Energy and greenhouse gas analysis of northeast US dairy cropping systems

被引:14
作者
Malcolm, G. M. [1 ]
Camargo, G. G. T. [2 ]
Ishler, V. A. [3 ]
Richard, T. L. [2 ]
Karsten, H. D. [1 ]
机构
[1] Penn State Univ, Dept Plant Sci, University Pk, PA 16802 USA
[2] Penn State Univ, Dept Agr & Biol Engn, University Pk, PA 16802 USA
[3] Penn State Univ, Dept Anim Sci, University Pk, PA 16802 USA
关键词
Fossil energy input; Greenhouse gas emissions; Dairy farm; Manure injection; Imported feed; Cropping system; Nitrous oxide (N2O) emissions; Integrated crop-livestock operation; Cover crop; Integrated pest management; LIFE-CYCLE ASSESSMENT; NITROUS-OXIDE EMISSION; CARBON SEQUESTRATION; AGRICULTURE; EFFICIENCY; MANURE; CORN; MANAGEMENT; CANOLA; SIZE;
D O I
10.1016/j.agee.2014.10.007
中图分类号
S [农业科学];
学科分类号
09 ;
摘要
Dairy farms in the northeast typically produce their own forage, import grain crops, and rely heavily on other inputs. Feed production inputs include fertilizers, herbicides, pesticides, and fuel that require fossil energy and produce greenhouse gas (GHG) emissions during their manufacture and transport. This study uses the Farm Energy Analysis Tool (FEAT) to compare and contrast the fossil energy consumption, energy efficiency, and GHG emissions for three different Pennsylvania dairy cropping systems that vary in their reliance on imported grains and fuel, and thus, land area to produce the same quantity of milk. One novel cropping system, implemented at Penn State University, includes a diverse rotation designed to produce forage, grain, and fuel on-farm (NSVO). The 'NSVO' cropping system employs a number of best management practices, including manure injection, cover crops, and integrated pest management. The two modeled-systems require fewer hectares than 'NSVO' because they do not produce fuel on-farm but produce forage only (FOR), or forage and grain (FORGr), while producing the same amount of milk. Relative to the 'FOR' system, even while requiring larger land areas locally, we found that the 'NSVO' and FORGr' systems lowered total fossil energy inputs per Mg of milk produced by 18% and 15% respectively, largely by importing 77% and 71% less feed crops that would have been grown elsewhere. GHG emissions were similar among farms, on the order of 229 kg CO(2)e Mg-milk(-1). On-farm fuel production in the 'NSVO' system lowered fossil energy inputs but required more land area and may not provide economic savings with current diesel fuel prices. To reduce the fossil energy impact of their operations, dairy farmers in the Northeast should consider growing more livestock grain on-farm. (C) 2014 Elsevier B.V. All rights reserved.
引用
收藏
页码:407 / 417
页数:11
相关论文
共 62 条
[1]   Life-cycle assessment of net greenhouse-gas flux for bioenergy cropping systems [J].
Adler, Paul R. ;
Del Grosso, Stephen J. ;
Parton, William J. .
ECOLOGICAL APPLICATIONS, 2007, 17 (03) :675-691
[2]   EUE (energy use efficiency) of cropping systems for a sustainable agriculture [J].
Alluvione, Francesco ;
Moretti, Barbara ;
Sacco, Dario ;
Grignani, Carlo .
ENERGY, 2011, 36 (07) :4468-4481
[3]   Comparison of the Efficiency and Use of Energy in Organic and Conventional Farming in Spanish Agricultural Systems [J].
Alonso, Antonio M. ;
Guzman, Gloria J. .
JOURNAL OF SUSTAINABLE AGRICULTURE, 2010, 34 (03) :312-338
[4]  
[Anonymous], 2006, IPCC GUIDELINES NATL
[5]  
[Anonymous], TILL PRACT REL PA
[6]  
[Anonymous], MILK COWS PROD STAT
[7]  
[Anonymous], THESIS PENNSYLVANIA
[8]  
[Anonymous], 23 USDA ERS
[9]  
[Anonymous], CROP PROD SUMM 2008
[10]  
[Anonymous], EC INFORM B