Relative Price Changes and Climate Policy under Heterogeneous Environmental Goods Dynamics
Martin C. Hänsel1, Marc N. Conte2, Moritz A. Drupp3
1Leipzig University, Germany; 2Fordham University, USA; 3University of Hamburg, Germany
Discussant: Aino Elina Assmuth (Natural Resources Institute Finland (Luke))
Climate change impacts human well-being not only through damages to market goods but also by affecting non-market goods such as environmental amenities. Previous analyses account for how climate change affects environmental goods as a direct source of well-being, but typically assume a homogeneous aggregate environmental good. This assumption neglects how heterogeneity within a stylized composite environmental good may drive environmental scarcity and its effect on climate policy evaluation. Here, we study how the dynamics of heterogeneous environmental goods impact relative price changes between market and non-market goods and the social cost of carbon (SCC) in a variant of Nordhaus' integrated assessment model DICE. We examine how relative price changes and climate policy outcomes critically depend on (i) the calibration strategy for climate damages on environmental goods, (ii) the management regime ranging from optimal policy to heterogeneous management and business as usual, and (iii) assumptions on the substitutability between market and non-market environmental goods as well as across environmental goods. We find that while limited substitutability between market and non-market goods remains a key driver of relative price changes and the SCC, limited substitutability across heterogeneous environmental goods has only a minor yet non-negligible effect on the SCC, the extent and direction of which varies along management regimes.
Biodiversity implications of forest carbon payments
Aino Assmuth1, Johanna Pohjola2, Aapo Rautiainen1, Matti Hyyrynen1, Sampo Pihlainen2, Jussi Lintunen1
1Natural Resources Institute Finland (Luke), Finland; 2Finnish Environment Institute (Syke)
Discussant: Sarah Meier (University of Exeter)
The deep interconnections between climate change and biodiversity loss are increasingly recognized, and simultaneous, coordinated action in the mitigation of these twin crises is called for. The need for coordination is especially pressing in forestry, as forest management impacts both climate stabilization and biodiversity loss. Forest carbon payments have been proposed as a means for incentivizing forest management in which timber production and carbon storage are jointly optimized. Here, we analyze the impacts of forest payment schemes on forest biodiversity using a detailed forest sector model built to describe Finland’s forest resources, timber markets, and forest and energy industries. We measure forest biodiversity using a multiplicative composite index describing ecosystem quality relative to a reference state via a set of structural components. In the model, forest-owners’ heterogenous valuations of forest amenities affect their harvesting behavior and willingness to join a carbon payment scheme. Our results indicate that forest carbon payments with a price level of 15€ / tCO2 – sufficient to cause a 20–30 MtCO2 / yr increase in net sink – have a small to moderate positive effect on forest biodiversity, The biodiversity co-benefits are predominantly caused by lengthening forest rotations and increasing the volume of broadleaf trees and deadwood, and are weaker low-productivity sites. We find that a partial-coverage scheme that attracts those forest owners who hold amenity preferences may have qualitatively quite similar positive effects on the net sink and biodiversity as a full-coverage scheme, but the extent of the effects is smaller. According to a sensitivity analysis with low and high demand scenarios, a higher demand for forest-sector products is associated with higher biodiversity co-benefits of carbon payments. Our results suggest that forest carbon payments are likely to have some biodiversity co-benefits in boreal conditions, but halting biodiversity loss will require additional, biodiversity-targeted policies.
The impact of wildfire smoke on local avian biodiversity
Sarah Meier1, Eric Strobl2,3
1University of Exeter, United Kingdom; 2University of Birmingham, United Kingdom; 3University of Bern, Switzerland
Discussant: Nino Cavallaro (Leipzig University)
Land use alternations and climate change are shifting natural fire regimes, leading to prolonged and intensified fire seasons accompanied by widespread air pollution, with potentially important consequences for local wildlife. Combining data from the North American Breeding Bird Survey with high-resolution satellite imagery, we estimate the impact of wildfire-specific smoke pollution (PM2.5) on avian biodiversity in the contiguous United States (US) from 2008 to 2022. The panel fixed effects instrumental variable estimation results indicate a short-term adverse effect of PM2.5 on taxonomic and phylogenetic diversity metrics. More specifically, a standard deviation (sd) increase in wildfire-specific PM2.5 pollution reduces species richness, abundance, and phylogenetic diversity by about 0.1 sd, largely driven by observations in the Western US. For the most polluted transects the effect is up to 2-3 standard deviations. Importantly, the adverse effects on biodiversity metrics vary markedly across ecosystems. While the decrease in phylogenetic diversity is most pronounced in the Northwestern Forested Mountains, for the taxonomic metrics it is the Eastern Temperate Forests, the Northern Forests, and the North American Deserts which are driving the adverse effect of wildfire smoke. These findings underscore the need for targeted fire management and conservation strategies to mitigate biodiversity loss, especially in the face of increasing wildfire intensity and smoke exposure projected for many regions worldwide.
A Novel Approach to Determining Spatially Explicit Values of Natural Capital
Julian Sagebiel1,2, Nino Cavallaro1,2, Martin Quaas1,2
1German Centre for Integrative Biodiversity Research (iDiv), Halle-Jena-Leipzig, Leipzig, Germany; 2Faculty of Economics, University of Leipzig, Leipzig, Germany
Discussant: Martin C. Hänsel (Leipzig University)
Despite the urgent need to preserve natural capital, little is known about the direct
benefits people receive from it. Reliable benefit estimates are required to incorporate
the complex values of natural capital in national capital accounting, cost-benefit anal-
yses, project appraisal, and international policy agreements. The study employs a
spatial-explicit choice experiment approach, which estimates benefits people receive
from changes in natural capital conditional on the current endowment in their places of
residence. Studying changes in protected areas and high nature value farmland across
Germany, we identify significant use and non-use values of natural capital stocks. We
find that the marginal values of natural capital are conditional on the spatial endow-
ment and on whether the type of natural capital is use or non-use related. The results
are easily transferable to other regions and contexts and allow trading off the benefits
and costs of restoring natural capital and biodiversity. Our findings enrich the discus-
sion on the loss of natural capital and biodiversity and can significantly contribute to
broader policy discussions in the context of the interlinked climate and biodiversity
crises.
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