependent on either fossil fuels, chemical fertilizers, or other external inputs, and hence have been called "Low extenal-input techonolgies" (LEIT). Based on "indigenous technical knowledge" (ITK), they are typically small in scale, involving for the most part the labor of individuals, families, and communities. Emphasis is placed on those systems most commonly used in various parts of the world today and in times past

Agriculture is treated here as the transformation of biophysical, sometimes referred to inappropriately as "natural," environments, into "cultural" environments. It is assessed in regard to both the plants cultivated (crops), and the soil, slope, moisture, and temperature conditions that exist and those that are either modified or created by farmers. The processes involved in the domestication of both crops and landscapes are discussed. Ecological and systematic approaches are taken in order to understand how different agricultural strategies insure continual long-term productivity and stability similar to that characteristic of environments that are not cultivated. Microeconomics is all-important.

The various "agro-ecosystems" are also discussed as economic activities that have highly visible spatial manifestations that result in distinctive "landscapes," and as activities that are dynamic, changing continuously. Development is treated conceptually as a specific type of change, not necessarily as a goal. It is envisaged as improvement in land productivity.  It is the opposite of land degradation. Agricultural features such as terraces and canals are considered "landesque capital." Social, political, and cultural aspects of agriculture and development are not topics dealt with here.

This is not a "how to" course for tree-hugging, granola-eating acolytes of John Muir who wish to remold the world into some unrealistic utopia. This course is not about developing "sustainable agriculture," per se.  It does, however, deal with issues of concern in the field of sustainability science.  This course is intended for students who wish to gain a better understanding of the complexity of human-environment interactions, particularly as they pertain to people feeding themselves. 

GRG 341K • Landscps Of Mex & Carib Amer

37170 • Fall 2010
Meets MWF 1100am-1200pm BUR 224
(also listed as LAS 330 )
show description

The natural regions and cultural landscapes of Mexico, Central America, and the West Indies.

GRG 373F • Field Techniques

37245 • Fall 2010
Meets MWF 1200pm-100pm GRG 312
show description

Course Webpage - http://uts.cc.utexas.edu/~wd/courses/373F/ftech.html

Geographers sitting in their offices frequently find themselves lacking the right type of data to deal with a specific problem at hand. This is the case for practitioners holding a bachelor's degree and working in the private sector as well as for academicians holding doctoral degrees and teaching at comprehensive research universities. For example, a geographer employed by a firm designing a retirement community may be faced with a problem such as assessing a series of possible sites on which to build the swimming pool. Maps and aerial photographs may be available, but do they contain sufficiently detailed information about the soils, geology, slope, vegetation, hydrology, and cultural features such as historic structures, wells, fences or walls? And, how are these items or conditions spatially distributed in absolute terms and relative to each other? Or, consider a scholar investigating the expansion cacao cultivation in the rainforests of southern Brazil. How does she or he distinguish fields from forest? Cacao, after all, is a tree which grows in the shade of taller trees, and, accordingly, farmers do not clear-cut the forest before planting their crop. And, what about the composition(s) of the "natural" environment(s) and that (those) of the fields? What about the sizes and shapes of the fields, and socio-economic characteristics of the farmers? The only way to get these data are to go into "the field," and to use certain techniques.

This course introduces advanced geography students to a number of various techniques used in gathering field data. It does not deal with every technique nor does it go into great detail on any one.  It does, however, offer the basics of certain types of data collection, and, in so doing, it provides a foundation on which more advanced study--either formally through other classes, or informally through self-training--can be undertaken.

The course is divided into two parts, each dealing with different types of techniques, and each with different levels of supervision.  The first part of the course deals with mapping, the most fundamental of geographic activities. Students learn how to collect data with a clearly spatial dimensions. They begin by using some very simple instruments and progress to using the latest electronic surveying equipment. Emphasis is placed on mapping small areas largely because data at this scale are usually what geographers do not already possess, and, therefore, need. Also, working at this scale gives students a first-hand appreciation for, or at least a "taste" of, the processes involved in collecting data portrayed on existing maps of various scales. Instruction during this first half of the semester is very focused; students are closely supervised.

The second part of the course focuses on the collection of various types of environmental data that can be mapped. Emphasis here is placed on both "natural" data used most often, but not exclusively, by so-called "physical geographers," and "cultural" data commonly used by so-called "human geographers." Also, techniques for determining past as well as current conditions are covered in order for students to assess changing geographies. Instruction during the second half of the semester is less supervised than in the first half. Students are given a great deal of liberty to hone their skills at making professional judgements.

