ALB Hessen (2008) Richtpreise für den Neu- und Umbau landwirtschaftlicher Wirtschaftsgebäude und ländlicher Wohnhäuser: Ausgabe 2009/2010
Amon B, Winiwarter W, Anderl M, Baumgarten A, Dersch G, Guggenberger T, Hasenauer H, Kantelhardt J, Kasper M, Kitzler B, Moser T, Pötzelsberger E, Prosenbauer M, Schaller L, Schröck A, Sigmund E, Zechtmeister-Boltenstern E, Zethner G (2014) Farming for a better climate (FarmClim). Design of an inter- and transdisciplinary research project aiming to address the “science-policy gap”. GAIA 23(2):118–124. doi:10.14512/gaia.23.2.9 Google Scholar
AWI (2015) IDB Deckungsbeiträge und Kalkulationsdaten, Vienna
Benke KK, Hamilton AJ, Lowell KE (2007) Uncertainty analysis and risk assessment in the management of environmental resources. Australas J Environ Manag 14(4):243–249. doi:10.1080/14486563.2007.10648722 Article Google Scholar
Bittman S, Dedina M, Howard C, Oenema O, Sutton MA (2014) Options for ammonia mitigation: guidance from the UNECE task force on reactive nitrogen, Edinburgh, UK
Dalgaard T, Hansen B, Hasler B, Hertel O, Hutchings NJ, Jacobsen BH, Stoumann Jensen L, Kronvang B, Olesen JE, Schjørring JK, Sillebak Kristensen I, Graversgaard M, Termansen M, Vejre H (2014) Policies for agricultural nitrogen management-trends, challenges and prospects for improved efficiency in Denmark. Environ Res Lett 9(11):115002. doi:10.1088/1748-9326/9/11/115002 Article Google Scholar
Dämmgen U, Brade W, Schulz J, Kleine Klausing H, Hutchings NJ, Haenel H, Rösemann C (2011) The effect of feed composition and feeding strategies on excretion rates in German pig production. Landbauforsch vTI Agric For Res 61(4):327–342 Google Scholar
De Cara S, Jayet P-A (2011) Marginal abatement costs of greenhouse gas emissions from European agriculture, cost effectiveness, and the EU non-ETS burden sharing agreement. Ecol Econ 70(9):1680–1690. doi:10.1016/j.ecolecon.2011.05.007 Article Google Scholar
Döhler H, Eurich-Menden B, Rößler R, Vandré R, Wulf S (2011) Systematic cost-benefit analysis of mitigation measures for agricultural ammonia emissions, supporting national costing analysis, Dessau-Roßlau
Dourmad J, Jondreville C (2007) Impact of nutrition on nitrogen, phosphorus, Cu and Zn in pig manure, and on emissions of ammonia and odours. Livest Sci 112(3):192–198. doi:10.1016/j.livsci.2007.09.002 Article Google Scholar
Eory V, Topp CF, Moran D (2013) Multiple-pollutant cost-effectiveness of greenhouse gas mitigation measures in the UK agriculture. Environ Sci Policy 27:55–67. doi:10.1016/j.envsci.2012.11.003 Article Google Scholar
Erisman JW, Galloway JN, Seitzinger S, Bleeker A, Dise NB, Petrescu R, Leach AM, de Vries W (2013) Consequences of human modification of the global nitrogen cycle. Philos Trans R Soc B Biol Sci 368:20130116 Article Google Scholar
Ertl P, Knaus W, Steinwidder A (2014) Comparison of zero concentrate supplementation with different quantities of concentrates in terms of production, animal health, and profitability of organic dairy farms in Austria. Org Agric 4(3):233–242. doi:10.1007/s13165-014-0077-z Google Scholar
European Environment Agency (EEA) (2013) EMEP/EEA air pollutant emission inventory guidebook 2013. Technical guidance to prepare national emission inventories, Luxembourg Google Scholar
Evans JR, Sperow M, D’Souza GE, Rayburn EB (2007) Stochastic simulation of pasture-raised beef production systems and implications for the appalachian cow-calf sector. J Sustain Agric 30(4):27–51. doi:10.1300/J064v30n04_04 Article Google Scholar
