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Asplenium alleniae (Aspleniaceae), a new fern species from Borneo and New Guinea (2021)

Perrie, L.R. ; Parris, B.S. ; Chen, C.-W. ; [et al.]

Naturalis Biodiversity Center

In: Blumea: Biodiversity, Evolution and Biogeography of Plants vol. 65 no. 3, pp. 219-223

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Publication Date: 2024-07-03

Description: A new species, Asplenium alleniae, is described from high elevation habitats in Sabah (Malaysia) and Papua New Guinea. Previous phylogenetic analyses of chloroplast loci determined that A. alleniae was most closely related to A. pauperequitum from New Zealand. Asplenium alleniae differs from A. pauperequitum most obviously by the acuminate apices of its longer pinnae. The combination of pinnate fronds with few pairs of primary pinnae and dark red-brown axes distinguishes A. alleniae from superficially similar species of Asplenium in Malesia. Asplenium alleniae is provisionally assessed as Endangered.

Keywords: Plant Science ; Ecology ; Evolution ; Behavior and Systematics ; conservation ; Malaysia ; Malesia ; Mount Kinabalu ; Papua New Guinea ; Sabah ; taxonomy

Repository Name: National Museum of Natural History, Netherlands

Type: info:eu-repo/semantics/article

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GenOcean Campaign Identity. (2022)

UNESCO-IOC | Paris, France

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Publication Date: 2024-05-27

Description: GenOcean instils a feeling of unity - it's not them and us - we are all in this together. Connecting with the audience, gaining their trust, and allowing them to seamlessly collaborate is essential. But to connect, we have to be on the same wavelength. This campaign identity guide serves as the starting point to create a unified, inspiring and determined campaign that aims to inspire everyday actions to restore and protect the ocean. The following pages contain inspiration, guidelines, and handy tips to communicate our values, realize our vision, and reinforce the GenOcean campaign. Thank you for helping achieve the GenOcean mission to restore and protect the ocean. Welcome to GenOcean.

Description: Government of Japan

Description: From the People of Japan

Description: University of Education, Culture, Sports, Science and Technology, Japan

Description: OPENASFA INPUT For bibliographic purposes, this publication should be cited as follows: IOC-UNESCO. GenOcean Campaign Identity. Paris. 2022. 72 pp. (The Ocean Decade Series, 33).

Description: Published

Description: Not Known

Keywords: Branding ; Oceanography ; Ocean Literacy ; Environmental awareness ; United Nations Decade of Ocean Science for Sustainable Development ; Ocean Decade

Repository Name: AquaDocs

Type: Report

Format: 72pp.

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The United Nations Decade of Ocean Science for Sustainable Development (2021-2030): Implementation Plan. (2022)

IOC of UNESCO | Paris, France

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Publication Date: 2024-05-27

