40 research outputs found
Sustainability Reporting At Higher Education Institutions
Multiple declarations, governmental and non-profit organizations and universities have issued a call for proper reporting of social and environmental impacts and initiatives within academia. Such reporting can increase awareness of environmental and social impacts, encourage development of sustainable policy and build a campus culture more committed to sustainability. Sustainability reporting at Higher Education Institutions (HEIs) has the added benefit of being a powerful teaching aid. This paper follows multiple lines of inquiry in order to determine whether HEIs are taking advantage of the opportunities afforded by sustainability reporting. The analysis evaluates the history of sustainability reporting at HEIs and compares the practices of HEIs to those in other sectors. We use the Pacific Sustainability Index to methodically evaluate and rank the social and environmental reporting of 20 HEIs. We find that sustainability reporting is generally less rigorous in academia than other industries. The analysis emphasizes the need for greater institutional support for sustainability reporting at HEIs
China, the United States, and the Climate Change Challenge
Outlines China's climate change policy, U.S. concerns about transfer of carbon-intensive jobs to China and ways to address them, ways for U.S. policy and legislation to spur China's adoption of clean technologies, and specific mechanisms for cooperation
A Green Recovery? Assessing US Economic Stimulus and the Prospects for International Coordination
As the new Congress and President Obama take office, enacting a fiscal stimulus program is at the top of the legislative agenda. Because the size of this program may limit the scope for other legislative priorities and because US consumers' new-found propensity to save makes government spending a more attractive approach for economic recovery, policymakers are hoping to direct government spending in a way that not only generates short-term economic growth and employment but also addresses long-term policy goals. Energy security and greenhouse gas emissions (GHG) reductions are chief among these goals, and smart government investment in these areas can both create jobs today and lower the future cost of implementing long-term policies such as a cap-and-trade program or carbon tax. Trevor Houser, Shashank Mohan, and Robert Heilmayr consider twelve proposed "green" stimulus programs and examine the economic, environmental, and energy-security costs and benefits of these proposals using the Energy Information Administration's National Energy Modeling System and the Bureau of Economic Analysis's RIMS II multipliers. These proposals fall into three basic categories: energy efficiency investments, such as programs to refit federal buildings and weatherize homes; power generation programs, including extension of the production tax credit for renewable energy and the installation of "smart" meters; and transportation proposals, such as hybrid tax credits, funding for battery research and development, and mass transit expansion. They find that their twelve programs create an average of 30,100 job-years per 1 billion in temporary tax cuts or 25,200 job-years per $1 billion in traditional infrastructure investment. These proposals also have a favorable impact on US GHG emissions and reduce US imports of oil and natural gas, but these effects are not significant enough to replace long-term policies in these areas. Rather, these policies can lay the groundwork for long-term policy goals, reducing the cost of implementing such policies down the road while at the same time spurring employment and helping to reverse the continuing economic downturn.
Effect of oil palm sustainability certification on deforestation and fire in Indonesia.
Many major corporations and countries have made commitments to purchase or produce only "sustainable" palm oil, a commodity responsible for substantial tropical forest loss. Sustainability certification is the tool most used to fulfill these procurement policies, and around 20% of global palm oil production was certified by the Roundtable on Sustainable Palm Oil (RSPO) in 2017. However, the effect of certification on deforestation in oil palm plantations remains unclear. Here, we use a comprehensive dataset of RSPO-certified and noncertified oil palm plantations (∼188,000 km2) in Indonesia, the leading producer of palm oil, as well as annual remotely sensed metrics of tree cover loss and fire occurrence, to evaluate the impact of certification on deforestation and fire from 2001 to 2015. While forest loss and fire continued after RSPO certification, certified palm oil was associated with reduced deforestation. Certification lowered deforestation by 33% from a counterfactual of 9.8 to 6.6% y-1 Nevertheless, most plantations contained little residual forest when they received certification. As a result, by 2015, certified areas held less than 1% of forests remaining within Indonesian oil palm plantations. Moreover, certification had no causal impact on forest loss in peatlands or active fire detection rates. Broader adoption of certification in forested regions, strict requirements to avoid all peat, and routine monitoring of clearly defined forest cover loss in certified and RSPO member-held plantations appear necessary if the RSPO is to yield conservation and climate benefits from reductions in tropical deforestation
Testing the benefits of conservation set-asides for improved habitat connectivity in tropical agricultural landscapes
