TO THE ISSUE OF THE DEVELOPMENT OF INTERNATIONAL LEGAL COOPERATION OF STATES IN THE FIELD OF THE RATIONAL USE AND PROTECTION OF RESOURCES OF THE WORLD OCEAN

2020 ◽  
Vol 16 (1) ◽  
pp. 154-161
Author(s):  
Михаил Елизаров
Keyword(s):  
Climate Change ◽  
World Ocean ◽  
Future Generations ◽  
Global Level ◽  
Legal Basis ◽  
Rational Use ◽  
Global Consensus ◽  
The World ◽  
Acute Challenge

Over the decades, attempts were made to elaborate a legally binding single document on ocean resource management that would be acceptable to all countries. The culmination of this process was the adoption of the 1982 UN Convention on the law of sea. Since its entry into force, the Convention has become an important legal basis for ensuring the rational use of the world's ocean resources and their long-term conservation on behalf of future generations. At the same time, there remains the very acute challenge associated with finding a balance between reaching a global consensus on issues that are common to all and identifying topics that can be addressed and resolved by leaders at the global level. As humankind continues to postpone the adoption of urgent measures to prevent the effects of climate change, the environment deteriorates, while measures to mitigate these effects get more expensive and complex.

Non-linear, long-term evolution of sea surface temperature across the World Ocean

2020 ◽  
Author(s):  
Benjamin Martinez-Lopez
Keyword(s):  
Climate Change ◽  
Surface Temperature ◽  
Sea Surface Temperature ◽  
World Ocean ◽  
Sea Surface ◽  
Second Derivative ◽  
Term Evolution ◽  
The World ◽  
Non Linear

<p>Sea surface temperature (SST) is the only oceanic parameter on which depend heat fluxes between ocean and atmosphere and, therefore, SST is one of the key factors that influence climate and its variability. Over the twentieth century, SSTs have significantly increased around the global ocean, warming that has been attributed to anthropogenic climate change, although it is not yet clear how much of it is related to natural causes and how much is due to human activities. A considerable part of available literature regarding climate change has been built based on the global or hemispheric analysis of surface temperature trends. There are, however, some key open questions that need to be answered and for this task estimates of long-term SST trend patterns represent a source of valuable information. Unfortunately, long-term SST trend patterns have large uncertainties and although SST constitutes one of the most-measured ocean variables of our historic records, their poor spatial and temporal sampling, as well as inhomogeneous measurements technics, hinder an accurate determination of long-term SST trends, which increases their uncertainty and, therefore, limit their physical interpretation as well as their use in the verification of climate simulations.<br>Most of the long-term SST trend patterns have been built using linear techniques, which are very usefull when they are used to extract information of measurements satisfying two key assumptions: linearity and stationarity. The global warming resulting of our economic activities, however, affect the state of the World Ocean and the atmosphere inducing changes in the climate that may result in oscillatory modes of variability of different frequencies, which may undergo non-stationary and non-linear evolutions. In this work, we construct long-term SST trend patterns by using non-linear techniques to extract non-linear, long-term trends in each grid-point of two available global SST datasets: the National Oceanic and Atmospheric Administration Extended Reconstructed SST (ERSST) and from the Hadley Centre sea ice and SST (HadISST). The used non-linear technique makes a good job even if the SST data are non-linear and non-stationary. Additionally, the nonlinearity of the extracted trends allows the use of the first and second derivative to get more information about the global, long-term evolution of the SST fields, favoring thus a deeper understanding and interpretation of the observed changes in SST. Particularly, our results clearly show, in both ERSST and HadISST datasets, the non-uniform warming observed in the tropical Pacific, which seems to be related to the enhanced vertical heat flux in the eastern equatorial Pacific and the strengthening of the warm pool in the western Pacific. By using the second derivative of the nonlinear SST trends, emerges an interesting pattern delimiting several zones in the Pacific Ocean which have been responded in a different way to the impose warming of the last century.</p>

Configurations to Superior Environmental Innovation Strategy: A Both–And Approach

2021 ◽  
pp. 108602662110316
Author(s):  
Tiziana Russo-Spena ◽  
Nadia Di Paola ◽  
Aidan O’Driscoll
Keyword(s):  
Climate Change ◽  
Value Chain ◽  
Critical Role ◽  
Well Being ◽  
Point Of View ◽  
Future Generations ◽  
Innovation Strategy ◽  
Environmental Innovation ◽  
Data Set