Description: In 2016, the first World Ocean Assessment of the United Nations stated that humankind was running out of time to start managing the ocean sustainably. This alarming conclusion poses a question to our civilization: is there a way to reverse the decline in ocean health while continuing to rely on the ocean for our ever-increasing needs, particularly under a changing climate? The proclamation by the United Nations General Assembly in December 2017 of the UN Decade of Ocean Science for Sustainable Development, 2021–2030 (hereafter, the ‘Ocean Decade’) is based on the informed conviction of UN Member States that indeed, this opportunity still exists, and that, furthermore, ocean science needs to play a central role in this process. Ocean science is broad: it encompasses natural and social science disciplines, local and indigenous knowledge; it includes the science-policy and science-innovation interfaces, as well as technology and infrastructure. At the beginning of the third millennium, ocean science is largely competent for diagnosing problems. However, its ability to offer solutions of direct relevance to sustainable development requires a massive upgrade. This need is particularly urgent against the current backdrop of the global COVID-19 pandemic and accelerating climate change. The pandemic has, once again, highlighted the importance of science and knowledge for decision-making and policy. As the world adjusts to a new normal, the ocean will need to play a central role in post-pandemic recovery efforts. However, for this to occur, there needs to be a nothing short of a revolution in ocean science. The Ocean Decade will create a paradigm shift in the generation of qualitative and quantitative ocean knowledge – including from currently data-poor regions, such as the deep ocean, coastal areas where much of the human interaction with the ocean is concentrated, and the polar regions – to inform the development of solutions that contribute to the 2030 Agenda for Sustainable Development. The Ocean Decade aims to catalyse the human behaviour change required for the successful implementation of these solutions. Guided by the United Nations Convention on the Law of the Sea (UNCLOS), the Ocean Decade will generate the data, information and knowledge needed for more robust science-informed policies and stronger science-policy interfaces at global, regional, national and even local levels, leading to improved integrated ocean management and development of a sustainable ocean economy. The Ocean Decade will support numerous UN entities to fulfil their ocean-related mandates. In our information-centred, internet-linked society, the Ocean Decade will support ocean data, information and knowledge systems to evolve into a much higher level of readiness, accessibility, and interoperability. The scale of such efforts will need to be exponentially greater than anything seen to date. An equally transformational part of the Ocean Decade is about humanity and our relationship with the ocean. Understanding of the value of the ocean can be nurtured through ocean literacy efforts among diverse stakeholder groups. Holders of indigenous and local knowledge will work as essential partners of the Ocean Decade and will contribute to highlighting the multitude of cultural values of the ocean. Equity, inclusiveness, respect, fairness and scientific integrity are core principles of the Ocean Decade. The Ocean Decade will systematically identify and dismantle barriers to achieving gender, geographic and generational balance so that no one is left behind. Everyone should be able to benefit from ocean science, including Small Island Developing States, Least Developed Countries and Landlocked Developing Countries. Designing and delivering ocean science that focuses on user needs and adopts relevant mechanisms for uptake will be a key metamorphosis to be achieved between 2021 and 2030. Its scale will be unprecedented. Multiple stakeholders are expected to engage and start collaborating outside their traditional communities. Knowledge generators and users will engage in an iterative process of co-design and co-delivery of ocean science. This will create new groupings of actors from natural, social science and humanity disciplines, business and industry, governments, UN entities, intergovernmental organizations (IGOs), NGOs and civil society, educators, early career ocean professionals, ocean sports and recreation organizations, arts and cultural communities, and indigenous and local knowledge holders. Partnerships and active communication will be at the heart of the Ocean Decade. This Decade is not the first to take on the challenge of ocean science. In 1971–1980, earlier generations embarked on the International Decade of Ocean Exploration. As part of that Decade, groundbreaking collaborative research projects occurred. Many of which, such as the World Ocean Circulation Experiment, permanently changed the face of ocean exploration. However, one crucial difference remains between the two Decades: in the 1970s, the aim was to generate the ‘science we want’. In today’s world, we no longer have that luxury, and the current Decade is resolutely focused on the ‘science we need’. The Implementation Plan for such a major undertaking as the Ocean Decade cannot be, and is not, prescriptive. Rather, it provides a framework for transformational action that will build on existing achievements and deliver action across geographies, sectors, disciplines and generations. I hope you, as a reader and an Ocean Decade stakeholder, will share the overall strategic vision and approach of the Ocean Decade as described in the Implementation Plan. With your engagement and your support, the impact of the Ocean Decade will be much bigger than the sum of its parts and together we will be able to create the science we need for the ocean we want.

Description: OPENASFA INPUT he document should be cited as follows: UNESCO-IOC (2021). The United Nations Decade of Ocean Science for Sustainable Development (2021-2030) Implementation Plan. UNESCO, Paris (IOC Ocean Decade Series, 20.).

Description: Published

Description: Not Known

Keywords: United Nations Decade of Ocean Science for Sustainable Development ; Implementation Plan ; Oceanography ; Sustainable Development ; Science and Development

Repository Name: AquaDocs

Type: Report

Format: 56pp.

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The Ocean Decade at COP26 of the United Nations Framework Convention on Climate Change. (2022)

UNESCO-IOC | Paris, France

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Publication Date: 2024-05-27

