A Historical Perspective on Agriculture

A Historical Perspective on Agriculture

A HISTORICAL PERSPECTIVE ON AGRICULTURE David R. Johnson Assistant Professor of Industrial Engineering and Political Science Purdue University June 7, 2019 Outline • Historic development goals and agriculture • Cost of agricultural expansion - Cropland expansion - Intensification - Water use in agriculture • What drives agriculture? - Historical validation with SIMPLE United Nations Development Goals 1960-1970 - 1st Development Decade Economic/Human Development 1971-1980 - 2nd Development Decade Environmental Sustainability 1981-1990 - 3rd Development Decade 1991-1999 - Human Development Reports 2000-2015 - Millennium Development Goals 2016-2030 - Sustainable Development Goals Agriculture Is at the Heart of the UN’s Economic Development Goals • Majority of the world’s rural poor rely on farming for income and livelihood • Primary source of economic growth from most of the world’s countries • Precursor for industrialization • But because it is closely tied to the environment, agriculture can create both good and bad environmental outcomes 2011 2006 2001 1996 1991 1986 1981 1976 1971 1966 1961 Rest of World of Rest 1956 1951 1946 1941 1936 Year 1931 1926 1921 1916 U.S. 1911 1906 1901 Historical Corn Production 1896 1891 1886 1881 1876 1871 0 1 2 3 4 5 6 Index (1=1961) Index After the 1960s the After Agricultural Production Grew Sharply Sharply Grew Production Agricultural Agricultural Production Grew Sharply After the 1960s Growth in Agriculture Has Reduced Rural Poverty Growth in Agriculture Has Improved Food Security However, the Sources of That Growth Have Shifted over Time Greater Quantities of Marginal Land Have Been Converted to Crops Cropland cover expansion: 1700-1900 Source: Navin Ramankutty, McGill University Greater Quantities of Marginal Land Have Been Converted to Crops Cropland cover expansion: 1900-1950 Source: Navin Ramankutty, McGill University Greater Quantities of Marginal Land Have Been Converted to Crops Cropland cover expansion: 1950-2000 Source: Navin Ramankutty, McGill University Greater Quantities of Marginal Land Have Been Converted to Crops Cropland cover expansion: 2000 Source: Ramankutty et al (2008), Global Biophysical Cycles The Cost of Growth: Agricultural Land Use Expansion • Lepers et al (2005) surveys “hotspots” of change over the period 1980-2000: - Changes in cropland cover are small in aggregate, but considerable changes in composition - Deforestation - Soil degradation • While deforestation is not new, the current pace is unprecedented and unsustainable The Cost of Growth: Deforestation Hotspots in the Tropics Forest cover change, 1980-2000 Source: Lepers et al (2005) The Cost of Growth: Groundwater Depletion for Irrigation Irrigated land expansion and water use The Cost of Growth: Groundwater Depletion for Irrigation Irrigated land expansion and water use Nonrenewable groundwater abstraction for irrigation, 2000 (million m3/yr) Source: Wada, et al (2012). The Cost of Growth: Hypoxia from Nitrogen-Use Inefficiency Change in nitrogen application rate, 1960-2010 The Cost of Growth: Hypoxia from Nitrogen-Use Inefficiency Nitrogen Use Efficiency by Country over Time, 1960-2010 So, Can We Improve Agriculture Policies and Practices to Reduce THese Costs? As one step toward doing so, we need to understand what drives long-run changes in the agricultural system Outline • Historic development goals and agriculture • Cost of agricultural expansion - Cropland expansion - Intensification - Water use in agriculture • What drives agriculture? - Historical validation with SIMPLE SIMPLE provides a tool to understand long-run agricultural patterns Intensive Margin of Supply of Supply Extensive Margin SIMPLE Has Been Validated Against Global Historic Observations Drivers of world agriculture: 1961-2006 Source: Hertel and Baldos (2015), Attaining food and environmental security in an era of globalization. GEC. Historical data from FAOSTAT (2014) and World Bank GEM Database (2014) SIMPLE Has Been Validated Against Global Historic Observations Global Outcomes Crop Output1 250 200% +7.0 B MT 200 2006 - 150 100 50 0 Total Subtotals % totalchange: 1961 Actual Data Model Output Crop Land2 45 2006 30 - 16% +164 M ha 15 0 -15 -30 % total% change: 1961 Total Subtotals Actual Data Model Output 1Price-weighted output of 135 crops, relative to world corn price 2Arable land and permanent cropland SIMPLE Has Been Validated Against Global Historic Observations Global Outcomes Crop Output 250 200% 200 190% 2006 - 150 100 50 0 Total Subtotals % totalchange: 1961 Actual Data Model Output Crop Land 45 2006 30 - 16% 18% 15 0 -15 -30 % total% change: 1961 Total Subtotals Actual Data Model Output 1Price-weighted output of 135 crops, relative to world corn price 200250 Crop Production 150… % Farm Productivity Population Income 2 cu 100 ativ e Arable land and permanent cropland mul 500 Total Subtotals Historical drivers of global crop output have varied greatly across regions Crop Production Farm Productivity Income Population Total Change 400 350 2006 - 300 250 1961 200 150 100 50 % change, 0 -50 EU S_Afr N_Afr RoAfr S_Asia C_Asia E_Euro M_East S_Amer JPN_KR AUS_NZ SE_Asia CAN_US CC_Amer CHN_MNG • In sub-Saharan Africa, population growth accounted for nearly all output expansion, but in China, this accounted for less than half of the total. • How would history have differed if the agricultural economy had been globalized? • Alternatively, how would history have differed without free trade such as NAFTA? Conclusions • Agriculture is tied to both economic development and environmental issues - Agriculture has helped reduce poverty and improve food security, but at the expense of the environment - We are exceeding planetary boundaries in some regions • Thus, compared to previous UN goals, the SDGs for 2030 emphasize both environmental and economic outcomes Conclusions • Historically, agricultural production has been driven by three main forces - Population – more mouths to feed - Income – more diverse food demands - Agricultural productivity – producing more out of available inputs • Future trends in these global forces will likely reshape agriculture - Regional/subnational constraints will also shape agriculture, especially if these are addressed BIG IDEA CHALLENGE THANK YOU!.

View Full Text

Details

  • File Type
    pdf
  • Upload Time
    -
  • Content Languages
    English
  • Upload User
    Anonymous/Not logged-in
  • File Pages
    29 Page
  • File Size
    -

Download

Channel Download Status
Express Download Enable

Copyright

We respect the copyrights and intellectual property rights of all users. All uploaded documents are either original works of the uploader or authorized works of the rightful owners.

  • Not to be reproduced or distributed without explicit permission.
  • Not used for commercial purposes outside of approved use cases.
  • Not used to infringe on the rights of the original creators.
  • If you believe any content infringes your copyright, please contact us immediately.

Support

For help with questions, suggestions, or problems, please contact us