50 results on '"CLIMATE change mitigation"'
Search Results
2. Hydrogen energy systems: Technologies, trends, and future prospects.
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Sadeq, Abdellatif M., Homod, Raad Z., Hussein, Ahmed Kadhim, Togun, Hussein, Mahmoodi, Armin, Isleem, Haytham F., Patil, Amit R., and Moghaddam, Amin Hedayati
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- 2024
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3. Role of macroalgal forests within Mediterranean shallow bays in blue carbon storage.
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Moreda, Uxue, Mazarrasa, Inés, Cebrian, Emma, Kaal, Joeri, Ricart, Aurora M., Serrano, Eduard, and Serrano, Oscar
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- 2024
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4. A recipe for change: Analyzing the climate and ecosystem impacts of the Brazilian diet shift.
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Bakman, Tamar, Hoffmann, Bettina Susanne, and Portugal-Pereira, Joana
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- 2024
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5. Carbon emission prediction models: A review.
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Jin, Yukai, Sharifi, Ayyoob, Li, Zhisheng, Chen, Sirui, Zeng, Suzhen, and Zhao, Shanlun
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- 2024
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6. Carbon stock projection for four major forest plantation species in Japan.
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Egusa, Tomohiro, Nakahata, Ryo, Neumann, Mathias, and Kumagai, Tomo'omi
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- 2024
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7. The spatial and source heterogeneity of agricultural emissions highlight necessity of tailored regional mitigation strategies.
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Liu, Gang, Deng, Xiangzheng, and Zhang, Fan
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- 2024
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8. Over 1/4 of China's terrestrial area significantly contributed both to biodiversity conservation and carbon neutrality, requiring protection.
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Wang, Fangyi, Zhao, Zhicong, Wang, Pei, Zhong, Le, Yang, Shenglan, Tang, Jiale, Hou, Shuyu, Tseng, Tz-Hsuan, Cao, Yue, and Yang, Rui
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- 2024
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9. Land conservation can mitigate freshwater ecosystem services degradation due to climate change in a semiarid catchment: The case of the Portneuf River catchment, Idaho, USA.
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Huang, Li, Liao, Felix Haifeng, Lohse, Kathleen A., Larson, Danelle M., Fragkias, Michail, Lybecker, Donna L., and Baxter, Colden V.
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Abstract There is increasing evidence of environmental change impacts on freshwater ecosystem services especially through land use and climate change. However, little is known about how land conservation could help mitigate adverse water-sustainability impacts. In this paper, we utilized the InVEST tool and the Residual Trends method to assess the joint effects and relative contributions of climate change and land conservation on freshwater ecosystem services in the Portneuf River catchment in Idaho, USA. We developed five hypothesized scenarios regarding gain and loss in the enrollment of Conservation Reserve Program (CRP), the largest agricultural land-retirement program in the U.S., plus riparian buffer and assessed their interactions with climate change. Results suggest that the realized water yield in the Portneuf River catchment would possibly be 56% less due to climate change and 24% less due to the decline of CRP enrollment. On the contrary, if CRP enrollment is promoted by ~30% and riparian buffer protection is implemented, the water supply reduction in the year 2050 could be changed from 56% to 26%, the total phosphorus (TP) and total nitrogen (TN) export would be reduced by 10% and 11%, and the total suspended sediment (TSS) reduced by 17%. This study suggests that increasing implementation of the CRP would likely preserve key freshwater ecosystem services and assist proactive mitigation, especially for semiarid regions vulnerable to changing climate conditions. Graphical abstract Unlabelled Image Highlights • Freshwater ecosystem services (ES) under climate change and conservation assessed • Degradation of freshwater ES is expected as a result of climate change. • Increasing agricultural land conservation would offset the degradation. • Model outputs are sensitive to the parameters of major land cover types. • This study has potential implications for other semiarid catchments. [ABSTRACT FROM AUTHOR]
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- 2019
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10. Management-induced greenhouse gases emission mitigation in global rice production.
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Zhao, Xin, Pu, Chao, Ma, Shou-Tian, Liu, Sheng-Li, Xue, Jian-Fu, Wang, Xing, Wang, Yu-Qiao, Li, Shuai-Shuai, Lal, Rattan, Chen, Fu, and Zhang, Hai-Lin
- Abstract
Abstract Mitigating greenhouse gases (GHGs) emissions from rice paddy (Oryza sativa L.) and balancing the trade-offs between reducing emission and sustaining food security have raised global concerns. A global meta-analysis of rice experimental data was conducted to assess changes in emissions of GHGs (CH 4 and N 2 O) and global warming potential (GWP) in response to improvements through 12 field management practices. The results indicated that changes in GWP were mainly attributed to CH 4 emission even though N 2 O emission was significantly affected by conversion of field management practices. Specifically, GWP per unit rice plant area (area-scaled) was significantly increased by 20.1%, 66.2%, and 84.5% with nitrogen (N) fertilizer input, manuring, and residue retention (P < 0.05), along with significant increments in area-scaled CH 4 emission under the above management practices by 8.9%, 60.4%, and 91.8%, respectively (P < 0.05). Due to the significant increase in rice yield, a decreasing trend for GWP per unit rice yield (yield-scaled) was observed with N fertilizer input. In addition, CH 4 and GWP decreased significantly at both area- and yield-scale under non-flooding irrigation but with a reduction in rice yield by 3.3% (P < 0.05). Improvement in rice variety significantly enhanced crop yield by 15.3% while reducing area-scaled GWP by 27.7% (P < 0.05). Furthermore, other management practices, such as application of herbicides, biochar, and amendments (non-fertilizer materials) reduced yield-scaled GWP while increasing rice yield. Thus, changes in field management practices have the potential to balance the trade-offs between high yield and low emission of GHGs. However, in-depth studies are needed to determine the interactions between field management practices and site-specific soil/climate conditions. Graphical abstract Unlabelled Image Highlights • 12 paired field management practices were assessed using a global meta-analysis. • Adjusted practices could reduce GWP highly by 39.1% mainly due to CH 4 mitigation. • The increased yield under adjusted practices can offset the yield-scaled GWP. • High yield and low emission strategy needs to consider interactions with soil/climate. [ABSTRACT FROM AUTHOR]
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- 2019
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11. Planting hedgerows: Biomass carbon sequestration and contribution towards net-zero targets.
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Biffi, Sofia, Chapman, Pippa J., Grayson, Richard P., and Ziv, Guy
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- 2023
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12. Corporate carbon footprint for country Climate Change mitigation: A case study of a tannery in Turkey.