Feola G, Binder CR (2010) Towards an improved understanding of farmers’ behaviour: the integrative agent-centred (IAC) framework. Ecol Econ 69(12):2323–2333. doi:10.1016/j.ecolecon.2010.07.023 Article Google Scholar
Finneran E, Crosson P, O’Kiely P, Shalloo L, Forristal D, Wallace M (2012) Stochastic simulation of the cost of home-produced feeds for ruminant livestock systems. J Agric Sci 150(01):123–139. doi:10.1017/S002185961100061X Article Google Scholar
Fowler D, Coyle M, Skiba U, Sutton MA, Cape JN, Reis S, Sheppard LJ, Jenkins A, Grizzetti B, Galloway JN, Vitousek P, Leach A, Bouwman AF, Butterbach-Bahl K, Dentener F, Stevenson D, Amann M, Voss M (2013) The global nitrogen cycle in the twenty-first century. Philos Trans R Soc B Biol Sci 368(1621):20130164. doi:10.1098/rstb.2013.0164 Article Google Scholar
Galloway JN, Dentener FJ, Capone DG, Boyer EW, Howarth RW, Seitzinger SP, Asner GP, Cleveland CC, Green PA, Holland EA, Karl DM, Michaels AF, Porter JH, Townsend AR, Vörösmarty CJ (2004) Nitrogen cycles: past, present, and future. Biogeochemistry 70(2):153–226. doi:10.1007/s10533-004-0370-0 ArticleCAS Google Scholar
Galloway JN, Townsend AR, Erisman JW, Bekunda M, Cai Z, Freney JR, Martinelli LA, Seitzinger SP, Sutton MA (2008) Transformation of the nitrogen cycle: recent trends, questions, and potential solutions. Science 320(5878):889–892. doi:10.1126/science.1136674 ArticleCASPubMed Google Scholar
Glenk K, Eory V, Colombo S, Barnes A (2014) Adoption of greenhouse gas mitigation in agriculture: an analysis of dairy farmers’ perceptions and adoption behaviour. Ecol Econ 108:49–58. doi:10.1016/j.ecolecon.2014.09.027 Article Google Scholar
Gruber L, Pötsch EM (2006) Calculation of nitrogen excretion of dairy cows in Austria. Die Bodenkult 57(2):65–72 CAS Google Scholar
Gruber L, Steinwidder A, Stefanon B, Steiner B, Steinwender R (1999) Influence of grassland management in Alpine regions and concentrate level on N excretion and milk yield of dairy cows. Livest Prod Sci 61(2–3):155–170. doi:10.1016/S0301-6226(99)00065-2 Article Google Scholar
Hörtenhuber S, Lindenthal T, Amon B, Markut T, Kirner L, Zollitsch W (2010) Greenhouse gas emissions from selected Austrian dairy production systems-model calculations considering the effects of land use change. Renew Agric Food Syst 25(04):316–329 Article Google Scholar
Hörtenhuber SJ, Lindenthal T, Zollitsch W (2011) Reduction of greenhouse gas emissions from feed supply chains by utilizing regionally produced protein sources: the case of Austrian dairy production. J Sci Food Agric 91(6):1118–1127. doi:10.1002/jsfa.4293 ArticlePubMed Google Scholar
IPCC (2006a) IPCC guidelines for national greenhouse gas inventories: volume 4, chapter 10—emissions from livestock and manure management
IPCC (2006b) IPCC guidelines for national greenhouse gas inventories: volume 1, chapter 3—uncertainties
Jongebreur AA, Monteny GJ, Ogink N (2005) Livestock production and emissions of volatile gases. In: Kuczynski T, Dämmgen U, Webb J, Myczko A (eds) Emissions from European agriculture. Wageningen Academic Publishers, Wageningen, pp 19–34 Google Scholar
Klimont Z, Brink C (2004) Modelling of emissions of air pollutants and greenhouse gases from agricultural sources in Europe: Interim report IR-04-048, Laxenburg
Kornegay ET, Harper AF (1997) Environmental nutrition: nutrient management strategies to reduce nutrient excretion of swine. Prof Anim Sci 13(3):99–111 Google Scholar
Landesbetrieb Landwirtschaft Hessen (2012) Futterberehnungsprogramm für Schweine in Anlehnung an die GfE- und DLG-Versorgungsempfehlungen von 2006, 2008 und 2010