Description: On 5 December 2017, the United Nations (UN) declared that a Decade of Ocean Science for Sustainable Development (‘Ocean Decade’) would be held from 2021 to 2030. The Ocean Decade provides a common framework to ensure that ocean science can underpin the achievement of the 17 Sustainable Development Goals (SDGs) and complementary global and regional policy frameworks including the United Nations Framework Convention on Climate Change. The Ocean Decade provides a ‘once-in- a-lifetime’ opportunity to create a new foundation across the science-policy interface to strengthen the management of the ocean and coasts for the benefit of humanity and to mitigate the impacts of climate change. The Ocean Decade Implementation Plan outlines ten Decade Challenges, representing the most immediate and pressing needs of the Decade, which will guide stakeholders as they come together to co-design and co-deliver a wide range of Decade Actions that will be implemented the ocean-climate nexus is embodied in Challenge No. 5 and is reflected in a number of the other Challenges over the next ten years. The Intergovernmental Oceanographic Commission of UNESCO (IOC-UNESCO) has been mandated to coordinate implementation of the Ocean Decade. The Ocean Decade will provide the data, knowledge and capacity to address science and knowledge gaps needed to make informed policy decisions. The United Nations (UN) General Assembly clearly recognizes the societal benefits of a healthy ocean and the need to work across UN entities to achieve this goal. Working in coordination with the UN Framework Convention on Climate Change (UNFCCC), the Ocean Decade will contribute to addressing these societal challenges for example by providing the sound science needed to reflect ocean considerations in Nationally Determined Contributions (NDCs) of the Paris Agreement on Climate Change. In the Ocean and Climate Change Dialogue1, the UNFCCC reaffirmed that science must be strengthened and central to this process. The complementary structure of the Ocean Decade Action Framework to the goals of COP26 will allow for meaningful contributions in achieving successful outcomes.

Description: MEXT

Description: From the People of Japan

Description: OPENASFA INPUT UNESCO-IOC.2021. The Ocean Decade at COP26 of the United Nations Framework Convention on Climate Change. Paris, UNESCO. (The Ocean Decade Series, 31) - (IOC/2021/ODS/31)

Description: Published

Description: Not Known

Keywords: UN Decade of Ocean Science ; COP26 ; Oceanography ; Sustainable Development ; Ocean Decade

Repository Name: AquaDocs

Type: Report

Format: 8pp.

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Co-designing the science we need for the ocean we want: guidance and recommendations for collaborative approaches to designing and implementing Decade actions. (2022)

IOC of UNESCO | Paris, France

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Publication Date: 2024-05-27

Description: The Implementation Plan of the UN Decade of Ocean Science for Sustainable Development (the Ocean Decade) calls for ‘transformative science’ and a ‘revolution in how that science is produced, used and disseminated’. The solutions-oriented nature of the Ocean Decade creates the conditions for this revolution because it provides a convening framework to foster the partnerships and develop the scientific knowledge needed to catalyse transformative ocean science solutions for sustainable development, connecting people and our ocean. While there is widespread enthusiasm to engage in this collaborative venture, there is a need to build capacity and common understanding in how to create co-designed solutions that could bring about the desired transformation in ocean management. This discussion note ‘Co-designing the Science We Need for the Ocean We Want: Guidance and Recommendations for Collaborative Approaches to Designing & Implementing Decade Actions’ aims to address this in a holistic manner. It was inspired by discussions held during a series of global and regional webinars in late 2020 that brought together 2,100 individuals from around the world to bring to life the notion of collaborative, co-designed science and identify the key obstacles, challenges and opportunities. The note offers a solid starting point for stakeholders on the: what, why and how they can join efforts to co-design salient, credible and legitimate ocean knowledge solutions which deliver on the Ocean Decade’s vision of ‘the science we need for the ocean we want’.

Description: Government of Sweden

Description: International Science Council

Description: OPENASFA INPUT For bibliographic purposes, this publication should be cited as follows: IOC-UNESCO. 2021. Co-designing the Science We Need for the Ocean We Want: Guidance and Recommendations for Collaborative Approaches to Designing & Implementing Decade Actions. Paris, UNESCO. (The Ocean Decade Series, 29).

Description: Published

Description: Not Known

Keywords: Ocean Decade ; United Nations Decade of Ocean Science for Sustainable Development ; Sustainable Development ; Oceans ; Oceanography ; Scientific cooperation ; International Cooperation

Repository Name: AquaDocs

Type: Report

Format: 16pp.

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Dataset of the 3P seismic network at the Theistareykir geothermal area, Iceland, 2017-2021 (2021)

Erbaş, Kemal ; Toledo, Tania ; Naranjo, David ; [et al.]

