Integrating the Mexican water law into the Earth system law perspective

AbstractHeterotrophic protists (unicellular eukaryotes) form a major link from bacteria and algae to higher trophic levels in the sunlit ocean. Their role on the deep seafloor, however, is only fragmentarily understood, despite their potential key function for global carbon cycling. Using the approach of combined DNA metabarcoding and cultivation-based surveys of 11 deep-sea regions, we show that protist communities, mostly overlooked in current deep-sea foodweb models, are highly specific, locally diverse and have little overlap to pelagic communities. Besides traditionally considered foraminiferans, tiny protists including diplonemids, kinetoplastids and ciliates were genetically highly diverse considerably exceeding the diversity of metazoans. Deep-sea protists, including many parasitic species, represent thus one of the most diverse biodiversity compartments of the Earth system, forming an essential link to metazoans.

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Applicability of NGGM near-real time simulations in flood detection

Journal of Geodetic Science ◽

10.1515/jogs-2019-0011 ◽

2019 ◽

Vol 9 (1) ◽

pp. 111-126

Author(s):

A. F. Purkhauser ◽

J. A. Koch ◽

R. Pail

Keyword(s):

European Space Agency ◽

Earth System ◽

The Earth ◽

Future Mission ◽

Space Agency ◽

Flood Detection ◽

The One ◽

Real Time Simulations ◽

Grace Mission ◽

Gravity Mission

Abstract The GRACE mission has demonstrated a tremendous potential for observing mass changes in the Earth system from space for climate research and the observation of climate change. Future mission should on the one hand extend the already existing time series and also provide higher spatial and temporal resolution that is required to fulfil all needs placed on a future mission. To analyse the applicability of such a Next Generation Gravity Mission (NGGM) concept regarding hydrological applications, two GRACE-FO-type pairs in Bender formation are analysed. The numerical closed loop simulations with a realistic noise assumption are based on the short arc approach and make use of the Wiese approach, enabling a self-de-aliasing of high-frequency atmospheric and oceanic signals, and a NRT approach for a short latency. Numerical simulations for future gravity mission concepts are based on geophysical models, representing the time-variable gravity field. First tests regarding the usability of the hydrology component contained in the Earth System Model (ESM) by the European Space Agency (ESA) for the analysis regarding a possible flood monitoring and detection showed a clear signal in a third of the analysed flood cases. Our analysis of selected cases found that detection of floods was clearly possible with the reconstructed AOHIS/HIS signal in 20% of the tested examples, while in 40% of the cases a peak was visible but not clearly recognisable.

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A potential feedback loop underlying glacial-interglacial cycles

Climate Dynamics ◽

10.1007/s00382-021-05724-w ◽

2021 ◽

Author(s):

Els Weinans ◽

Anne Willem Omta ◽

George A. K. van Voorn ◽

Egbert H. van Nes

Keyword(s):

Ocean Circulation ◽

Feedback Loop ◽

Atmospheric Temperature ◽

Earth System ◽

Biological Productivity ◽

Ocean Ventilation ◽

The Earth ◽

Main Driver ◽

Underlying Mechanisms ◽

Convergent Cross Mapping

AbstractThe sawtooth-patterned glacial-interglacial cycles in the Earth’s atmospheric temperature are a well-known, though poorly understood phenomenon. Pinpointing the relevant mechanisms behind these cycles will not only provide insights into past climate dynamics, but also help predict possible future responses of the Earth system to changing CO$$_2$$ 2 levels. Previous work on this phenomenon suggests that the most important underlying mechanisms are interactions between marine biological production, ocean circulation, temperature and dust. So far, interaction directions (i.e., what causes what) have remained elusive. In this paper, we apply Convergent Cross-Mapping (CCM) to analyze paleoclimatic and paleoceanographic records to elucidate which mechanisms proposed in the literature play an important role in glacial-interglacial cycles, and to test the directionality of interactions. We find causal links between ocean ventilation, biological productivity, benthic $$\delta ^{18}$$ δ 18 O and dust, consistent with some but not all of the mechanisms proposed in the literature. Most importantly, we find evidence for a potential feedback loop from ocean ventilation to biological productivity to climate back to ocean ventilation. Here, we propose the hypothesis that this feedback loop of connected mechanisms could be the main driver for the glacial-interglacial cycles.