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Kılıç, Eylem, Puig, Rita, Zengin, Gökhan, Zengin, Candaş Adıgüzel, and Fullana-i-Palmer, Pere
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CLIMATE change mitigation , *ECOLOGICAL impact , *LANDFILLS , *DECISION making - Abstract
Assessment of carbon emissions and environmental impact of production is indispensable to achieve a sustainable industrial production in Turkey, especially for those companies willing to compete in new international green markets. In this case study, corporate carbon footprint of a representative Turkish tanning company was analyzed. Inventory and impact data are presented to help in the environmental decision-making process. The results indicate that significant environmental impacts were caused during the landfilling of solid wastes as well as the production of the electricity and fuel required in the tannery. Turkish tannery inventory data presented here for the first time will be useful for leather tanning company managers to calculate sustainability key indicators. Improving alternatives at country level were identified (increasing the renewable sources on electricity production and promote energy recovery in landfills) which would be useful not only to decrease greenhouse gas (GHG) emissions of tanning sector but also of other industries requiring electricity and producing organic wastes. Considering the substantial contribution of industrial processes to the Turkish carbon emissions (15.7%) (TUIK, 2013), work done on those areas would provide a sound improvement in environmental profile of Turkey. The importance to promote a national strategy to reduce GHG emissions in Turkey was discussed here, as well as its relation to corporate carbon footprint assessments. One of the significant points revealed from the case study is the lack of published country specific emission factors for Turkey, which is a fundamental prerequisite to promote corporate carbon footprint assessment within the country. [ABSTRACT FROM AUTHOR]
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- 2018
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13. Applying the global RCP–SSP–SPA scenario framework at sub-national scale: A multi-scale and participatory scenario approach.
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Kebede, Abiy S., Nicholls, Robert J., Allan, Andrew, Arto, Iñaki, Cazcarro, Ignacio, Fernandes, Jose A., Hill, Chris T., Hutton, Craig W., Kay, Susan, Lázár, Attila N., Macadam, Ian, Palmer, Matthew, Suckall, Natalie, Tompkins, Emma L., Vincent, Katharine, and Whitehead, Paul W.
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CLIMATE change , *CLIMATE change mitigation , *CLIMATOLOGY , *PHYSIOLOGICAL adaptation , *DECISION making , *GOVERNMENT policy - Abstract
To better anticipate potential impacts of climate change, diverse information about the future is required, including climate, society and economy, and adaptation and mitigation. To address this need, a global RCP (Representative Concentration Pathways), SSP (Shared Socio-economic Pathways), and SPA (Shared climate Policy Assumptions) (RCP–SSP–SPA) scenario framework has been developed by the Intergovernmental Panel on Climate Change Fifth Assessment Report (IPCC-AR5). Application of this full global framework at sub-national scales introduces two key challenges: added complexity in capturing the multiple dimensions of change, and issues of scale. Perhaps for this reason, there are few such applications of this new framework. Here, we present an integrated multi-scale hybrid scenario approach that combines both expert-based and participatory methods. The framework has been developed and applied within the DECCMA 1 1 DECCMA ( DEltas , vulnerability and Climate Change: Migration and Adaptation ) project is part of the Collaborative Adaptation Research Initiative in Africa and Asia (CARIAA), with financial support from the UK Government's Department for International Development (DFID) and the International Development Research Centre (IDRC), Canada. For more information, visit the project website: http://www.geodata.soton.ac.uk/deccma/ . project with the purpose of exploring migration and adaptation in three deltas across West Africa and South Asia: (i) the Volta delta (Ghana), (ii) the Mahanadi delta (India), and (iii) the Ganges-Brahmaputra-Meghna (GBM) delta (Bangladesh/India). Using a climate scenario that encompasses a wide range of impacts (RCP8.5) combined with three SSP-based socio-economic scenarios (SSP2, SSP3, SSP5), we generate highly divergent and challenging scenario contexts across multiple scales against which robustness of the human and natural systems within the deltas are tested. In addition, we consider four distinct adaptation policy trajectories: Minimum intervention , Economic capacity expansion , System efficiency enhancement , and System restructuring , which describe alternative future bundles of adaptation actions/measures under different socio-economic trajectories. The paper highlights the importance of multi-scale (combined top-down and bottom-up) and participatory (joint expert-stakeholder) scenario methods for addressing uncertainty in adaptation decision-making. The framework facilitates improved integrated assessments of the potential impacts and plausible adaptation policy choices (including migration) under uncertain future changing conditions. The concept, methods, and processes presented are transferable to other sub-national socio-ecological settings with multi-scale challenges. [ABSTRACT FROM AUTHOR]
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- 2018
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14. Sustainable Forest Operations (SFO): A new paradigm in a changing world and climate.
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Marchi, Enrico, Chung, Woodam, Visser, Rien, Abbas, Dalia, Nordfjell, Tomas, Mederski, Piotr S., McEwan, Andrew, Brink, Michal, and Laschi, Andrea
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SUSTAINABLE forestry , *FOREST management , *CLIMATE change mitigation , *CARBON sequestration , *FOREST products industry , *MANAGEMENT - Abstract
The effective implementation of sustainable forest management depends largely on carrying out forest operations in a sustainable manner. Climate change, as well as the increasing demand for forest products, requires a re-thinking of forest operations in terms of sustainability. In this context, it is important to understand the major driving factors for the future development of forest operations that promote economic, environmental and social well-being. The main objective of this paper is to identify important issues concerning forest operations and to propose a new paradigm towards sustainability in a changing climate, work and environmental conditions. Previously developed concepts of forest operations are reviewed, and a newly developed concept – Sustainable Forest Operations (SFO), is presented. Five key performance areas to ensure the sustainability of forest operations include: (i) environment; (ii) ergonomics; (iii) economics; (iv) quality optimization of products and production; and (v) people and society. Practical field examples are presented to demonstrate how these five interconnected principles are relevant to achieving sustainability, namely profit and wood quality maximization, ecological benefits, climate change mitigation, carbon sequestration, and forest workers' health and safety. The new concept of SFO provides integrated perspectives and approaches to effectively address ongoing and foreseeable challenges the global forest communities face, while balancing forest operations performance across economic, environmental and social sustainability. In this new concept, we emphasize the role of wood as a renewable and environmentally friendly material, and forest workers' safety and utilization efficiency and waste management as additional key elements of sustainability. [ABSTRACT FROM AUTHOR]
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- 2018
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15. Managing India's small landholder farms for food security and achieving the “4 per Thousand” target.
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Nath, Arun Jyoti, Lal, Rattan, Sileshi, Gudeta Weldesemayat, and Das, Ashesh Kumar
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CARBON in soils , *LANDOWNERS , *ORGANIC compounds , *CARBON sequestration , *CLIMATE change mitigation - Abstract
The “4 per Thousand” initiative was launched at the 21st Conference of Parties (COP21) in December 2015 to address global climate change through the aspirational goal of increasing soil organic carbon (SOC) stock of the world to 40-cm depth by an average annual rate of 4%. Small landholders (SLHs), often faced with difficult bio-physical and socio-economic conditions, are the principal managers of soil in India. There are 117 million SLHs representing 85% of the total operational holdings, cultivating over 72 million ha of land, and meeting 50–60% of India's food requirement. The agricultural soils of SLHs are strongly depleted of SOC and nutrient reserves. Therefore, the challenge of feeding 1.7 billion people in India by 2050 will depend on increasing the current productivity levels by restoring the depleted soils of SLHs. According to our estimates, soils of SLHs currently contain 1370–1770 Tg C and, which can be increased to 2460–2650 Tg C by 2050 through large-scale adoption of best management practices (BMPs) including balanced application of nutrients, compost, agroforestry, and conservation agriculture. A wide spread adoption of these practices can enhance C sequestration by 70–130 Tg CO 2 e per annum and produce 410–440 million Mg of food grains accounting for 80–85% of the total requirement by 2050. In this paper we propose strategies for achieving the dual objectives of advancing food security, the “4 per Thousand” target and mitigating climate change in India. [ABSTRACT FROM AUTHOR]
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- 2018
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16. Trace organic contaminant (TOrC) mixtures in Minnesota littoral zones: Effects of on-site wastewater treatment system (OWTS) proximity and biological impact.