GFZ Data Services

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Publication Date: 2024-05-21

Description: Abstract

Description: Continuous passive seismic monitoring is carried out between September 2017 and December 2021 around the Theistareykir geothermal area located at the intersection between the active Northern Rift Zone and the active Tjörnes Fracture Zone in NE Iceland. This experiment, in addition to an extensive gravimetric monitoring survey, was conducted in the framework of the MicroGraviMoTiS project for a better understanding of the structures and behavior of the local geothermal system under exploitation and for further development of local and regional geothermal resources. 14 broadband stations (Trillium C-120s) recording at 200 Hz comprise the temporary network, that is installed to complement stations of the national seismological network of IMO and stations of Landsvirkjun, the National Power Company of Iceland. The stations were placed in and around the producing zone to primarily retrieve local natural and/or induced seismicity associated to the injection and production operations. The retrieved seismic data is also used for obtaining a representative 1D velocity model of the region, for computing a seismic ambient noise tomography, and for monitoring the system using coda wave interferometry techniques. Funding for this project is provided by the German Federal Ministry for Education and Research (MicroGraviMoTiS , BMBF, grant: 03G0858A), the Helmholtz Centre Potsdam GFZ German Research Centre for Geosciences and Landsvirkjun. Waveform data are available from the GEOFON data center, under network code 3P, and are embargoed until December 2025.

Keywords: Broadband seismic waveforms ; Seismology ; temporary local seismic experiment ; Monitoring system ; EARTH SCIENCE 〉 SOLID EARTH ; In Situ/Laboratory Instruments 〉 Magnetic/Motion Sensors 〉 Seismometers ; In Situ Land-based Platforms 〉 GEOPHYSICAL STATIONS/NETWORKS ; In Situ Land-based Platforms 〉 GEOPHYSICAL STATIONS/NETWORKS 〉 SEISMOLOGICAL STATIONS ; Passive seismic ; Seismometers ; Velocity ; MiniSEED ; GIPP ; MESI ; Volcano

Type: Dataset , Seismic Network

Format: 783GB

Format: .mseed

Format: XML

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Hamburg in der Novemberrevolution von 1918/19 (2024)

transcript Verlag | transcript Verlag

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Publication Date: 2024-05-13

Description: Die Novemberrevolution von 1918/19 erschütterte die Tiefenschichten der politischen und gesellschaftlichen Ordnung der Metropole Hamburg. Diese vielschichtige Transformation wird anhand ausgewählter Akteur*innen, Institutionen und Ereignisse mit Beiträgen aus der neueren Revolutions-, Konflikt- und Kriegsforschung sowie aus der Kulturwissenschaft, der Geschichts- und Sozialwissenschaft nachgezeichnet. Die Beiträger*innen des Bandes durchleuchten die Dynamiken des revolutionären Wandels im umfassenden Dispositiv der urbanen Machtverhältnisse in ihren diskursiven Formationen: im Geschlechterverhältnis, in den Klassenverhältnissen, in der Wirtschaft, im Bildungswesen, im Film, in den Utopien und Vorstellungen der Menschen der Zeit. Die Beschreibung der dynamischen Umbrüche schließt die Nachbarstadt Altona und die Region ein und verbindet somit Lokales mit Nationalem und Globalem.

Keywords: Revolution 1918/19 ; Hamburg ; Politik ; Gesellschaft ; Norddeutschland ; Wahlen 1919 ; Film ; Weimarer Republik ; Globalgeschichte ; Deutsche Geschichte ; Bismarck ; Metropole ; Seismologie ; Kulturgeschichte ; Geschlecht ; Stadt ; Sozialgeschichte ; Europäische Geschichte ; Geschichte des 20. Jahrhunderts ; Geschichtswissenschaft ; Politics ; Society ; North Germany ; Elections 1919 ; Weimar Republic ; Global History ; German History ; Seismology ; Cultural History ; Gender ; City ; Social History ; European History ; History of the 20th Century ; History ; thema EDItEUR::N History and Archaeology::NH History::NHD European history ; thema EDItEUR::N History and Archaeology::NH History::NHT History: specific events and topics::NHTB Social and cultural history

Language: German

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SISMIKO: INGV operational task force for rapid deployment of seismic network during earthquake emergencies (2023)

Moretti, Milena ; Margheriti, Lucia ; D'Alema, Ezio ; [et al.]

Frontiers Media S.A.