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A Clear Past and a Murky Future: Life in the Anthropocene on the Pampana River, Sierra Leone

Land ◽

10.3390/land9030072 ◽

2020 ◽

Vol 9 (3) ◽

pp. 72 ◽

Cited By ~ 2

Author(s):

Richard Marcantonio ◽

Agustin Fuentes

Keyword(s):

Environmental Change ◽

Sierra Leone ◽

Complex Adaptive Systems ◽

Human Activities ◽

Adaptive Systems ◽

Participant Observation ◽

Earth System ◽

Sierra Leonean ◽

The Earth ◽

Complex Adaptive

The impacts of human activities on ecosystems are significantly increasing the rate of environmental change in the earth system, reshaping the global landscape. The rapid rate of environmental change is disrupting the ability of millions of people around the globe to live their everyday lives and maintain their human niche. Evidence suggests that we have entered (or created) a new epoch, the Anthropocene, which is defined as the period in which humans and human activities are the primary drivers of planetary change. The Anthropocene denotes a global shift, but it is the collective of local processes. This is our frame for investigating local accounts of human-caused disruptive environmental change in the Pampana River in Tonkolili District, Northern Province, Sierra Leone. Since the end of the Sierra Leonean civil war in 2002, the country has experienced a rapid increase in extractive industries, namely mining. We explored the effects of this development by working with communities along the Pampana River in Tonkolili, with a specific focus given to engaging local fishermen through ethnographic interviews (N = 21 fishermen and 33 non-fishermen), focus group discussions (N = 21 fishermen), and participant observation. We deployed theoretical and methodological frameworks from human niche construction theory, complex adaptive systems, and ethnography to track disruptive environmental change in and on the Pampana from upstream activities and the concomitant shifts in the local human niche. We highlight the value of integrating ethnographic methods with human evolutionary theory, produce important insights about local human coping processes with disruptive environmental change, and help to further account for and understand the ongoing global process of human modification of the earth system in the Anthropocene.

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Dryland Degradation and Expansion: Implications for Mexican Policies from the Earth System Perspective

Environmental Policy and Law ◽

10.3233/epl-201024 ◽

2020 ◽

pp. 1-4

Author(s):

Gabriel Lopez Porras

Keyword(s):

Climate Change ◽

Ecosystem Services ◽

Science Policy ◽

Land Degradation ◽

Water Scarcity ◽

Large Scale ◽

Earth System ◽

Sustainable Land Management ◽

System Perspective ◽

The Earth

Despite international efforts to stop dryland degradation and expansion, current dryland pathways are predicted to result in large-scale migration, growing poverty and famine, and increasing climate change, land degradation, conflicts and water scarcity. Earth system science has played a key role in analysing dryland problems, and has been even incorporated in global assessments such as the ones made by the Intergovernmental Science-Policy Platform on Biodiversity and Ecosystem Services. However, policies addressing dryland degradation, like the ‘Mexican programme for the promotion of sustainable land management’, do not embrace an Earth system perspective, so they do not consider the complexity and non-linearity that underlie dryland problems. By exploring how this Mexican programme could integrate the Earth system perspective, this paper discusses how ’Earth system’ policies could better address dryland degradation and expansion in the Anthropocene.

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A digital contract for restoration of the Earth System mediated by a Planetary Boundary Exchange Unit

The Anthropocene Review ◽

10.1177/2053019620987270 ◽

2021 ◽

pp. 205301962098727

Author(s):

Orfeu Bertolami ◽

Frederico Francisco

Keyword(s):

Earth System ◽

New Governance ◽

Validation Process ◽

Operational Conditions ◽

Blockchain Technology ◽

The Earth ◽

Optimal Functioning ◽

Operating Space ◽

Exchange Unit ◽

Safe Operating

In this paper, we propose a new governance paradigm for managing the Earth System based on a digital contract inspired on blockchain technology. This proposal allows for a radical decentralisation of the procedures of controlling, maintaining and restoring ecosystems by a set of networks willing to engage in improving the operational conditions of local ecosystems so to contribute to an optimal functioning of the Earth System. These procedures are aimed to improve local Planetary Boundary parameters so that they approach the optimal Holocene reference values, the so-called Safe Operating Space, via a reciprocal validation process and an exchange unit that internalises the state of the Earth System.

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