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Guyader, Meaghan E., Warren, Les D., Green, Emily, Bertram, Riley, Proudian, Andrew P., Kiesling, Richard L., Schoenfuss, Heiko L., and Higgins, Christopher P.
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WASTEWATER treatment , *SEWAGE purification , *NITROGEN , *BLOOD , *CLIMATE change mitigation - Abstract
On-site wastewater treatment systems (OWTSs) are an international wastewater management strategy for rural and semi-rural communities without access to centralized sewage treatment. These systems are a suspected source of trace organic contaminants (TOrCs) that may be responsible for endocrine disrupting effects to resident fish species in Minnesota Lakes. This study assessed localized porewater concentrations of TOrCs in near-shore environments across five Minnesota Lakes. Sampling sites were designated as either likely (HOME) or unlikely (REF) to receive OWTS discharges based on their proximity to shoreline households. Sampling sites also served as sunfish spawning habitats concurrently studied for biological impacts to resident adult males. Two-group hypothesis tests demonstrated significantly (p = .02) higher total TOrC concentrations in HOME (Mean = 841 ng/L) versus REF (Mean = 222 ng/L) sites. HOME sites also contained a wider suite of TOrC detections relative to REF sites. The distance to the nearest household (most proximal distance; MPD) negatively correlated (r = −0.62) with total TOrC concentrations. However, 2,4-D and DEET were major contributors to these total concentrations, suggesting that anthropogenic influence from households may not be exclusively attributed to OWTS discharges. Further, TOrC presence and elevated nitrogen concentrations in REF site porewater suggest additional, non-household TOrC discharges to these lakes. Significantly higher blood concentrations of vitellogenin (p = .03) and 11-ketotestosterone (p = .01) were observed in adult male sunfish captured from HOME versus REF sites. Comparisons between chemical and biological data indicate enhanced bioactive effects of co-contaminants. The findings from this study demonstrate multiple diffuse transport pathways contribute to the presence of biologically active TOrC mixtures in Minnesota Lakes, and mitigation efforts should consider minimizing residential inputs of chemicals associated with both outdoor and OWTS activity. [ABSTRACT FROM AUTHOR]
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- 2018
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17. Simulation of soil carbon efflux from an arable soil using the ECOSSE model: Need for an improved model evaluation framework?
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Flattery, Padraig, Fealy, Rowan, Fealy, Reamonn M., Lanigan, Gary, and Green, Stuart
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CARBON in soils , *CLIMATE change mitigation , *LAND management , *SOIL respiration , *BIOGEOCHEMISTRY - Abstract
Globally, it is estimated that ~ 1500 Pg C of organic carbon is stored in the top meter of terrestrial soils. This represents the largest terrestrial pool of carbon. Appropriate management of soils, to maintain or increase the soil carbon pool, represents a significant climate change mitigation opportunity. To achieve this, appropriate tools and models are required in order to more accurately estimate soil carbon fluxes with a view to informing and developing more effective land use management strategies. Central to this is the evaluation of models currently in use to estimate soil carbon emissions. In the present study, we evaluate the ECOSSE (Estimating Carbon in Organic Soils – Sequestration and Emissions) model which has its origins in both SUNDIAL and RothC and has been widely used globally to model soil CO 2 fluxes across different locations and land-use types on both organic and mineral soils. In contrast to previous studies, the model was found to poorly represent observed soil respiration at the study site, an arable cropland on mineral soil located in south-east Ireland. To isolate potential sources of error, the model was decomposed into its component rate equations or modifiers. This investigation highlighted a deficiency in the model simulated soil water, resulting in significant inhibition of the model simulated CO 2 flux relative to the observed data. When measured values of soil water at the site were employed, the model simulated soil respiration improved significantly (r 2 of 0.775 vs 0.154). This highlighted model deficiency remains to be evaluated at other sites; however, the research highlights the need for a more comprehensive evaluation of soil carbon models prior to their use in informing policy, particularly models which are employed at larger scales and for climate change projections. [ABSTRACT FROM AUTHOR]
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- 2018
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18. Low-carbon electricity production through the implementation of photovoltaic panels in rooftops in urban environments: A case study for three cities in Peru.
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Bazán, José, Rieradevall, Joan, Gabarrell, Xavier, and Vázquez-Rowe, Ian
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ELECTRIC power production , *PHOTOVOLTAIC power systems , *CLIMATE change mitigation , *GREENHOUSE gases ,URBAN ecology (Sociology) - Abstract
Urban environments in Latin America must begin decarbonizing their activities to avoid increasing greenhouse gases (GHGs) emissions rates due to their reliance on fossil fuel-based energy to support economic growth. In this context, cities in Latin America have high potential to convert sunlight into energy. Hence, the main objective of this study was to determine the potential of electricity self-sufficiency production and mitigation of GHG emissions in three medium-sized cities in Peru through the revalorization of underutilized rooftop areas in urban environments. Each city represented a distinct natural area of Peru: Pacific coast, Andean region and Amazon basin. More specifically, photovoltaic solar systems were the technology selected for implementation in these rooftop areas. Data on incident solar energy, temperature and energy consumption were collected. Thereafter, ArcGis10.3 was used to quantify the total usable area in the cities. A series of correction factors, including tilt, orientation or roof profiles were applied to attain an accurate value of usable area. Finally, Life Cycle Assessment was the methodology chosen to calculate the reduction of environmental impacts as compared to the current context of using electricity from the regional grids. Results showed that the cities assessed have the potential to obtain their entire current electricity demand for residential, commercial and public lighting purposes, augmenting energy security and resilience to intermittent natural disasters, with the support of decentralized storage systems. This approach would also translate into substantial reductions in terms of GHG emissions. Annual reductions in GHG emissions ranged from 112 ton CO 2 eq in the city of Ayacucho to over 523 kton CO 2 eq in Pucallpa, showing that cities in the Amazon basin would be the ones that benefit the most in terms of climate change mitigation. [ABSTRACT FROM AUTHOR]
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- 2018
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19. Organization environmental footprint applying a multi-regional input-output analysis: A case study of a wood parquet company in Spain.
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Martinez, Sara, Marchamalo, Miguel, and Alvarez, Sergio
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ECOLOGICAL impact , *INPUT-output analysis , *PARQUET floor industry , *WOOD products , *CLIMATE change mitigation , *INDUSTRY & the environment , *INDUSTRIES - Abstract
Wood has been presented as a carbon-neutral material capable of significantly contribute to climate change mitigation and has become an appealing option for the building sector. This paper presents the quantification of the organization environmental footprint of a wood parquet company. The multi-regional input-output (MRIO) database EXIOBASE was used with a further structural path analysis decomposition. The application of the proposed method quantifies 14 environmental impacts. Highly influential sectors and regions responsible for these impacts are assessed to propose efficient measures. For the parquet company studied, the highest impact category once normalized was ozone depletion and the dominant sector responsible for this impact was the chemical industry from Spain and China. The structural path decomposition related to ozone loss revealed that the indirect impacts embedded in the supply chain are higher than the direct impacts. It can be concluded that the assessment of the organizational environmental footprint can be carried out applying this well-structured and robust method. Its implementation will enable tracking of the environmental burdens through a company's supply chain at a global scale and provide information for the adoption of environmental strategies. [ABSTRACT FROM AUTHOR]
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- 2018
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20. Integrate carbon dynamic models in analyzing carbon sequestration impact of forest biomass harvest.