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Publication Date: 2024-04-23

Description: The National Institute of Geophysics and Volcanology (INGV, Istituto Nazionale di Geofisica e Vulcanologia), is an italian public research institute established in 1999. Since its inception, the mission of INGV included seismic surveillance and earthquake monitoring in Italy. INGV is part of the Civil Defence system (Margheriti et al., 2021). INGV has offices in different parts of Italy and operates the Italian National Seismic Network (Rete Sismica Nazionale—RSN; INGV Seismological Data Centre, 2006) and other networks at national scale (Michelini et al., 2017). INGV also operates a temporary seismic network infrastructure, a pool of instruments used to densify seismic networks for scientific experiments or in response to damaging earthquakes and to increase monitoring capabilities during seismic sequences. SISMIKO is the operational task force of INGV whose core purpose is to rapidly deploy temporary seismic stations in response to moderate—large magnitude earthquakes or in areas where a seismic sequence is causing concerns and/or scientific interest (Moretti et al., 2016). By reducing the spatial distance between the seismic stations, temporary deployments can improve the RSN detection capability and the accuracy of the earthquake locations. SISMIKO was established in 2015 by Lucia Margheriti and Milena Moretti, so they became responsible for INGV emergency deployments of the temporary networks. SISMIKO involves INGV technicians and researchers from all over Italy, from Milano to Catania (see acknowledgments), grouped together by common interest technical and scientific issues. SISMIKO coordinates all INGV groups working on seismic emergencies (Figure 1). The data acquired by the SISMIKO temporary networks, are made available to the scientific community, without any restrictions, via italian node of the European Integrated Data Archive portal (EIDA1; Danecek et al., 2021). Datasets are archived in near real-time in the “Standard for the Exchange of Earthquake Data (SEED)” format and have an associated Digital Object Identifier (DOI). The data are used for monitoring, surveillance and for scientific research. Since its establishment, SISMIKO has installed seven temporary seismic networks, including the one used to monitor the 2016–2018 seismic sequence in central Italy (Moretti et al., 2016). The most recent activations of SISMIKO were in May and November 2022: Chianti-Fiorentino (Piccinini et al., 2022; 2023) and North Marche coast (D’Alema et al., 2022b), respectively. The following section briefly describes the history of the INGV emergency mobile network.

Description: Published

Description: 1146579

Description: OST5 Verso un nuovo Monitoraggio

Description: JCR Journal

Keywords: SISMIKO ; Seismic emergency ; Temporary seismic network ; Real time transmission ; Seismology ; 05.04. Instrumentation and techniques of general interest

Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)

Type: article

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Planning, Development and Management of Sustainable Cities (2021)

Yigitcanlar, Tan ; Kamruzzaman, Md. (Liton)

MDPI - Multidisciplinary Digital Publishing Institute

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Publication Date: 2024-04-11

Description: The concept of ‘sustainable urban development’ has been pushed to the forefront of policymaking and politics as the world wakes up to the impacts of climate change and the destructive effects of the Anthropocene. Climate change has emerged to be one of the biggest challenges faced by our planet today, threatening both built and natural systems with long-term consequences, which may be irreversible. While there is a vast body of literature on sustainability and sustainable urban development, there is currently limited focus on how to cohesively bring together the vital issues of the planning, development, and management of sustainable cities. Moreover, it has been widely stated that current practices and lifestyles cannot continue if we are to leave a healthy living planet to not only the next generation, but also to the generations beyond. The current global school strikes for climate action (known as Fridays for Future) evidences this. The book advocates the view that the focus needs to rest on ways in which our cities and industries can become green enough to avoid urban ecocide. This book fills a gap in the literature by bringing together issues related to the planning, development, and management of cities and focusing on a triple-bottom-line approach to sustainability.