The focus of this course is on landscapes, especially those that are material and visible. Instruction includes some classroom lectures and several outdoor exercises. This course involves hands-on experience. Students can expect to be hot, cold, dirty, and wet, and exposed to some health risks. Research methods, project formulation, laboratory data analyses, and cartography are not be part of this course. This course deals exclusively with outdoor data collection techniques.

GRG 373F • Field Techniques

37460 • Spring 2010
Meets MWF 1200-100pm GRG 312
show description

Geographers sitting in their offices frequently find themselves lacking the right type of data to deal with a specific problem at hand. This is the case for practitioners holding a bachelor's degree and working in the private sector as well as for academicians holding doctoral degrees and teaching at comprehensive research universities. For example, a geographer employed by a firm designing a retirement community may be faced with a problem such as assessing a series of possible sites on which to build the swimming pool. Maps and aerial photographs may be available, but do they contain sufficiently detailed information about the soils, geology, slope, vegetation, hydrology, and cultural features such as historic structures, wells, fences or walls? And, how are these items or conditions spatially distributed in absolute terms and relative to each other? Or, consider a scholar investigating the expansion cacao cultivation in the rainforests of southern Brazil. How does she or he distinguish fields from forest? Cacao, after all, is a tree which grows in the shade of taller trees, and, accordingly, farmers do not clear-cut the forest before planting their crop. And, what about the composition(s) of the "natural" environment(s) and that (those) of the fields? What about the sizes and shapes of the fields, and socio-economic characteristics of the farmers? The only way to get these data are to go into "the field," and to use certain techniques.

This course introduces advanced geography students to a number of various techniques used in gathering field data. It does not deal with every technique nor does it go into great detail on any one.  It does, however, offer the basics of certain types of data collection, and, in so doing, it provides a foundation on which more advanced study--either formally through other classes, or informally through self-training--can be undertaken.

The course is divided into two parts, each dealing with different types of techniques, and each with different levels of supervision.  The first part of the course deals with mapping, the most fundamental of geographic activities. Students learn how to collect data with a clearly spatial dimensions. They begin by using some very simple instruments and progress to using the latest electronic surveying equipment. Emphasis is placed on mapping small areas largely because data at this scale are usually what geographers do not already possess, and, therefore, need. Also, working at this scale gives students a first-hand appreciation for, or at least a "taste" of, the processes involved in collecting data portrayed on existing maps of various scales. Instruction during this first half of the semester is very focused; students are closely supervised.

The second part of the course focuses on the collection of various types of environmental data that can be mapped. Emphasis here is placed on both "natural" data used most often, but not exclusively, by so-called "physical geographers," and "cultural" data commonly used by so-called "human geographers." Also, techniques for determining past as well as current conditions are covered in order for students to assess changing geographies. Instruction during the second half of the semester is less supervised than in the first half. Students are given a great deal of liberty to hone their skills at making professional judgements.

The focus of this course is on landscapes, especially those that are material and visible. Instruction includes some classroom lectures and several outdoor exercises. This course involves hands-on experience. Students can expect to be hot, cold, dirty, and wet, and exposed to some health risks. Research methods, project formulation, laboratory data analyses, and cartography are not be part of this course. This course deals exclusively with outdoor data collection techniques.

GRG 373F • Field Techniques

37825 • Fall 2009
Meets MWF 1200-100pm GRG 316
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Geographers sitting in their offices frequently find themselves lacking the right type of data to deal with a specific problem at hand. This is the case for practitioners holding a bachelor's degree and working in the private sector as well as for academicians holding doctoral degrees and teaching at comprehensive research universities. For example, a geographer employed by a firm designing a retirement community may be faced with a problem such as assessing a series of possible sites on which to build the swimming pool. Maps and aerial photographs may be available, but do they contain sufficiently detailed information about the soils, geology, slope, vegetation, hydrology, and cultural features such as historic structures, wells, fences or walls? And, how are these items or conditions spatially distributed in absolute terms and relative to each other? Or, consider a scholar investigating the expansion cacao cultivation in the rainforests of southern Brazil. How does she or he distinguish fields from forest? Cacao, after all, is a tree which grows in the shade of taller trees, and, accordingly, farmers do not clear-cut the forest before planting their crop. And, what about the composition(s) of the "natural" environment(s) and that (those) of the fields? What about the sizes and shapes of the fields, and socio-economic characteristics of the farmers? The only way to get these data are to go into "the field," and to use certain techniques.