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Yan, Yan
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BIOMASS , *CLIMATE change mitigation , *CARBON sequestration , *FOREST plants , *LOGGING - Abstract
Biomass is an attractive natural energy resource for mitigating climate change. However, the loss of carbon sequestration as an ecosystem service due to biomass harvest has not been considered in previous studies. To assess the impact of biomass harvest on carbon sequestration, carbon dynamics in the forests and the atmosphere were integrated. The impact of forest biomass harvests on carbon sequestration was assessed based on the difference between carbon sequestration after harvest and carbon sequestration without harvest. A Chapman-Richards function and the forest vegetation simulator (FVS) were used to simulate the growth of a forest stand. The carbon dynamics in the atmosphere were simulated by the Bern2.5CC carbon cycle model. Characterization factors of the impact were calculated in three time horizons: 20-, 100- and 500-year. According to the simulations, postponement of harvest and low harvest intensity could prolong the compensation period. The annual impact on carbon sequestration was mostly negative over a short time and became positive in the end of compensation period. The highest characteristic factors of the impact on carbon sequestration were found in rotation length of 100 years with the time horizon of 500-year in the Chapman-Richards simulation and in the lowest harvest intensity with the time horizon of 500-year in the FVS simulation. Based on the results, increasing growth rate, postponing harvest, reducing harvest intensity and increasing length of time horizon could reduce the impact of forest harvest on carbon sequestration. The method proposed in this study is more proper to assess the impact on carbon sequestration, and it has much wider applications in forest management practice. [ABSTRACT FROM AUTHOR]
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- 2018
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21. Freshwater vulnerability under high end climate change. A pan-European assessment.
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Koutroulis, A.G., Papadimitriou, L.V., Grillakis, M.G., Tsanis, I.K., Wyser, K., and Betts, R.A.
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FRESHWATER habitat conservation , *CLIMATE change mitigation , *WATER security , *EUROPEAN integration , *HYDROLOGICAL surveys - Abstract
As freshwater availability is crucial for securing a sustainable, lower‑carbon future, there is a critical connection between water management and climate policies. Under a rapidly changing climate, it is more important than ever to estimate the degree of future water security. This is a challenging task as it depends on many different variables: the degree of warming and its consequent effects on hydrological resources, the water demand by different sectors, and the possible ameliorations or deteriorations of the effects due to climate change adaptation and mitigation strategies. A simple and transparent conceptual framework has been developed to assess the European vulnerability to freshwater stress under the present hydro-climatic and socioeconomic conditions, in comparison to projections of future vulnerability for different degrees of global warming (1.5 °C, 2 °C and 4 °C), under the high-rate warming scenario (RCP8.5). Different levels of adaptation to climate change are considered in the framework, by employing various relevant pathways of socioeconomic development. A spatially detailed pan-European map of vulnerability to freshwater shortage has been developed at the local administrative level, making this approach extremely useful for supporting regional level policymaking and implementation and strategic planning against future freshwater stress. [ABSTRACT FROM AUTHOR]
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- 2018
- Full Text
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22. Seagrass blue carbon dynamics in the Gulf of Mexico: Stocks, losses from anthropogenic disturbance, and gains through seagrass restoration.
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Thorhaug, Anitra, Poulos, Helen M., López-Portillo, Jorge, Ku, Timothy C.w., and Berlyn, Graeme P.
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SEAGRASS restoration , *ANTHROPOGENIC effects on nature , *CLIMATE change mitigation , *CARBON compounds ,ENVIRONMENTAL aspects - Abstract
Seagrasses comprise a substantive North American and Caribbean Sea blue carbon sink. Yet fine-scale estimates of seagrass carbon stocks, fluxes from anthropogenic disturbances, and potential gains in sedimentary carbon from seagrass restoration are lacking for most of the Western Hemisphere. To begin to fill this knowledge gap in the subtropics and tropics, we quantified organic carbon (C org ) stocks, losses, and gains from restorations at 8 previously-disturbed seagrass sites around the Gulf of Mexico (GoM) (n = 128 cores). Mean natural seagrass C org stocks were 25.7 ± 6.7 Mg C org ha − 1 around the GoM, while mean C org stocks at adjacent barren sites that had previously hosted seagrass were 17.8 Mg C org ha − 1 . Restored seagrass beds contained a mean of 38.7 ± 13.1 Mg C org ha − 1 . Mean C org losses differed by anthropogenic impact type, but averaged 20.98 ± 7.14 Mg C org ha − 1 . C org gains from seagrass restoration averaged 20.96 ± 8.59 Mg ha − 1 . These results, when combined with the similarity between natural and restored C org content, highlight the potential of seagrass restoration for mitigating seagrass C org losses from prior impact events. Our GoM basin-wide estimates of natural C org totaled ~ 36.4 Tg for the 947,327 ha for the USA-GoM. Including Mexico, the total basin contained an estimated 37.2–37.5 Tg C org . Regional US-GoM losses totaled 21.69 Tg C org . C org losses differed significantly among anthropogenic impacts. Yet, seagrass restoration appears to be an important climate change mitigation strategy that could be implemented elsewhere throughout the tropics and subtropics. [ABSTRACT FROM AUTHOR]
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- 2017
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23. Spatio-temporal variations in the areas suitable for the cultivation of rice and maize in China under future climate scenarios.
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Zhang, Yajie, Wang, Yanfen, and Niu, Haishan
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SPATIO-temporal variation , *HARVESTING , *RICE , *CORN harvesting , *CLIMATE change , *CLIMATE change mitigation - Abstract
Predictions of changes in the distribution of areas suitable for the cultivation of rice and maize in China under future climate change scenarios may provide scientific support for the optimization of crop production and measures to mitigate climate change. We conducted a spatial grid-based analysis using projections of future climate generated by the National Center for Atmospheric Research Community Climate System Model version 4 for two representative concentration pathway scenarios (RCP2.6 and RCP8.5), adopted by the fifth phase of the Coupled Model Intercomparison Project to study the areas suitable for the cultivation of rice and maize in China. We investigated the migration of the centers of gravity of the cultivation areas based on climatic and hydrological factors from 2021 to 2100. The results indicated that, under RCP2.6, the areas suitable for the cultivation of rice were located throughout China, except for on the Qinghai–Tibetan Plateau, while the areas suitable for the cultivation of maize were located in northern, southwestern, central, eastern, parts of northeastern and some northern parts of western China. The distributions of both crops under RCP2.6 showed little change over time. In contrast, the areas suitable for the cultivation of rice and maize under RCP8.5 shifted northward and expanded from northwestern to northern China, as a result of greater warming in northern China and the faster warming trend under RCP8.5. This scenario would require much stronger climate mitigation policies to maintain the stable development of agriculture and to slow down the future migration of crop cultivation areas in China. The distribution of areas suitable for the cultivation of rice and maize should be studied further to design appropriate adaptation strategies for dealing with future climate change. [ABSTRACT FROM AUTHOR]
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- 2017
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24. Benefits on public health from transport-related greenhouse gas mitigation policies in Southeastern European cities.
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Sarigiannis, D.A., Kontoroupis, P., Nikolaki, S., Gotti, A., Chapizanis, D., and Karakitsios, S.