Keywords: TA1-2040 ; T1-995 ; TA170-171 ; neighborhood sustainability assessment index ; urban ecology ; sustainable urban ecosystems ; DEFRA ; urban land development ; stakeholder ; sustainable transportation ; GDP ; bottom-up ; carbon ; neighbourhood ; humidity ; customer value ; technology roadmapping (TRM) ; Istanbul ; SDM ; fire caution effect ; low carbon cities ; megacity ; frames ; heavy-duty vehicles ; noise pollution ; green innovation ; low carbon economy ; demand ; practitioner perceptions ; visioning ; ecosystem approach ; urban resilience ; anthropogenic impact ; Germany ; Ipoh ; natural environmental impact ; sustainable urban development ; civic engagement ; Wujin ; ecological landscape management ; sustainable regional development ; urban forest ; mixed land-use ; spatial decision support systems ; heat island mitigation ; public participation ; innovation ; urban transport ; sustainability assessment ; urban fire ; urban forestry ; United Kingdom ; water supply ; time-series forecasting ; low-frequency noise ; PIs (performance indicators) ; environmental threshold ; built environment sector ; ARIMA ; driving forces-pressure-state-impact-policy and pattern (DPSIP) ; open innovation (OI) ; eco-cities ; indicator ; regional stakeholder involvement ; green economy ; land use mixture ; Malaysia ; Gap analysis ; urban planning ; sustainability index ; sustainability indicators ; perception ; water asset management ; medium-sized cities ; LOS (level of service) ; wood fuel ; the fire assimilation effect ; energy consumption ; Satoyama Index ; framing processes ; land cover ; green infrastructure ; cities ; tree ; neighborhood sustainability ; sustainable city ; sustainability ; precision farming (PF) ; sustainable development ; GIS ; smart cities ; local new town ; fire inertia effect ; co-design ; City Biodiversity Index ; knowledge management ; scaling-up strategy ; process-function ecology ; neoliberal capitalism ; sustainability literacy ; China ; urban development ; co-production ; urban metabolism ; emissions ; sustainable transport ; developing cities ; low-energy transport ; sociotechnical transition ; power poles ; road grades ; spatio-temporal features ; socio-technical transition ; travel behaviour ; infrastructure ; human well-being ; forest values ; urban water sustainability ; transport projects ; land use governance ; thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technology

Language: English

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Green Technologies (2021)

MDPI - Multidisciplinary Digital Publishing Institute

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Publication Date: 2024-04-11

Description: Green technologies can be identified as key components in Industry 4.0. The scope of this book is to address how conventional green technologies can be a part of smart industries by minimizing waste, maximizing productivity, optimizing the supply chain, or by additive manufacturing. This theme focuses on the scope and challenges of integrating current environmental technologies in future industries. This book, “Green Technologies: Bridging Conventional Practices and Industry 4.0”, aims to incorporate and introduce the advances in green technologies to the cyber-based industries. It is hoped that the novel green technologies presented in this book are useful in assisting the global community in working towards fulfilling the Sustainable Development Goals.

Keywords: wood flour ; oil adsorption ; superhydrophobic ; superoleophilic ; oil-water separation ; sustainable material ; sachet-water plastic waste ; oil palm empty fruit bunch ; TGA-DSC analysis ; activation energy ; physio-thermal analysis ; co-pyrolysis ; eutrophication ; sugarcane bagasse ; adsorption ; harvest ; biodiesel ; reusability ; Calophyllum inophyllum biodiesel ; palm biodiesel ; engine performance ; exhaust emissions ; alternative fuel ; transesterification ; multiple frequency marine controlled-source electromagnetic technique ; Gaussian process ; uncertainty quantification ; computer experiment, electromagnetic profile estimation ; Malaysia ; Municipal Solid Waste (MSW) ; Waste-to-Energy (WTE) ; sustainability ; technical ; economic ; environmental ; social ; optimization ; P-graph ; municipal solid waste conversion technology ; silicon oxycarbide ; thermal conductivity ; floating plants ; SiOC ; silica ; ammonium-based protic ionic liquids ; density ; thermal expansion coefficient ; viscosity ; thermal stability ; CO2 absorption ; rubber-seed shell ; activated carbon ; CO2 adsorption ; isotherms ; kinetics modeling ; milk ; protein ; liquid biphasic flotation ; dairy waste ; recovery ; Cape gooseberry ; color space selection ; color space combination ; food engineering ; anaerobic digestion ; co-digestion ; wastewater ; biogas production ; methane yield, sludge ; sandwich composite fire ; mechanical responses ; moisture content ; balsa core ; mass loss kinetic ; buckling failure ; liquid biphasic system ; aqueous two-phase system ; aqueous biphasic system ; purification ; separation ; biomolecules ; black soldier fly ; yeast ; fermentation ; larvae ; organic waste ; coconut endosperm waste ; n/a ; black soldier fly larvae ; lipid ; substrate ; PC/ABS ; carbon black ; electromagnetic shielding effectiveness ; dissipation of electrostatic discharge ; surface resistivity ; thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technology

Language: English

Format: application/octet-stream

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