An effective climate change action involves the critical role that companies must play in assuring the long-term human and social well-being of future generations. In our study, we offer a more holistic, inclusive, both–and approach to the challenge of environmental innovation (EI) that uses a novel methodology to identify relevant configurations for firms engaging in a superior EI strategy. A conceptual framework is proposed that identifies six sets of driving characteristics of EI and two sets of beneficial outcomes, all inherently tensional. Our analysis utilizes a complementary rather than an oppositional point of view. A data set of 65 companies in the ICT value chain is analyzed via fuzzy-set comparative analysis (fsQCA) and a post-QCA procedure. The results reveal that achieving a superior EI strategy is possible in several scenarios. Specifically, after close examination, two main configuration groups emerge, referred to as technological environmental innovators and organizational environmental innovators.

Climate Change, Humanitarian Risks, and Social-Political (In)stability Along the Gulf of Aden: Expert Elicitation for the Case of Somalia and Yemen

2021 ◽  
Author(s):  
Laurent Lambert ◽  
Mahmood Almehdhar ◽  
Mustafa Haji
Keyword(s):  
Climate Change ◽  
Tropical Cyclones ◽  
Political Stability ◽  
Coastal Areas ◽  
Expert Elicitation ◽  
Coastal Communities ◽  
Gulf Of Aden ◽  
The World ◽  
Environmental Events

<p><strong>Abstract</strong>: Changes in the global oceanic system have already negatively affected the world’s marine life and the livelihoods of many coastal communities across the world, including in the Middle East' and Eastern Africa's Least Developed Countries (LDCs). Coastal communities in Somalia and Yemen for instance, have been particularly affected by extreme environmental events (EEEs), with an increase in the frequency of tropical cyclones over the past 20 years. Using expert elicitation as a method to generate data to assess and quantify a specific issue in the absence of sufficient and/or reliable data, the authors interviewed selected specialists in or from Somalia and Yemen, from diverse fields of expertise related to climate change, extreme environmental events, disaster risk reduction, and humanitarian affairs. Ten experts followed the elicitation protocol and answered a specific series of questions in order to better quantify the expectable mid-to-long-term climatic and humanitarian levels of risks, impacts, and consequences that climate change and related issues (e.g., sea-level rise, tropical cyclones, and sea surge) may generate in coastal areas along the Gulf of Aden's coastal cities of Aden and Bossaso, in Yemen and Somalia, respectively.</p><p>The findings indicate that there is cause for significant concern as climate change is assessed by all interviewees - irrespective of their background -, as very likely to hold a negative to a devastating impact on (fresh) water security, food security, public health, social conflicts, population displacement, and eventually political stability; and to strongly worsen the humanitarian situations in Somalia and Yemen, both in the medium-term (i.e., 2020-2050) and the long-term (i.e., 2020-2100). The authors call on the scientific community to further research the issue of climate change in the understudied coastal areas of the Gulf of Aden, and on the international community to pro-actively and urgently help the local populations and relevant authorities to rapidly and strongly build up their adaptation capacities, especially in the niche of coastal EEEs.</p>

What Can I Hope about the Earth’s Future Climate? Affective Resources for Overcoming Intergenerational Distance, Kantian and Otherwise

2015 ◽  
Vol 2 (1) ◽  
Author(s):  
Diane Williamson
Keyword(s):  
Climate Change ◽  
Political History ◽  
Future Climate ◽  
Future Generations ◽  
Theory Of Justice ◽  
The World ◽  
The Future ◽  
Moral Problems

AbstractWhile climate change involves spatial, epistemological, social, and temporal remoteness, each type of distance can be bridged with strategies unique to it that can be borrowed from analogous moral problems. Temporal, or intergenerational, distance may actually be a motivational resource if we look at our natural feelings of hope for the future of the world, via Kant’s theory of political history, and for our children. Kant’s theory of hope also provides some basis for including future generations in a theory of justice.