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PUBLIC health , *GREENHOUSE gas mitigation , *CLIMATE change , *HEALTH impact assessment - Abstract
Climate change is a major environmental threat of our time. Cities have a significant impact on greenhouse gas emissions as most of the traffic, industry, commerce and more than 50% of world population is situated in urban areas. Southern Europe is a region that faces financial turmoil, enhanced migratory fluxes and climate change pressure. The case study of Thessaloniki is presented, one of the only two cities in Greece with established climate change action plans. The effects of feasible traffic policies in year 2020 are assessed and their potential health impact is compared to a business as usual scenario. Two types of measures are investigated: operation of underground rail in the city centre and changes in fleet composition. Potential co-benefits from reduced greenhouse gas emissions on public health by the year 2020 are computed utilizing state-of-the-art concentration response functions for PM x , NO 2 and C 6 H 6 . Results show significant environmental health and monetary co-benefits when the city metro is coupled with appropriate changes in the traffic composition. Monetary savings due to avoided mortality or leukaemia incidence corresponding to the reduction in PM 10 , PM 2.5, NO 2 and C 6 H 6 exposure will be 56.6, 45, 37.7 and 1.0 million Euros respectively. Promotion of ‘green’ transportation in the city (i.e. the wide use of electric vehicles), will provide monetary savings from the reduction in PM 10 , PM 2.5 , NO 2 and C 6 H 6 exposure up to 60.4, 49.1, 41.2 and 1.08 million Euros. Overall, it was shown that the respective GHG emission reduction policies resulted in clear co-benefits in terms of air quality improvement, public health protection and monetary loss mitigation. [ABSTRACT FROM AUTHOR]
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- 2017
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25. Haze, public health and mitigation measures in China: A review of the current evidence for further policy response.
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Gao, Jinghong, Woodward, Alistair, Vardoulakis, Sotiris, Kovats, Sari, Wilkinson, Paul, Li, Liping, Xu, Lei, Li, Jing, Yang, Jun, Cao, Lina, Liu, Xiaobo, Wu, Haixia, and Liu, Qiyong
- Subjects
- *
HAZE , *ECONOMIC development , *PUBLIC health , *AIR pollution , *CLIMATE change mitigation , *ATMOSPHERIC aerosols , *RESPIRATORY diseases - Abstract
With rapid economic development, China has been plagued by choking air pollution in recent years, and the frequent occurrence of haze episodes has caused widespread public concern. The purpose of this study is to describe the sources and formation of haze, summarize the mitigation measures in force, review the relationship between haze pollution and public health, and to discuss the challenges, potential research directions and policy options. Haze pollution has both natural and man-made causes, though it is anthropogenic sources that are the major contributors. Accumulation of air pollutants, secondary formation of aerosols, stagnant meteorological conditions, and trans-boundary transportation of pollutants are the principal causes driving the formation and evolution of haze. In China, haze includes gaseous pollutants and fine particles, of which PM 2.5 is the dominant component. Short and long-term exposure to haze pollution are associated with a range of negative health outcomes, including respiratory diseases, cardiovascular and cerebrovascular diseases, mental health problems, lung cancer and premature death. China has paid increasing attention to the improvement of air quality, and has introduced action plans and policies to tackle pollution, but many interventions have only temporary effects. There may be fierce resistance from industry groups and some government agencies, and often it is challenging to enforce relevant control measures and laws. We discuss the potential policy options for prevention, the need for wider public dialogue and the implications for scientific research. [ABSTRACT FROM AUTHOR]
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- 2017
- Full Text
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26. The trade-offs between milk production and soil organic carbon storage in dairy systems under different management and environmental factors.
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Kirschbaum, Miko U.F., Schipper, Louis A., Mudge, Paul L., Rutledge, Susanna, Puche, Nicolas J.B., and Campbell, David I.
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- *
ENVIRONMENTAL soil science , *CLIMATE change mitigation , *ORGANIC compound content of soils , *CARBON in soils , *MILK yield , *EVAPOTRANSPIRATION - Abstract
A possible agricultural climate change mitigation option is to increase the amount of soil organic carbon (SOC). Conversely, some factors might lead to inadvertent losses of SOC. Here, we explore the effect of various management options and environmental changes on SOC storage and milk production of dairy pastures in New Zealand. We used CenW 4.1, a process-based ecophysiological model, to run a range of scenarios to assess the effects of changes in management options, plant properties and environmental factors on SOC and milk production. We tested the model by using 2 years of observations of the exchanges of water and CO 2 measured with an eddy covariance system on a dairy farm in New Zealand's Waikato region. We obtained excellent agreement between the model and observations, especially for evapotranspiration and net photosynthesis. For the scenario analysis, we found that SOC could be increased through supplying supplemental feed, increasing fertiliser application, or increasing water availability through irrigation on very dry sites, but SOC decreased again for larger increases in water availability. Soil warming strongly reduced SOC. For other changes in key properties, such as changes in soil water-holding capacity and plant root:shoot ratios, SOC changes were often negatively correlated with changes in milk production. The work showed that changes in SOC were determined by the complex interplay between (1) changes in net primary production; (2) the carbon fraction taken off-site through grazing; (3) carbon allocation within the system between labile and stabilised SOC; and (4) changes in SOC decomposition rates. There is a particularly important trade-off between carbon either being removed by grazing or remaining on site and available for SOC formation. Changes in SOC cannot be fully understood unless all four factors are considered together in an overall assessment. [ABSTRACT FROM AUTHOR]
- Published
- 2017
- Full Text
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27. Dietary changes to mitigate climate change and benefit public health in China.
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Song, Guobao, Li, Mingjing, Fullana-i-Palmer, Pere, Williamson, Duncan, and Wang, Yixuan
- Subjects
- *
CLIMATE change mitigation , *DIETARY management , *NON-communicable diseases , *NUTRITIONAL value of meat , *GREENHOUSE gases & the environment , *PUBLIC health - Abstract
Dietary change presents an opportunity to meet the dual challenges of non-communicable diseases and the effects of climate change in China. Based on a food survey and reviewed data sets, we linked nutrient composition and carbon footprint data by aggregating 1950 types of foods into 28 groups. Nine dietary scenarios for both men and women were modeled based on the current diet and latest National Program for Food and Nutrition. Linear uncertainty optimization was used to produce diets meeting the Chinese Dietary Reference Intakes for adults aged 18–50 years while minimizing carbon footprints. The theoretical optimal diet reduced daily footprints by 46%, but this diet was unrealistic due to limited food diversity. Constrained by acceptability, the optimal diet reduced the daily carbon footprints by 7–28%, from 3495 to 2517–3252 g CO 2 e, for men and by 5–26%, from 3075 to 2280–2917 g CO 2 e, for women. Dietary changes for adults are capable of benefiting China in terms of the considerable footprint reduction of 53–222 Mt. CO 2 e year − 1 , when magnified based on the Chinese population, which is the largest worldwide. Seven of eight scenarios showed that reductions in meat consumption resulted in greater reductions in greenhouse gas emissions. However, dramatic reductions in meat consumption may produce smaller reductions in emissions, as the consumption of other ingredients increases to compensate for the nutrients in meat. A trade-off between poultry and other meats (beef, pork, and lamb) is usually observed, and rice, which is a popular food in China, was the largest contributor to carbon footprint reductions. Our findings suggest that changing diets for climate change mitigation and human health is possible in China, though the per capital mitigation potential is slight lower than that in developed economies of France, Spain, Sweden, and New Zealand. [ABSTRACT FROM AUTHOR]
- Published
- 2017
- Full Text
- View/download PDF
28. Blue carbon sinks in South Africa and the need for restoration to enhance carbon sequestration.
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Raw, J.L., Van Niekerk, L., Chauke, O., Mbatha, H., Riddin, T., and Adams, J.B.