Habitat connectivity is important for tropical biodiversity conservation. Expansion of commodity crops, such as oil palm, fragments natural habitat areas, and strategies are needed to improve habitat connectivity in agricultural landscapes. The Roundtable on Sustainable Palm Oil (RSPO) voluntary certification system requires that growers identify and conserve forest patches identified as High Conservation Value Areas (HCVAs) before oil palm plantations can be certified as sustainable. We assessed the potential benefits of these conservation set-asides for forest connectivity. We mapped HCVAs and quantified their forest cover in 2015. To assess their contribution to forest connectivity, we modelled range expansion of forest-dependent populations with five dispersal abilities spanning those representative of poor dispersers (e.g. flightless insects) to more mobile species (e.g. large birds or bats) across 70 plantation landscapes in Borneo. Because only 21% of HCVA area was forested in 2015, these conservation set-asides currently provide few connectivity benefits. Compared to a scenario where HCVAs contain no forest (i.e. a no-RSPO scenario), current HCVAs improved connectivity by ~3% across all dispersal abilities. However, if HCVAs were fully reforested, then overall landscape connectivity could improve by ~16%. Reforestation of HCVAs had the greatest benefit for poor to intermediate dispersers (0.5–3 km per generation), generating landscapes that were up to 2.7 times better connected than landscapes without HCVAs. By contrast, connectivity benefits of HCVAs were low for highly mobile populations under current and reforestation scenarios, because range expansion of these populations was generally successful regardless of the amount of forest cover. Synthesis and applications. The Roundtable on Sustainable Palm Oil (RSPO) requires that High Conservation Value Areas (HCVAs) be set aside to conserve biodiversity, but HCVAs currently provide few connectivity benefits because they contain relatively little forest. However, reforested HCVAs have the potential to improve landscape connectivity for some forest species (e.g. winged insects), and we recommend active management by plantation companies to improve forest quality of degraded HCVAs (e.g. by enrichment planting). Future revisions to the RSPO's Principles and Criteria should also ensure that large (i.e. with a core area >2 km 2) HCVAs are reconnected to continuous tracts of forest to maximize their connectivity benefits
Reflections from the Workshop on AI-Assisted Decision Making for Conservation
In this white paper, we synthesize key points made during presentations and
discussions from the AI-Assisted Decision Making for Conservation workshop,
hosted by the Center for Research on Computation and Society at Harvard
University on October 20-21, 2022. We identify key open research questions in
resource allocation, planning, and interventions for biodiversity conservation,
highlighting conservation challenges that not only require AI solutions, but
also require novel methodological advances. In addition to providing a summary
of the workshop talks and discussions, we hope this document serves as a
call-to-action to orient the expansion of algorithmic decision-making
approaches to prioritize real-world conservation challenges, through
collaborative efforts of ecologists, conservation decision-makers, and AI
researchers.Comment: Co-authored by participants from the October 2022 workshop:
https://crcs.seas.harvard.edu/conservation-worksho
Criteria for effective zero-deforestation commitments
Zero-deforestation commitments are a type of voluntary sustainability initiative that companies adopt to signal their intention to reduce or eliminate deforestation associated with commodities that they produce, trade, and/or sell. Because each company defines its own zero-deforestation commitment goals and implementation mechanisms, commitment content varies widely. This creates challenges for the assessment of commitment implementation or effectiveness. Here, we develop criteria to assess the potential effectiveness of zero-deforestation commitments at reducing deforestation within a company supply chain, regionally, and globally. We apply these criteria to evaluate 52 zero-deforestation commitments made by companies identified by Forest 500 as having high deforestation risk. While our assessment indicates that existing commitments converge with several criteria for effectiveness, they fall short in a few key ways. First, they cover just a small share of the global market for deforestation-risk commodities, which means that their global impact is likely to be small. Second, biome-wide implementation is only achieved in the Brazilian Amazon. Outside this region, implementation occurs mainly through certification programs, which are not adopted by all producers and lack third-party near-real time deforestation monitoring. Additionally, around half of all commitments include zero-net deforestation targets and future implementation deadlines, both of which are design elements that may reduce effectiveness. Zero-net targets allow promises of future reforestation to compensate for current forest loss, while future implementation deadlines allow for preemptive clearing. To increase the likelihood that commitments will lead to reduced deforestation across all scales, more companies should adopt zero-gross deforestation targets with immediate implementation deadlines and clear sanction-based implementation mechanisms in biomes with high risk of forest to commodity conversion.ISSN:0959-3780ISSN:1872-949
Deforestation, fire and RSPO certification status of Indonesian oil palm plantations
Replication data for "Effect of Oil Palm Sustainability Certification on Deforestation and Fire in Indonesia," PNAS, 2017