Lovett DK, Shalloo L, Dillon P, O’Mara FP (2008) Greenhouse gas emissions from pastoral based dairying systems: the effect of uncertainty and management change under two contrasting production systems. Livest Sci 116(1–3):260–274. doi:10.1016/j.livsci.2007.10.016 Article Google Scholar
MacLeod M, Moran D, Eory V, Rees RM, Barnes A, Topp CF, Ball B, Hoad S, Wall E, McVittie A, Pajot G, Matthews R, Smith P, Moxey A (2010) Developing greenhouse gas marginal abatement cost curves for agricultural emissions from crops and soils in the UK. Agric Syst 103(4):198–209. doi:10.1016/j.agsy.2010.01.002 Article Google Scholar
Marston SP, Clark GW, Anderson GW, Kersbergen RJ, Lunak M, Marcinkowski DP, Murphy MR, Schwab CG, Erickson PS (2011) Maximizing profit on New England organic dairy farms: an economic comparison of 4 total mixed rations for organic Holsteins and Jerseys. J Dairy Sci 94(6):3184–3201. doi:10.3168/jds.2010-3778 ArticleCASPubMed Google Scholar
Morel P, Sirisatien D, Wood GR (2012) Effect of pig type, costs and prices, and dietary restraints on dietary nutrient specification for maximum profitability in grower-finisher pig herds: a theoretical approach. Livest Sci 148(3):255–267. doi:10.1016/j.livsci.2012.06.015 Article Google Scholar
Moser T, Kantelhardt J, Schaller L, Amon B, Zechmeister-Boltenstern S, Kaspar M, Hasenauer H, Pötzelsberger E, Kitzler B, Winiwarter W, Schröck A, Zethner G, Anderl M, Baumgarten A, Dersch G, Prosenbauer M (2013) Economic assessment in the ACRP-Project FarmCLIM. In: Proceedings of the ÖGA 2013 (23.ÖGA-Jahrestagung), pp 141–142
Newell Price JP, Harris D, Taylor M, Williams JR, Anthony SG, Duethmann D, Gooday RD, Lord EI, Chambers BJ, Chadwick DR, Misselbrook TH (2011) An inventory of mitigation methods and guide to their effects on diffuse water pollution, greenhouse gas emissions and ammonia emissions from agriculture: user guide. Part of Defra Project WQ0106
Niemi JK, Sevón-Aimonen M, Pietola K, Stalder KJ (2010) The value of precision feeding technologies for grow-finish swine. Livest Sci 129(1–3):13–23. doi:10.1016/j.livsci.2009.12.006 Article Google Scholar
Pomar C, Pomar J, Dubeau F, Joannopoulos E, Dussault J (2014) The impact of daily multiphase feeding on animal performance, body composition, nitrogen and phosphorus excretions, and feed costs in growing-finishing pigs. Anim Int J Anim Biosci 8(5):704–713. doi:10.1017/S1751731114000408 ArticleCAS Google Scholar
Pötsch EM (2006) Österreichisches Aktionsprogramm zur Umsetzung der EU-Nitratrichtlinie: Aktualisierung der N-Ausscheidungsrate für landwirtschaftliche Nutztiere - Konsequenzen für die Praxis
Powell JM, MacLeod M, Vellinga TV, Opio C, Falcucci A, Tempio G, Steinfeld H, Gerber P (2013) Feed-milk-manure nitrogen relationships in global dairy production systems. Livest Sci 152(2–3):261–272. doi:10.1016/j.livsci.2013.01.001 Article Google Scholar
Reis S, Sutton MA, Howard C (eds) (2015) Costs of ammonia abatement and the climate co-benefits. Springer, Dordrecht Google Scholar
Reise C, Musshoff O, Granoszewski K, Spiller A (2012) Which factors influence the expansion of bioenergy? An empirical study of the investment behaviours of German farmers. Ecol Econ 73:133–141. doi:10.1016/j.ecolecon.2011.10.008 Article Google Scholar
Rejesus RM, Hornbaker RH (1999) Economic and environmental evaluation of alternative pollution-reducing nitrogen management practices in central Illinois. Agric Ecosyst Environ 75(1–2):41–53. doi:10.1016/S0167-8809(99)00058-4 Article Google Scholar