- Published
- 2023
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29. Hydrological and thermal effects of hydropeaking on early life stages of salmonids: A modelling approach for implementing mitigation strategies.
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Casas-Mulet, Roser, Saltveit, Svein Jakob, and Alfredsen, Knut Tore
- Subjects
- *
HYDROLOGY , *CLIMATE change mitigation , *ELECTROOSMOTIC dewatering , *SALMON farming , *HYDROELECTRIC power plants - Abstract
Alterations in hydrological and thermal regimes can potentially affect salmonid early life stages development and survival. The dewatering of salmon spawning redds due to hydropeaking can lead to mortality in early life stages, with higher impact on the alevins as they have lower tolerance to dewatering than the eggs. Flow-related mitigation measures can reduce early life stage mortality. We present a set of modelling tools to assess impacts and mitigation options to minimise the risk of mortality in early life stages in hydropeaking rivers. We successfully modelled long-term hydrological and thermal alterations and consequences for development rates. We estimated the risk of early life stages mortality and assessed the cost-effectiveness of implementing three release-related mitigation options (A,B,C). The economic cost of mitigation was low and ranged between 0.7% and 2.6% of the annual hydropower production. Options reducing the flow during spawning (B and C) in addition to only release minimum flows during development (A) were considered more effective for egg and alevin survival. Options B and C were however constraint by water availability in the system for certain years, and therefore only option A was always feasible. The set of modelling tools used in this study were satisfactory and their applications can be useful especially in systems where little field data is available. Targeted measures built on well-informed modelling tools can be tested on their effectiveness to mitigate dewatering effects vs. the hydropower system capacity to release or conserve water for power production. Environmental flow releases targeting specific ecological objectives can provide better cost-effective options than conventional operational rules complying with general legislation. [ABSTRACT FROM AUTHOR]
- Published
- 2016
- Full Text
- View/download PDF
30. Extreme urban–rural temperatures in the coastal city of Turku, Finland: Quantification and visualization based on a generalized additive model.
- Author
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Hjort, Jan, Suomi, Juuso, and Käyhkö, Jukka
- Subjects
- *
RURAL-urban relations , *ATMOSPHERIC temperature , *CLIMATE change mitigation , *ENVIRONMENTAL health , *GEOSPATIAL data - Abstract
Fundamental knowledge on the determinants of air temperatures across spatial and temporal scales is essential in climate change mitigation and adaptation. Spatial-based statistical modelling provides an efficient approach for the analysis and prediction of air temperatures in human-modified environments at high spatial accuracy. The aim of the study was firstly, to analyse the environmental factors affecting extreme air temperature conditions in a coastal high-latitude city and secondly, to explore the applicability of generalized additive model (GAM) in the study of urban–rural temperatures. We utilized air temperature data from 50 permanent temperature logger stations and extensive geospatial environmental data on different scales from Turku, SW Finland. We selected five temperature situations (cases) and altogether 12 urban and natural explanatory variables for the analyses. The results displayed that (i) water bodies and topographical conditions were often more important than urban variables in controlling the spatial variability of extreme air temperatures, (ii) case specificity of the explanatory variables and their scales should be considered in the analyses and (iii) GAM was highly suitable in quantifying and visualizing the relations between urban–rural temperatures and environmental determinants at local scales. The results promote the use of GAMs in spatial-based statistical modelling of air temperature in future. [ABSTRACT FROM AUTHOR]
- Published
- 2016
- Full Text
- View/download PDF
31. Reconciling climate action with the need for biodiversity protection, restoration and rehabilitation.
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Gorman, Courtney E., Torsney, Andrew, Gaughran, Aoibheann, McKeon, Caroline M., Farrell, Catherine A., White, Cian, Donohue, Ian, Stout, Jane C., and Buckley, Yvonne M.
- Published
- 2023
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32. How to not trade water for carbon with tree planting in water-limited temperate biomes?
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Tölgyesi, Csaba, Hábenczyus, Alida Anna, Kelemen, András, Török, Péter, Valkó, Orsolya, Deák, Balázs, Erdős, László, Tóth, Benedek, Csikós, Nándor, and Bátori, Zoltán
- Published
- 2023
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33. Phosphorus control and dredging decrease methane emissions from shallow lakes.
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Nijman, Thomas P.A., Lemmens, Maxime, Lurling, Miquel, Kosten, Sarian, Welte, Cornelia, and Veraart, Annelies J.
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- 2022
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34. From hemp grown on carbon-vulnerable lands to long-lasting bio-based products: Uncovering trade-offs between overall environmental impacts, sequestration in soil, and dynamic influences on global temperature.
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Shen, Zhou, Tiruta-Barna, Ligia, and Hamelin, Lorie
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- 2022
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35. Restoring fish ecological quality in estuaries: Implication of interactive and cumulative effects among anthropogenic stressors.
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Teichert, Nils, Borja, Angel, Chust, Guillem, Uriarte, Ainhize, and Lepage, Mario
- Subjects
- *
FISH ecology , *ESTUARIES , *BIOLOGICAL monitoring , *RANDOM forest algorithms , *CLIMATE change mitigation ,EFFECT of stress on fishes - Abstract
Estuaries are subjected to multiple anthropogenic stressors, which have additive, antagonistic or synergistic effects. Current challenges include the use of large databases of biological monitoring surveys (e.g. the European Water Framework Directive) to help environmental managers prioritizing restoration measures. This study investigated the impact of nine stressor categories on the fish ecological status derived from 90 estuaries of the North East Atlantic countries. We used a random forest model to: 1) detect the dominant stressors and their non-linear effects; 2) evaluate the ecological benefits expected from reducing pressure from stressors; and 3) investigate the interactions among stressors. Results showed that largest restoration benefits were expected when mitigating water pollution and oxygen depletion. Non-additive effects represented half of pairwise interactions among stressors, and antagonisms were the most common. Dredged sediments, flow changes and oxygen depletion were predominantly implicated in non-additive interactions, whereas the remainder stressors often showed additive impacts. The prevalence of interactive impacts reflects a complex scenario for estuaries management; hence, we proposed a step-by-step restoration scheme focusing on the mitigation of stressors providing the maximum of restoration benefits under a multi-stress context. [ABSTRACT FROM AUTHOR]
- Published
- 2016
- Full Text
- View/download PDF
36. Linking climate change mitigation and coastal eutrophication management through biogas technology: Evidence from a new Danish bioenergy concept.