Addressing climate change and its impacts on the world ocean

Marine Policy ◽  
2019 ◽  
pp. 167-176
Author(s):  
Mark Zacharias ◽  
Jeff Ardron
Keyword(s):  
Climate Change ◽  
World Ocean ◽  
The World

scholarly journals Global estimates of carbon stock changes in living forest biomass: EDGARv4.3 – time series from 1990 to 2010

2012 ◽  
Vol 9 (8) ◽  
pp. 3437-3447 ◽  
Author(s):  
A. M. R. Petrescu ◽  
R. Abad-Viñas ◽  
G. Janssens-Maenhout ◽  
V. N. B. Blujdea ◽  
G. Grassi
Keyword(s):  
Climate Change ◽  
Land Use ◽  
Developing Countries ◽  
Forest Biomass ◽  
Global Level ◽  
Tier 1 ◽  
The World ◽  
C Stock ◽  
Global Estimates ◽  
Stock Change

Abstract. While the Emissions Database for Global Atmospheric Research (EDGAR) focuses on global estimates for the full set of anthropogenic activities, the Land Use, Land-Use Change and Forestry (LULUCF) sector might be the most diverse and most challenging to cover consistently for all countries of the world. Parties to United Nations Framework Convention on Climate Change (UNFCCC) are required to provide periodic estimates of greenhouse gas (GHG) emissions, following the latest approved methodological guidance by the International Panel on Climate Change (IPCC). The current study aims to consistently estimate the carbon (C) stock changes from living forest biomass for all countries of the world, in order to complete the LULUCF sector in EDGAR. In order to derive comparable estimates for developing and developed countries, it is crucial to use a single methodology with global applicability. Data for developing countries are generally poor, such that only the Tier 1 methods from either the IPCC Good Practice Guide for Land Use, Land-Use Change and Forestry (GPG-LULUCF) 2003 or the IPCC 2006 Guidelines can be applied to these countries. For this purpose, we applied the IPCC Tier 1 method at global level following both IPCC GPG-LULUCF 2003 and IPCC 2006, using spatially coarse activity data (i.e. area, obtained combining two different global forest maps: the Global Land Cover map and the eco-zones subdivision of the Global Ecological Zone (GEZ) map) in combination with the IPCC default C stocks and C stock change factors. Results for the C stock changes were calculated separately for gains, harvest, fires (Global Fire Emissions Database version 3, GFEDv.3) and net deforestation for the years 1990, 2000, 2005 and 2010. At the global level, results obtained with the two sets of IPCC guidance differed by about 40 %, due to different assumptions and default factors. The IPCC Tier 1 method unavoidably introduced high uncertainties due to the "globalization" of parameters. When the results using IPCC 2006 for Annex I Parties are compared to other international datasets such as (UNFCCC, Food and Agriculture Organization of the United Nations (FAO)) or scientific publications, a significant overestimation of the sink emerges. For developing countries, we conclude that C stock change in forest remaining forest can hardly be estimated with the Tier 1 method especially for calculating the C losses, mainly because wood removal data are not separately available on harvesting or deforestation. Overall, confronting the IPCC GPG-LULUCF 2003 and IPCC 2006 methodologies, we conclude that IPCC 2006 suits best the needs of EDGAR and provide a consistent global picture of C stock changes from living forest biomass independent of country estimates.

Threats to the running water ecosystems of the world

2002 ◽  
Vol 29 (2) ◽  
pp. 134-153 ◽  
Author(s):  
Björn Malmqvist ◽  
Simon Rundle
Keyword(s):  
Climate Change ◽  
Land Use ◽  
Developed Countries ◽  
Running Waters ◽  
Running Water ◽  
Lotic Systems ◽  
The World ◽  
Long Term Trends ◽  
Water Ecosystems

