scholarly journals A strategy for seed management with climate change

2009 ◽  
Vol 85 (1) ◽  
pp. 39-42 ◽  
Author(s):  
B.S.P. Wang ◽  
E K Morgenstern
Keyword(s):  
Climate Change ◽  
Management Strategy ◽  
Seed Source ◽  
Seedling Production ◽  
Key Words Adaptation ◽  
Physiological Quality ◽  
Seed Management ◽  
Species Adaptability ◽  
The Impact ◽  
And Storage

While climate change has been generally accepted by the forestry community, we are still searching for ways and means to alleviate its impact. We still have to collect seeds, for example, to support continued reforestation programs. To provide some guidance for meeting the changing environments, we felt it is important to review the current seed management strategy, discuss species adaptability and seed source as well as collection, handling, germination, treatment and storage. Further, we give recommendations to minimize the impact of climate change. Key words: adaptation, seed source, collection, handling, storage, dormancy treatment, germination, genetic and physiological quality, seedling production

scholarly journals Competing roles of rising CO<sub>2</sub> and climate change in the contemporary European carbon balance

2007 ◽  
Vol 4 (4) ◽  
pp. 2385-2405 ◽  
Author(s):  
R. Harrison ◽  
C. Jones
Keyword(s):  
Climate Change ◽  
Land Surface ◽  
Carbon Balance ◽  
Atmospheric Co2 ◽  
Natural Ecosystems ◽  
Climate Effect ◽  
Carbon Cycle Model ◽  
Land Use And Management ◽  
The Impact ◽  
And Storage

Abstract. Natural ecosystems respond to, and may affect climate change through uptake and storage of atmospheric CO2. Here we use the land-surface and carbon cycle model JULES to simulate the contemporary European carbon balance and its sensitivity to rising CO2 and changes in climate. We find that the impact of climate change is to decrease the ability of Europe to store carbon by about 175 TgC yr−1. In contrast, the effect of rising atmospheric CO2 has been to stimulate increased uptake and storage. The CO2 effect is currently dominant leading to a net increase of around 150 TgC yr−1. Our simulations do not at present include other important factors such as land use and management, the effects of forest age classes and nitrogen deposition. There seems to be an emerging consensus that changes in climate will weaken the European land-surface's ability to take up and store carbon. It is likely that this effect is happening at the present and will continue even more strongly in the future as climate continues to change. Although CO2 enhanced growth currently exceeds the climate effect, this may not continue indefinitely. Understanding this balance and its implications for mitigation policies is becoming increasingly important.

scholarly journals Environmental assessment of amending the Amager Bakke incineration plant in Copenhagen with carbon capture and storage

2021 ◽  
pp. 0734242X2110481
Author(s):  
V. Bisinella ◽  
J. Nedenskov ◽  
Christian Riber ◽  
Tore Hulgaard ◽  
Thomas H. Christensen
Keyword(s):  
Climate Change ◽  
Carbon Capture ◽  
Carbon Capture And Storage ◽  
Climate Change Impacts ◽  
Waste Incineration ◽  
Heat Output ◽  
Net Energy ◽  
District Heating System ◽  
The Impact ◽  
And Storage

Amending municipal solid waste incineration with carbon capture and storage (CCS) is a new approach that can reduce the climate change impacts of waste incineration. This study provides a detailed analysis of the consequences of amending the new Amager Bakke incinerator in Copenhagen (capacity: 600,000 tonnes waste per year) with CCS as a post-combustion technology. Emphasis is on the changes in the energy flows and outputs as well as the environmental performance of the plant; the latter is assessed by life cycle assessment. Amending Amager Bakke with CCS of the chosen configuration reduces the electricity output by 50% due to steam use by the capture unit, but introducing post-capture flue gas condensation increases the heat output utilized in the Copenhagen district heating system by 20%. Thus, the overall net energy efficiency is not affected. The CCS amendment reduces the fossil CO2 emissions to 40 kg CO2 per tonne of incinerated waste and stores 530 kg biogenic CO2 per tonne of incinerated waste. Potential developments in the composition of the residual waste incinerated or in the energy systems that Amager Bakke interacts with, do not question the benefits of the CCS amendment. In terms of climate change impacts, considering different waste composition and energy system scenarios, introducing CCS reduces in average the impact of Amager Bakke by 850 kg CO2-equivalents per tonne of incinerated waste. CCS increases the environmental impacts in other categories, but not in the same order of magnitude as the savings introduced within climate change.

scholarly journals Competing roles of rising CO<sub>2</sub> and climate change in the contemporary European carbon balance

2008 ◽  
Vol 5 (1) ◽  
pp. 1-10 ◽  
Author(s):  
R. G. Harrison ◽  
C. D. Jones ◽  
J. K. Hughes
Keyword(s):  
Climate Change ◽  
Land Surface ◽  
Carbon Balance ◽  
Atmospheric Co2 ◽  
Natural Ecosystems ◽  
Age Classes ◽  
Carbon Cycle Model ◽  
Land Use And Management ◽  
The Impact ◽  
And Storage

Abstract. Natural ecosystems respond to, and may affect climate change through uptake and storage of atmospheric CO2. Here we use the land-surface and carbon cycle model JULES to simulate the contemporary European carbon balance and its sensitivity to rising CO2 and changes in climate. We find that the impact of climate change is to decrease the ability of Europe to store carbon by 97 TgC yr−1. In contrast, the effect of rising atmospheric CO2 has been to stimulate increased uptake and storage. The CO2 effect is currently dominant leading to a net increase of 114 TgC yr−1. Our simulations do not at present include other important factors such as land use and management, the effects of forest age classes and nitrogen deposition. Understanding this balance and its implications for mitigation policies is becoming increasingly important.