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Kaspersen, Bjarke Stoltze, Christensen, Thomas Budde, Fredenslund, Anders Michael, Møller, Henrik Bjarne, Butts, Michael Brian, Jensen, Niels H., and Kjaer, Tyge
- Subjects
- *
EUTROPHICATION , *CLIMATE change , *BIOGAS , *BIOMASS energy , *GROUNDWATER , *WATER quality , *ENVIRONMENTAL policy - Abstract
The interest in sustainable bioenergy solutions has gained great importance in Europe due to the need to reduce GHG emissions and to meet environmental policy targets, not least for the protection of groundwater and surface water quality. In the Municipality of Solrød in Denmark, a novel bioenergy concept for anaerobic co-digestion of food industry residues, manure and beach-cast seaweed has been developed and tested in order to quantify the potential for synergies between climate change mitigation and coastal eutrophication management in the Køge Bay catchment. The biogas plant, currently under construction, was designed to handle an annual input of up to 200,000 t of biomass based on four main fractions: pectin wastes, carrageenan wastes, manure and beach-cast seaweed. This paper describes how this bioenergy concept can contribute to strengthening the linkages between climate change mitigation strategies and Water Framework Directive (WFD) action planning. Our assessments of the projected biogas plant indicate an annual reduction of GHG emissions of approx. 40,000 t CO 2 equivalents, corresponding to approx. 1/3 of current total GHG emissions in the Municipality of Solrød. In addition, nitrogen and phosphorous loads to Køge Bay are estimated to be reduced by approx. 63 t yr. − 1 and 9 t yr. − 1 , respectively, contributing to the achievement of more than 70% of the nutrient reduction target set for Køge Bay in the first WFD river basin management plan. This study shows that anaerobic co-digestion of the specific food industry residues, pig manure and beach-cast seaweed is feasible and that there is a very significant, cost-effective GHG and nutrient loading mitigation potential for this bioenergy concept. Our research demonstrates how an integrated planning process where considerations about the total environment are integrated into the design and decision processes can support the development of this kind of holistic bioenergy solutions. [ABSTRACT FROM AUTHOR]
- Published
- 2016
- Full Text
- View/download PDF
37. Future land-use competition constrains natural climate solutions.
- Author
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Zheng, Qiming, Siman, Kelly, Zeng, Yiwen, Teo, Hoong Chen, Sarira, Tasya Vadya, Sreekar, Rachakonda, and Koh, Lian Pin
- Published
- 2022
- Full Text
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38. Future land-use competition constrains natural climate solutions.
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Zheng, Qiming, Siman, Kelly, Zeng, Yiwen, Teo, Hoong Chen, Sarira, Tasya Vadya, Sreekar, Rachakonda, and Koh, Lian Pin
- Published
- 2022
- Full Text
- View/download PDF
39. Quantification of blue carbon stocks associated with Posidonia oceanica seagrass meadows in Corsica (NW Mediterranean).
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Monnier, Briac, Pergent, Gérard, Mateo, Miguel Ángel, Clabaut, Philippe, and Pergent-Martini, Christine
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- 2022
- Full Text
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40. Estimating greenhouse gas emissions of European cities — Modeling emissions with only one spatial and one socioeconomic variable.
- Author
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Baur, Albert H., Lauf, Steffen, Förster, Michael, and Kleinschmit, Birgit
- Subjects
- *
GREENHOUSE gas mitigation , *SOCIOECONOMIC factors , *ENVIRONMENTAL policy , *CLIMATE change - Abstract
Substantive and concerted action is needed to mitigate climate change. However, international negotiations struggle to adopt ambitious legislation and to anticipate more climate-friendly developments. Thus, stronger actions are needed from other players. Cities, being greenhouse gas emission centers, play a key role in promoting the climate change mitigation movement by becoming hubs for smart and low-carbon lifestyles. In this context, a stronger linkage between greenhouse gas emissions and urban development and policy-making seems promising. Therefore, simple approaches are needed to objectively identify crucial emission drivers for deriving appropriate emission reduction strategies. In analyzing 44 European cities, the authors investigate possible socioeconomic and spatial determinants of urban greenhouse gas emissions. Multiple statistical analyses reveal that the average household size and the edge density of discontinuous dense urban fabric explain up to 86% of the total variance of greenhouse gas emissions of EU cities (when controlled for varying electricity carbon intensities). Finally, based on these findings, a multiple regression model is presented to determine greenhouse gas emissions. It is independently evaluated with ten further EU cities. The reliance on only two indicators shows that the model can be easily applied in addressing important greenhouse gas emission sources of European urbanites, when varying power generations are considered. This knowledge can help cities develop adequate climate change mitigation strategies and promote respective policies on the EU or the regional level. The results can further be used to derive first estimates of urban greenhouse gas emissions, if no other analyses are available. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
- View/download PDF
41. Biochar application during reforestation alters species present and soil chemistry.
- Author
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Drake, J.A., Carrucan, A., Jackson, W.R., Cavagnaro, T.R., and Patti, A.F.
- Subjects
- *
BIOCHAR , *REFORESTATION , *SOIL chemistry , *LANDSCAPES , *CLIMATE change , *CARBON sequestration - Abstract
Reforestation of landscapes is being used as a method for tackling climate change through carbon sequestration and land restoration, as well as increasing biodiversity and improving the provision of ecosystem services. The success of reforestation activities can be reduced by adverse field conditions, including those that reduce germination and survival of plants. One method for improving success is biochar addition to soil, which is not only known to improve soil carbon sequestration, but is also known to improve growth, health, germination and survival of plants. In this study, biochar was applied to soil at rates of 0, 1, 3 and 6 t ha − 1 along with a direct-seed forest species mix at three sites in western Victoria, Australia. Changes in soil chemistry, including total carbon, and germination and survival of species were measured over an 18 month period. Biochar was found to significantly increase total carbon by up to 15.6% on soils low in carbon, as well as alter electrical conductivity, Colwell phosphorous and nitrate- and ammonium-nitrogen. Biochar also increased the number of species present, and stem counts of Eucalyptus species whilst decreasing stem counts of Acacia species. Biochar has the potential to positively benefit reforestation activities, but site specific and plant–soil–biochar responses require targeted research. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
- View/download PDF
42. Environmental potentials of policy instruments to mitigate nutrient emissions in Chinese livestock production.
- Author
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Zheng, Chaohui, Liu, Yi, Bluemling, Bettina, Mol, Arthur P.J., and Chen, Jining
- Subjects
- *
ENVIRONMENTAL impact analysis , *ENVIRONMENTAL policy , *CLIMATE change mitigation , *EMISSIONS (Air pollution) , *LIVESTOCK , *SIMULATION methods & models - Abstract
To minimize negative environmental impact of livestock production, policy-makers face a challenge to design and implement more effective policy instruments for livestock farmers at different scales. This research builds an assessment framework on the basis of an agent-based model, named ANEM, to explore nutrient mitigation potentials of five policy instruments, using pig production in Zhongjiang county, southwest China, as the empirical filling. The effects of different policy scenarios are simulated and compared using four indicators and differentiating between small, medium and large scale pig farms. Technology standards, biogas subsidies and information provisioning prove to be the most effective policies, while pollution fees and manure markets fail to environmentally improve manure management in pig livestock farming. Medium-scale farms are the more relevant scale category for a more environmentally sound development of Chinese livestock production. A number of policy recommendations are formulated as conclusion, as well as some limitations and prospects of the simulations are discussed. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
- View/download PDF
43. Local mortality impacts due to future air pollution under climate change scenarios.
- Author
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Ingole, Vijendra, Dimitrova, Asya, Sampedro, Jon, Sacoor, Charfudin, Acacio, Sozinho, Juvekar, Sanjay, Roy, Sudipto, Moraga, Paula, Basagaña, Xavier, Ballester, Joan, Antó, Josep M., and Tonne, Cathryn
- Published
- 2022
- Full Text
- View/download PDF
44. Interactive impacts of climate change and agricultural management on soil organic carbon sequestration potential of cropland in China over the coming decades.
