TY - JOUR
T1 - Land use policies considering a natural ecosystem
AU - Yoshida, Jun
AU - Kono, Tatsuhito
N1 - Funding Information:
An earlier version of this paper was presented at Urban Economics Association, Applied Regional Science Conference in Japan, the Meeting of the Society for Environmental Economics and Policy studies in Japan, the 6th World Congress of Environmental and Resource Economists, and workshops in Kyoto University and National Chengchi University. We would like to thank the editor Kristian Behrens and two anonymous reviewers, Ken-Ichi Akao, Seong-Hoon Cho, Stephen Coate, Masahisa Fujita, Akira Hibiki, Huey-Lin Lee, Tomoya Mori, Se-il Mun, Takayoshi Shinkuma, Nori Tarui, Jotaro Urabe, and the participants at the meetings for valuable comments on our paper. This research was partially supported by the Ministry of Education, Culture, Sports, Science and Technology (Grant-in-Aid for JSPS Fellows B17H02517), which is gratefully acknowledged. Despite assistance from many sources, any errors in the paper remain the sole responsibility of the authors. Jun Yoshida: j-yoshida@doc.kyushu-u.ac.jp, Tatsuhito Kono: kono@plan.civil.tohoku.ac.jp
Funding Information:
•This research was supported by grants from the Japan Ministry of Education, Culture, Sports, Science and Technology (Grant-in-Aid for Scientific Research), which are gratefully acknowledged.
Funding Information:
An earlier version of this paper was presented at Urban Economics Association, Applied Regional Science Conference in Japan, the Meeting of the Society for Environmental Economics and Policy studies in Japan, the 6th World Congress of Environmental and Resource Economists, and workshops in Kyoto University and National Chengchi University. We would like to thank the editor Kristian Behrens and two anonymous reviewers, Ken-Ichi Akao, Seong-Hoon Cho, Stephen Coate, Masahisa Fujita, Akira Hibiki, Huey-Lin Lee, Tomoya Mori, Se-il Mun, Takayoshi Shinkuma, Nori Tarui, Jotaro Urabe, and the participants at the meetings for valuable comments on our paper. This research was partially supported by the Ministry of Education, Culture, Sports, Science and Technology (Grant-in-Aid for JSPS Fellows B17H02517 ), which is gratefully acknowledged. Despite assistance from many sources, any errors in the paper remain the sole responsibility of the authors. Jun Yoshida: j-yoshida@doc.kyushu-u.ac.jp , Tatsuhito Kono: kono@plan.civil.tohoku.ac.jp
Publisher Copyright:
© 2020 Elsevier B.V.
PY - 2020/7
Y1 - 2020/7
N2 - Some wildlife creatures, such as carnivores, disease-carrying mosquitoes, and virus, encroach into a city and harm human lives, but they are important in terms of wildlife conservation. This paper studies land use policies for wildlife conservation as well as protection of human lives in a continuous monocentric city adjacent to a natural habitat with three species forming a food chain. We analytically characterize the second-best optimal policies, where the government increases carniboures’ risk of extermination within the city, and controls the city size and plant densities. The theoretical findings are that (i) the second-best optimal city size can be larger or smaller than the laissez-faire equilibrium city size; (ii) the optimal plant density should be equal across the habitat. Numerical simulations based on our parameters show that a set of second-best policies yields more than 90% of the first-best welfare gain.
AB - Some wildlife creatures, such as carnivores, disease-carrying mosquitoes, and virus, encroach into a city and harm human lives, but they are important in terms of wildlife conservation. This paper studies land use policies for wildlife conservation as well as protection of human lives in a continuous monocentric city adjacent to a natural habitat with three species forming a food chain. We analytically characterize the second-best optimal policies, where the government increases carniboures’ risk of extermination within the city, and controls the city size and plant densities. The theoretical findings are that (i) the second-best optimal city size can be larger or smaller than the laissez-faire equilibrium city size; (ii) the optimal plant density should be equal across the habitat. Numerical simulations based on our parameters show that a set of second-best policies yields more than 90% of the first-best welfare gain.
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U2 - 10.1016/j.regsciurbeco.2020.103552
DO - 10.1016/j.regsciurbeco.2020.103552
M3 - Article
AN - SCOPUS:85085498029
SN - 0166-0462
VL - 83
JO - Regional Science and Urban Economics
JF - Regional Science and Urban Economics
M1 - 103552
ER -
