From Population Viability Analysis to Coviability of Farmland Biodiversity and Agriculture

Substantial declines in farmland biodiversity have been reported in Europe for several decades. Agricultural changes have been identified as a main driver of these declines. Although different agrienvironmental schemes have been implemented, their positive effect on biodiversity is relatively unknown. This raises the question as to how to reconcile farming production and biodiversity conservation to operationalize a sustainable and multifunctional agriculture. We devised a bioeconomic model and conducted an analysis based on coviability of farmland biodiversity and agriculture. The coviability approach extended population viability analyses by including bioeconomic risk. Our model coupled stochastic dynamics of both biodiversity and farming land-uses selected at the microlevel with public policies at the macrolevel on the basis of financial incentives (taxes or subsidies) for land uses. The coviability approach made it possible for us to evaluate bioeconomic risks of these public incentives through the probability of satisfying a mix of biodiversity and economic constraints over time. We calibrated the model and applied it to a community of 34 common birds in metropolitan France at the small agricultural regions scale. We identified different public policies and scenarios with tolerable (0-0%) agroecological risk and modeled their outcomes up to 2050. Budgetary, economic, and ecological (based on Farmland Bird Index) constraints were essential to understanding the set of viable public policies. Our results suggest that some combinations of taxes on cereals and subsidies on grasslands could be relevant to develop a multifunctional agriculture. Moreover, the flexibility and multicriteria viewpoint underlying the coviability approach may help in the implementation of adaptive management.

[1]  Luc Doyen,et al.  Sustainability of exploited marine ecosystems through protected areas: A viability model and a coral reef case study , 2007 .

[2]  David Kleijn,et al.  Agri-environment schemes do not effectively protect biodiversity in Dutch agricultural landscapes , 2001, Nature.

[3]  D. Pauly,et al.  Fishing down marine food webs , 1998, Science.

[4]  F. Jiguet,et al.  When species become generalists: on‐going large‐scale changes in bird habitat specialization , 2011 .

[5]  T. Benton,et al.  Farmland biodiversity: is habitat heterogeneity the key? , 2003 .

[6]  Paul F. Doherty,et al.  Balancing conservation and economic gain: a dynamic programming approach , 1999 .

[7]  M. Gatto,et al.  Pricing Biodiversity and Ecosystem Services: The Never-Ending Story , 2000 .

[8]  J. Hausman,et al.  Contingent Valuation: Is Some Number Better than No Number? , 1994 .

[9]  Andrew Balmford,et al.  Measuring the changing state of nature , 2003 .

[10]  J. Greenwood,et al.  A second silent spring? , 1995, Trends in ecology & evolution.

[11]  Denis Couvet,et al.  French citizens monitoring ordinary birds provide tools for conservation and ecological sciences , 2012 .

[12]  Luc Doyen,et al.  The triple bottom line: Meeting ecological, economic and social goals with individual transferable quotas , 2012 .

[13]  Ralf Seppelt,et al.  Evaluating cost-effectiveness of conservation management actions in an agricultural landscape on a regional scale , 2007 .

[14]  Stefan Baumgärtner,et al.  Ecological-Economic Viability as a Criterion of Strong Sustainability under Uncertainty , 2007 .

[15]  Luc Doyen,et al.  Stochastic viability and dynamic programming , 2010, Syst. Control. Lett..

[16]  Martin Drechsler,et al.  A model-based approach for designing cost-effective compensation payments for conservation of endangered species in real landscapes , 2007 .

[17]  Christophe Béné,et al.  A viability analysis for a bio-economic model , 2001 .

[18]  Paul F. Donald,et al.  Habitat connectivity and matrix restoration: the wider implications of agri‐environment schemes , 2006 .

[19]  Teja Tscharntke,et al.  Landscape-moderated biodiversity effects of agri-environmental management: a meta-analysis , 2011, Proceedings of the Royal Society B: Biological Sciences.

[20]  L Doyen,et al.  How does economic risk aversion affect biodiversity? , 2013, Ecological applications : a publication of the Ecological Society of America.

[21]  F. Jiguet,et al.  Bio economic modeling for a sustainable management of biodiversity in agricultural lands , 2011 .

[22]  Frank Wätzold,et al.  The importance of economic costs in the development of guidelines for spatial conservation management , 2001 .

[23]  S. Butler,et al.  A cross‐taxonomic index for quantifying the health of farmland biodiversity , 2009 .

[24]  J. Aubin A survey of viability theory , 1990 .

[25]  D. Doak,et al.  Book Review: Quantitative Conservation biology: Theory and Practice of Population Viability analysis , 2004, Landscape Ecology.

[26]  P. Laiolo Spatial and Seasonal Patterns of Bird Communities in Italian Agroecosystems , 2005 .

[27]  Luc Doyen,et al.  Different policy scenarios to promote various targets of biodiversity , 2012 .

[28]  Luc Doyen,et al.  Maximin, viability and sustainability , 2012 .

[29]  J. Scheffran,et al.  Viability analysis of management frameworks for fisheries , 2005, math/0510115.

[30]  Richard B. Bradbury,et al.  The role of agri-environment schemes and farm management practices in reversing the decline of farmland birds in England , 2004 .

[31]  P. Goodwin,et al.  Agricultural liberalization in the European union: an analysis of the implications for nature conservation , 1998 .

[32]  S. Polasky,et al.  CONSERVING SPECIES IN A WORKING LANDSCAPE: LAND USE WITH BIOLOGICAL AND ECONOMIC OBJECTIVES , 2005 .

[33]  Tiange Shi,et al.  Developing effective policies for the sustainable development of ecological agriculture in China: the case study of Jinshan County with a systems dynamics model ☆ , 2005 .

[34]  M. Pauly,et al.  Universal health insurance in the Clinton plan: coverage as a tax-financed public good. , 1994, The journal of economic perspectives : a journal of the American Economic Association.

[35]  Christophe Béné,et al.  A stochastic viability approach to ecosystem-based fisheries management , 2012 .

[36]  Vincent Martinet,et al.  Biological conservation in dynamic agricultural landscapes: effectiveness of public policies and trade-offs with agricultural production , 2011 .

[37]  J. Alavalapati,et al.  Restoration of the longleaf pine ecosystem on private lands in the US South: an ecological economic analysis , 2002 .

[38]  Andrew R. Watkinson,et al.  Editors' Introduction: Birds and Agriculture , 2000 .

[39]  D. Noble,et al.  The state of play of farmland birds: population trends and conservation status of lowland farmland birds in the United Kingdom , 2004 .

[40]  M. Tichit,et al.  Action versus Result-Oriented Schemes in a Grassland Agroecosystem: A Dynamic Modelling Approach , 2012, PloS one.

[41]  Denis Couvet,et al.  Spatial segregation of specialists and generalists in bird communities. , 2006, Ecology letters.

[42]  John R. Krebs,et al.  The second Silent Spring? , 1999, Nature.