- Author
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Wang, Yicheng, Tao, Fulu, Chen, Yi, and Yin, Lichang
- Published
- 2022
- Full Text
- View/download PDF
45. Biochar and its manure-based feedstock have divergent effects on soil organic carbon and greenhouse gas emissions in croplands.
- Author
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Gross, Cole D., Bork, Edward W., Carlyle, Cameron N., and Chang, Scott X.
- Published
- 2022
- Full Text
- View/download PDF
46. National scale predictions of contemporary and future blue carbon storage.
- Author
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Young, Mary A., Serrano, Oscar, Macreadie, Peter I., Lovelock, Catherine E., Carnell, Paul, and Ierodiaconou, Daniel
- Published
- 2021
- Full Text
- View/download PDF
47. Escalation effect of fossil-based CO2 emissions improves green energy innovation.
- Author
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Sarkodie, Samuel Asumadu and Owusu, Phebe Asantewaa
- Published
- 2021
- Full Text
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48. The impacts of degradation, deforestation and restoration on mangrove ecosystem carbon stocks across Cambodia.
- Author
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Sharma, Sahadev, MacKenzie, Richard A., Tieng, Thida, Soben, Kim, Tulyasuwan, Natcha, Resanond, Amomwan, Blate, Geoffrey, and Litton, Creighton M.
- Abstract
Our results concluded, that deforestation and degradation results in significant losses of TEC stocks from mangroves. While the prevention of deforestation and degradation is the most effective strategy for climate change mitigation and adaptation, it appears that restoration results in mangroves that can continue to combat climate change after 25–30 years. • Deforestation reduced total ecosystem carbon (TEC) stocks of intact mangroves by 60%. • TEC stocks from degraded mangroves forests did not differ from intact forests. • TEC stocks from 25-year-old restored mangroves were similar to intact mangroves. • A gridded sampling approach effectively captured TEC variability across an entire country. Mangrove forest conservation can help reduce global C emissions. Despite this benefit to climate change mitigation and adaptation, mangrove forests are being deforested or degraded at an alarming rate, though restoration efforts may offset these losses. The impacts of deforestation to C stocks are relatively intuitive and result in significant decreases in C stocks. It remains unclear how degradation from selective harvesting of trees affects C stocks or how effective restoration efforts are at restoring C stocks. Furthermore, total ecosystem C (TEC) stocks of pristine mangroves can significantly vary spatially. To address these issues, we conducted an intensive, national assessment of mangrove forests across Cambodia using a grid approach to: 1) examine how land use land cover (i.e., pristine, deforested, degraded, and restored forests) impacts TEC stocks, and 2) how TEC stocks vary spatially across the country. TEC stocks from deforested mangroves were always lower than pristine forests, resulting in an overall loss of 60% C (480 Mg C ha−1). However, TEC stocks from degraded and 25-year-old restored mangroves forests did not differ from pristine forests. Mean TEC in mangroves was 784.7 ± 30.1 Mg C ha−1, decreasing from 957.2 ± 32.8 Mg C ha−1 in the northern region to 628.9 ± 33.1 Mg C ha−1 in the central region to 386.2 ± 19.1 Mg C ha−1 in the southern region of Cambodia. Intensive sampling in mangroves across Cambodia verified impacts of deforestation reported elsewhere, revealed the lack of degradation impacts on TEC stocks, and demonstrated the effectiveness of restoration on TEC stocks after only 25 years. Our gridded sampling approach was able to capture spatial variability across Cambodia and provide a more realistic TEC stock information that can be used for national reporting or participation in C markets. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
49. Evaluating natural experiments to measure the co-benefits of urban policy interventions to reduce carbon emissions in New Zealand.
- Author
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Howden-Chapman, Philippa, Keall, Michael, Whitwell, Kate, and Chapman, Ralph
- Abstract
• Finding effective policies to address SDGs including climate action is urgent. • We consider and evaluate four policies as natural experiments. • Each experiment has useful conclusions about important policy co-benefits. • Together they illustrate the value and diversity of natural experiments for policy. Finding effective policy interventions for addressing the Sustainable Development Goals, such as reducing carbon emissions (SDG 13), which can also enhance good health and wellbeing (SDG 3), is urgent. Many promising interactions occur between sustainable cities and communities (SDG 11), clean water and sanitation (SDG 6) and affordable and clean energy (SDG 7), which sit at the centre of integrated urban planning and regeneration. In this paper, we consider the framing and findings of four policies we have evaluated as natural experiments, all of which have important co-benefits, which were not always the focus of the initial policies. These policies are: the installation of cycleways and walkways in existing suburbs; a central government measure to recentralise employment after the 2011 Christchurch earthquakes; the streamlining of housing developments by reducing land-use regulation; and ongoing changes of policy about public housing investment. We show that having a clear understanding of the benefits of increased physical activity for health, for example, could accelerate the reduction of carbon emissions. Also, decisions about infrastructure, housing and job locations can generate health and environmental gains if supported by broader public transport investments. Cycling and walking are also more likely to substitute for short habitual car trips. Similarly, measuring the co-benefits of differential residential models, relating to land-use and renewable energy, provides a framework that can facilitate learning from policy interventions, enabling wider and potentially more rapid generalisation of policies, including those for climate change mitigation. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
50. Agricultural development addresses food loss and waste while reducing greenhouse gas emissions.
- Author
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Galford, Gillian L., Peña, Olivia, Sullivan, Amanda K., Nash, Julie, Gurwick, Noel, Pirolli, Gillian, Richards, Meryl, White, Julianna, and Wollenberg, Eva
- Abstract
Unlabelled Image • We studied 13 international development projects addressing Food Loss and Waste (FLW). • A wide variety of interventions achieved substantial reductions in FLW. • Greenhouse gas emissions per unit production decreased for many food products. • Targeting FLW may also lower greenhouse gas emissions from food production. • Reduced FLW and lowered emissions could be a win-win for international development. Food loss and waste (FLW) reduce food available for consumption and increase the environmental burden of production. Reducing FLW increases agricultural and value-chain productivity and may reduce greenhouse gas emissions associated with feeding the global population. Although studies of interventions that reduce FLW exist, almost no research systematically investigates FLW interventions across multiple value chains or countries, most likely due to challenges in collecting and synthesizing data and estimates, let alone estimating greenhouse gas emissions. Our research team investigated changes in FLW in projects supported by the United States Agency for International Development 's (USAID) global hunger and food security initiative, Feed the Future. This was a unique opportunity to conduct ex-ante estimates of the impacts of FLW interventions across 20 value chains in 12 countries, based on project documents and interviews with USAID and project staff. This paper describes specific interventions in each value chain and country context, providing insight to interventions that decrease FLW at multiple points along food value chains, from upstream producer-dominated stages to downstream consumer-dominated stages. Amongst the sub-sectors studied, FLW interventions directed at extensive dairy systems could decrease FLW by 4–10%, providing meaningful greenhouse gas mitigation, since these systems are both emission-intensive and experience high FLW. More modest emissions reductions were found for other key agricultural products, including maize, rice, vegetables, fruits and market goods. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
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