Resch R (2007) Neue Futterwerttabellen für den Alpenraum
Rossing W, Zander P, Josien E, Groot J, Meyer BC, Knierim A (2007) Integrative modelling approaches for analysis of impact of multifunctional agriculture: a review for France, Germany and The Netherlands. Agric Ecosyst Environ 120(1):41–57. doi:10.1016/j.agee.2006.05.031 Article Google Scholar
Rößler R, Eurich-Menden B, Vandré R, Wulf S, Döhler H (2012) Ammonia emissions: abatement costs for feeding of fattening pigs. Landtechnik 67(1):69–72 Google Scholar
Roth FX, Schwarz FJ, Stangl GI (eds) (2011) Kirchgeßner Tierernährung: Leitfaden für Studium. DLG-Verlag, Frankfurt am Main, Beratung und Praxis Google Scholar
Rotz C (2004) Management to reduce nitrogen losses in animal production. J Anim Sci 82:E119–E137 PubMed Google Scholar
Ryan M (2005) Calculating abatement costs. In: Kuczynski T, Dämmgen U, Webb J, Myczko A (eds) Emissions from European agriculture. Wageningen Academic Publishers, Wageningen, pp 253–262 Google Scholar
Ryan W, Hennessy D, Murphy JJ, Boland TM, Shalloo L (2011) A model of nitrogen efficiency in contrasting grass-based dairy systems. J Dairy Sci 94(2):1032–1044. doi:10.3168/jds.2010-3294 ArticleCASPubMed Google Scholar
Skevas T, Stefanou SE, Lansink AO (2012) Can economic incentives encourage actual reductions in pesticide use and environmental spillovers? Agric Econ 43(3):267–276. doi:10.1111/j.1574-0862.2012.00581.x Article Google Scholar
Spiekers H, Eurich-Menden B, Van den Weghe, Herman (2015) Anders füttern, Ammoniak runter. DLG-Mitteilungen (10):86–88
Statistics Austria (2014) Land- und forstwirtschaftliche Erzeugerpreise für Österreich ab 1998, Vienna
Steinwidder A, Guggenberger T (2003) Investigations on feed intake and nutrient supply of dairy cows as well as nutrient balance studies on farms in grassland regions of Austria. (in German). Die. Bodenkultur 54(1):49–66 CAS Google Scholar
Umweltbundesamt (2014a) Austria’s Informative Inventory Report (IIR) 2014: submission under the UNECE Convention on Long-range Transboundary Air Pollution
Umweltbundesamt (2014b) Austria’s National Inventory Report 2014: Submission under the United Nations Framework Convention on Climate Change and the Kyoto Protocol
van Vuuren AM, Pineiro C, van der Hoek K, Oenema O (2015) Economics of Low Nitrogen Feeding Strategies. In: Reis S, Sutton MA, Howard C (eds) Costs of ammonia abatement and the climate co-benefits. Springer, Dordrecht Google Scholar
Vibart RE, Washburn SP, Green JT, Benson GA, Williams CM, Pacheco D, Lopez-Villalobos N (2012) Effects of feeding strategy on milk production, reproduction, pasture utilization, and economics of autumn-calving dairy cows in eastern North Carolina. J Dairy Sci 95(2):997–1010. doi:10.3168/jds.2011-4755 ArticleCASPubMed Google Scholar
Winiwarter W, Rypdal K (2001) Assessing the uncertainty associated with national greenhouse gas emission inventories: a case study for Austria. Atmos Environ 35:5425–5440 ArticleCAS Google Scholar
Yan T, Mayne CS, Gordon FG, Porter MG, Agnew RE, Patterson DC, Ferris CP, Kilpatrick DJ (2010) Mitigation of enteric methane emissions through improving efficiency of energy utilization and productivity in lactating dairy cows. J Dairy Sci 93(6):2630–2638. doi:10.3168/jds.2009-2929 ArticleCASPubMed Google Scholar
Zehetmeier M, Gandorfer M, Hoffmann H, Müller UK, de Boer I, Heißenhuber A (2014) The impact of uncertainties on predicted greenhouse gas emissions of dairy cow production systems. J Clean Prod 73:116–124. doi:10.1016/j.jclepro.2013.09.054 ArticleCAS Google Scholar