Running waters are perhaps the most impacted ecosystem on the planet as they have been the focus for human settlement and are heavily exploited for water supplies, irrigation, electricity generation, and waste disposal. Lotic systems also have an intimate contact with their catchments and so land-use alterations affect them directly. Here long-term trends in the factors that currently impact running waters are reviewed with the aim of predicting what the main threats to rivers will be in the year 2025. The main ultimate factors forcing change in running waters (ecosystem destruction, physical habitat and water chemistry alteration, and the direct addition or removal of species) stem from proximate influences from urbanization, industry, land-use change and water-course alterations. Any one river is likely to be subjected to several types of impact, and the management of impacts on lotic systems is complicated by numerous links between different forms of anthropogenic effect. Long-term trends for different impacts vary. Concentrations of chemical pollutants such as toxins and nutrients have increased in rivers in developed countries over the past century, with recent reductions for some pollutants (e.g. metals, organic toxicants, acidification), and continued increases in others (e.g. nutrients); there are no long-term chemical data for developing countries. Dam construction increased rapidly during the twentieth century, peaking in the 1970s, and the number of reservoirs has stabilized since this time, whereas the transfer of exotic species between lotic systems continues to increase. Hence, there have been some success stories in the attempts to reduce the impacts from anthropogenic impacts in developed nations. Improvements in the pH status of running waters should continue with lower sulphurous emissions, although emissions of nitrous oxides are set to continue under current legislation and will continue to contribute to acidification and nutrient loadings. Climate change also will impact running waters through alterations in hydrology and thermal regimes, although precise predictions are problematic; effects are likely to vary between regions and to operate alongside rather than override those from other impacts. Effects from climate change may be more extreme over longer time scales (>50 years). The overriding pressure on running water ecosystems up to 2025 will stem from the predicted increase in the human population, with concomitant increases in urban development, industry, agricultural activities and water abstraction, diversion and damming. Future degradation could be substantial and rapid (c. 10 years) and will be concentrated in those areas of the world where resources for conservation are most limited and knowledge of lotic ecosystems most incomplete; damage will centre on lowland rivers, which are also relatively poorly studied. Changes in management practices and public awareness do appear to be benefiting running water ecosystems in developed countries, and could underpin conservation strategies in developing countries if they were implemented in a relevant way.

scholarly journals China and Climate Change Governance: A Golden Opportunity

2022 ◽  
pp. 1-12
Author(s):  
Barry Buzan
Keyword(s):  
Climate Change ◽  
The United States ◽  
The European Union ◽  
Climate Governance ◽  
Policy Adjustment ◽  
The World ◽  
Golden Opportunity ◽  
Climate Action ◽  
Climate Crisis

Climate change is a threat to all of humankind, yet there is still a leadership vacuum on climate governance. At the same time, the deepening climate crisis also presents a golden opportunity for Beijing to assume the role of a global leader. China has the capacity to do it in a way that the United States, Russia, India, and the European Union do not. Taking swift climate action is in Beijing’s interest. Greater contributions to climate governance will certainly help advance China’s long-term political interest in both raising its political status and demonstrating the claimed superiority of its system of government. Positive rhetoric and robust action by China are likely to have a disproportionate effect on the rest of the world. Policy adjustment and implementation by Beijing will bring benefits to the rest of the world. Climate policy options that Beijing may take in the future are not mutually exclusive. The policy shift on climate change could also be attached more firmly to the idea of sustainable development as a defining factor of China’s approach to tackling the climate change threat.

Assessment of potential efficient development of the World ocean ferromanganese nodules in the context of global copper, nickel, cobalt and manganese market evolution

2021 ◽  
pp. 6-25
Author(s):  
Anna Lapteva ◽  
Tatiana Mustafa ◽  
Anastasia Smolnikova ◽  
Aleksandra Chernova
Keyword(s):  
World Ocean ◽  
Ferromanganese Nodule ◽  
Negative Effects ◽  
Market Evolution ◽  
Copper Nickel ◽  
Nickel Cobalt ◽  
The World ◽  
Metal Market ◽  
Nodule Mining

The paper analyzes implications of ferromanganese nodule mining and copper, nickel, cobalt and manganese production for their land-based producers. Potential scenarios are considered for consumption development, onshore production and long-term development of these metals’ mineral bases through 2035. It is shown that each metal market could be undersupplied over this period; this shortage can be offset by deepsea production. However, conditions and deficit emergence for various metals vary greatly. As a result, coincidence of nodule mining with the earliest deficit signs in the remaining markets will lead to oversupply, which will negatively affect onshore production, new mining and exploration projects; this will also reduce profitability of deepsea mining even making it uneconomic. It is not until 2030 that nodule mining involving copper, nickel, cobalt and manganese production can be implemented with no negative effects for market players.

Sign in / Sign up

Export Citation Format

Share Document