This course introduces advanced geography students to a number of various techniques used in gathering field data. It does not deal with every technique nor does it go into great detail on any one.  It does, however, offer the basics of certain types of data collection, and, in so doing, it provides a foundation on which more advanced study--either formally through other classes, or informally through self-training--can be undertaken.

The course is divided into two parts, each dealing with different types of techniques, and each with different levels of supervision.  The first part of the course deals with mapping, the most fundamental of geographic activities. Students learn how to collect data with a clearly spatial dimensions. They begin by using some very simple instruments and progress to using the latest electronic surveying equipment. Emphasis is placed on mapping small areas largely because data at this scale are usually what geographers do not already possess, and, therefore, need. Also, working at this scale gives students a first-hand appreciation for, or at least a "taste" of, the processes involved in collecting data portrayed on existing maps of various scales. Instruction during this first half of the semester is very focused; students are closely supervised.

The second part of the course focuses on the collection of various types of environmental data that can be mapped. Emphasis here is placed on both "natural" data used most often, but not exclusively, by so-called "physical geographers," and "cultural" data commonly used by so-called "human geographers." Also, techniques for determining past as well as current conditions are covered in order for students to assess changing geographies. Instruction during the second half of the semester is less supervised than in the first half. Students are given a great deal of liberty to hone their skills at making professional judgements.

The focus of this course is on landscapes, especially those that are material and visible. Instruction includes some classroom lectures and several outdoor exercises. This course involves hands-on experience. Students can expect to be hot, cold, dirty, and wet, and exposed to some health risks. Research methods, project formulation, laboratory data analyses, and cartography are not be part of this course. This course deals exclusively with outdoor data collection techniques.

GRG 320K • Land And Life: Amer Southwest

36745 • Spring 2009
Meets MWF 100pm-200pm GRG 312
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This course is a historical geography of the southwestern United States and northern Mexico, the arid southwest quadrant of the North American continent. Focus is on two subtopics.

  1. The ways of life of the "Native Americans," "Spaniards," and "Anglos." Emphasis is placed on subsistence or economic activities of the respective people as they are influenced by the bio-physical environment, technology, demographics, and culture.
  2.    
  3. The effects or changes that successive peoples had on the environment and earlier residents (e.g., how the Spanish mission system affected native cultural ecologies and landscapes) are similarly elucidated.

This course is designed for students in history, anthropology, education, Latin American Studies, American Studies, and Mexican-American Studies, as well as geography. It is intended to provide an understanding of the processes that create geographically identifiable regions. 

GRG 339K • Envir, Devel, & Food Productn

36770 • Spring 2009
Meets MWF 1100-1200 GRG 102
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This course focuses on "indigenously developed" and what used to be call "traditional" farming methods and techniques. Such practices are those not dependent on either fossil fuels, chemical fertilizers, or other external inputs, and hence have been called "Low extenal-input techonolgies" (LEIT). Based on "indigenous technical knowledge" (ITK), they are typically small in scale, involving for the most part the labor of individuals, families, and communities. Emphasis is placed on those systems most commonly used in various parts of the world today and in times past

Agriculture is treated here as the transformation of biophysical, sometimes referred to inappropriately as "natural," environments, into "cultural" environments. It is assessed in regard to both the plants cultivated (crops), and the soil, slope, moisture, and temperature conditions that exist and those that are either modified or created by farmers. The processes involved in the domestication of both crops and landscapes are discussed. Ecological and systematic approaches are taken in order to understand how different agricultural strategies insure continual long-term productivity and stability similar to that characteristic of environments that are not cultivated. Microeconomics is all-important.

The various "agro-ecosystems" are also discussed as economic activities that have highly visible spatial manifestations that result in distinctive "landscapes," and as activities that are dynamic, changing continuously. Development is treated conceptually as a specific type of change, not necessarily as a goal. It is envisaged as improvement in land productivity.  It is the opposite of land degradation. Agricultural features such as terraces and canals are considered "landesque capital." Social, political, and cultural aspects of agriculture and development are not topics dealt with here.

This is not a "how to" course for tree-hugging, granola-eating acolytes of John Muir who wish to remold the world into some unrealistic utopia. It is not intended for students who, like Kinky Friedman, went to Borneo to teach agriculture to people who'd been farming successfully for 2000 years. This course is not about developing "sustainable agriculture," per se.  It does, however, deal with issues of concern in the field of sustainability science, and is intended for students who wish to gain a better understanding of the complexity of human-environment interactions, particularly as they pertain to people feeding themselves. 

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