Could Climate Change Limit Water Availability for Coal-Fired Electricity Generation with Carbon Capture and Storage? A UK Case Study

2012 ◽  
Vol 23 (2-3) ◽  
pp. 265-282 ◽  
Author(s):  
Meleesa Naughton ◽  
Richard C. Darton ◽  
Fai Fung
Keyword(s):  
Climate Change ◽  
Water Availability ◽  
Electricity Generation ◽  
Carbon Capture ◽  
Carbon Capture And Storage ◽  
Limiting Factor ◽  
Regulatory Constraints ◽  
Historical Factors ◽  
The Impact ◽  
And Storage

Anticipatory adaptation to climate change requires the impact of future changes in water availability to be investigated prior to deployment of low-carbon electricity generation infrastructure. Here we investigate whether climate change may limit water availability for a proposed coal-fired (CF) power station site with Carbon Capture and Storage (CCS). We find that climate change may pose constraints on water availability, and that regulatory constraints on water abstraction licences may affect CF electricity generation with CCS. The regulatory constraints associated with the current misalignment of water and energy policies are explored through interviews with stakeholders. We find that water availability has not been identified as a potential limiting factor for future CF electricity generation with CCS and that current UK energy policy, combined with economic and historical factors, may exacerbate the water demand of CF electricity generation with CCS. These issues need to be addressed prior to deployment of CCS technology.

HOW CLIMATE CHANGE CAN INFLUENCE THE AGRICULTURE IN UKRAINE: A REVIEW

2020 ◽  
Author(s):  
N. Maidanovych ◽  
Keyword(s):  
Climate Change ◽  
Crop Yields ◽  
Soil Surface ◽  
Winter Period ◽  
Negative Consequences ◽  
Resource Saving ◽  
Impact Of Climate Change ◽  
Positive Effects ◽  
Average Annual Temperature ◽  
The Impact

The purpose of this work is to review and analyze the main results of modern research on the impact of climate change on the agro-sphere of Ukraine. Results. Analysis of research has shown that the effects of climate change on the agro-sphere are already being felt today and will continue in the future. The observed climate changes in recent decades have already significantly affected the shift in the northern direction of all agro-climatic zones of Europe, including Ukraine. From the point of view of productivity of the agro-sphere of Ukraine, climate change will have both positive and negative consequences. The positives include: improving the conditions of formation and reducing the harvesting time of crop yields; the possibility of effective introduction of late varieties (hybrids), which require more thermal resources; improving the conditions for overwintering crops; increase the efficiency of fertilizer application. Model estimates of the impact of climate change on wheat yields in Ukraine mainly indicate the positive effects of global warming on yields in the medium term, but with an increase in the average annual temperature by 2 ° C above normal, grain yields are expected to decrease. The negative consequences of the impact of climate change on the agrosphere include: increased drought during the growing season; acceleration of humus decomposition in soils; deterioration of soil moisture in the southern regions; deterioration of grain quality and failure to ensure full vernalization of grain; increase in the number of pests, the spread of pathogens of plants and weeds due to favorable conditions for their overwintering; increase in wind and water erosion of the soil caused by an increase in droughts and extreme rainfall; increasing risks of freezing of winter crops due to lack of stable snow cover. Conclusions. Resource-saving agricultural technologies are of particular importance in the context of climate change. They include technologies such as no-till, strip-till, ridge-till, which make it possible to partially store and accumulate mulch on the soil surface, reduce the speed of the surface layer of air and contribute to better preservation of moisture accumulated during the autumn-winter period. And in determining the most effective ways and mechanisms to reduce weather risks for Ukrainian farmers, it is necessary to take into account the world practice of climate-smart technologies.

A MODELING SYSTEM FOR CLIMATE CHANGE RISK ASSESSMENT, MANAGEMENT AND HEDGING IN COASTAL AREAS

2017 ◽  
Author(s):  
Sergei Soldatenko ◽  
Sergei Soldatenko ◽  
Genrikh Alekseev ◽  
Genrikh Alekseev ◽  
Alexander Danilov ◽  
...  
Keyword(s):  
Climate Change ◽  
Risk Assessment ◽  
Coastal Areas ◽  
Mitigation Strategies ◽  
System Structure ◽  
The Arctic ◽  
Risk Modeling ◽  
Wide Range ◽  
Adverse Weather ◽  
The Impact

Every aspect of human operations faces a wide range of risks, some of which can cause serious consequences. By the start of 21st century, mankind has recognized a new class of risks posed by climate change. It is obvious, that the global climate is changing, and will continue to change, in ways that affect the planning and day to day operations of businesses, government agencies and other organizations and institutions. The manifestations of climate change include but not limited to rising sea levels, increasing temperature, flooding, melting polar sea ice, adverse weather events (e.g. heatwaves, drought, and storms) and a rise in related problems (e.g. health and environmental). Assessing and managing climate risks represent one of the most challenging issues of today and for the future. The purpose of the risk modeling system discussed in this paper is to provide a framework and methodology to quantify risks caused by climate change, to facilitate estimates of the impact of climate change on various spheres of human activities and to compare eventual adaptation and risk mitigation strategies. The system integrates both physical climate system and economic models together with knowledge-based subsystem, which can help support proactive risk management. System structure and its main components are considered. Special attention is paid to climate risk assessment, management and hedging in the Arctic coastal areas.

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