Dynamics and control of the expansion of finite-size plasmas produced in ultraintense laser-matter interactions

The strong influence of the electron dynamics provides the possibility of controlling the expansion of laser-produced plasmas by appropriately shaping the laser pulse. A simple irradiation scheme is proposed to tailor the explosion of large deuterium clusters, inducing the formation of shock structures, capable of driving nuclear fusion reactions. Such a scenario has been thoroughly investigated, resorting to two- and three-dimensional particle-in-cell simulations. Furthermore, the intricate dynamics of ions and electrons during the collisionless expansion of spherical nanoplasmas has been analyzed in detail using a self-consistent ergodic-kinetic model. This study clarifies the transition from hydrodynamic-like to Coulomb-explosion regimes

Expansion of nanoplasmas and laser-driven nuclear fusion in single exploding clusters

The expansion of laser-irradiated clusters or nanodroplets depends strongly on the amount of energy delivered to the electrons and can be controlled by using appropriately shaped laser pulses. In this paper, a self-consistent kinetic model is used to analyze the transition from quasineutral, hydrodinamic-like expansion regimes to the Coulomb explosion (CE) regime when increasing the ratio between the thermal energy of the electrons and the electrostatic energy stored in the cluster. It is shown that a suitable double-pump irradiation scheme can produce hybrid expansion regimes, wherein a slow hydrodynamic expansion is followed by a fast CE, leading to ion overtaking and producing multiple ion flows expanding with different velocities. This can be exploited to obtain intracluster fusion reactions in both homonuclear deuterium clusters and heteronuclear deuterium-tritium clusters, as also proved by three-dimensional molecular-dynamics simulations.Comment: 9 pages, 3 figures, to appear in Plasma Physics and Controlled Fusio

Ecological Science Infrastructure for Sustainability Transformations in Rangelands

Sustainability transformations—deliberate and radical shifts in values, governance, and management regimes to achieve sustainability—are needed in rangelands as in other components of the Earth system. We review four concepts comprising an ecological science infrastructure to support such transformations. The foundation is standard measurement of rangeland conditions in the field, especially vegetation and soil properties that underpin the environmental aspects of sustainability. Big data resources, especially gridded spatial datasets produced by models and remote sensing, can be combined with field data and computational approaches to upscale information about rangeland conditions and produce additional indicators of ecosystem functions and services. State and transition models (STMs) linked to land types provide a means to interpret indicators and link interpretations to sustainable land management practices to manage change. Technologies for climate adaptation in rangelands also need to be linked to STM databases. Web and mobile technologies can put multifaceted science knowledge into the hands of pastoralists worldwide to support transformational changes in how rangelands are managed

Emergent global patterns of ecosystem structure and function from a mechanistic general ecosystem model

Anthropogenic activities are causing widespread degradation of ecosystems worldwide, threatening the ecosystem services upon which all human life depends. Improved understanding of this degradation is urgently needed to improve avoidance and mitigation measures. One tool to assist these efforts is predictive models of ecosystem structure and function that are mechanistic: based on fundamental ecological principles. Here we present the first mechanistic General Ecosystem Model (GEM) of ecosystem structure and function that is both global and applies in all terrestrial and marine environments. Functional forms and parameter values were derived from the theoretical and empirical literature where possible. Simulations of the fate of all organisms with body masses between 10 µg and 150,000 kg (a range of 14 orders of magnitude) across the globe led to emergent properties at individual (e.g., growth rate), community (e.g., biomass turnover rates), ecosystem (e.g., trophic pyramids), and macroecological scales (e.g., global patterns of trophic structure) that are in general agreement with current data and theory. These properties emerged from our encoding of the biology of, and interactions among, individual organisms without any direct constraints on the properties themselves. Our results indicate that ecologists have gathered sufficient information to begin to build realistic, global, and mechanistic models of ecosystems, capable of predicting a diverse range of ecosystem properties and their response to human pressures

What goes in does not always come out: The impact of the ruminant digestive system of sheep on plant material, and its importance for the interpretation of dung-derived archaeobotanical assemblages

On archaeological sites where livestock dung was a major fuel source, plant material that survives digestion intact may well be preserved in the remnants of dung-fuelled fires. Preserved plant remains which were derived from dung relate to the diet of animals, and thus provide a way of investigating the agro-pastoral economies of the past. In order to improve our understanding of the taphonomic processes to which plant material is exposed to during digestion, we applied archaeobotanical methods to the analysis of dung from sheep fed a known diet of cereal and wild plant material. Two clear patterns emerge from these investigations. First, cereal material (grain or chaff) survives digestion poorly and was rarely found in the dung analysed. Second, large proportions of seeds of various wild species survive digestion in an identifiable form, probably due to their small size and/or protective coating. These findings are crucial for reliable interpretation of dung-derived plant material in archaeological settings

Building Forcello: Etruscan wattle‐and‐daub technique in the Po Plain (Bagnolo San Vito, Mantua, northern Italy)

The study analyses through an interdisciplinary approach the wattle‐and‐daub building technique used on the Po Plain of northern Italy, focusing on the archaeological evidence from the Etruscan site of Forcello, near Bagnolo San Vito (Mantua) (540–375 bce). Wattle and daub is widespread across different times and periods, and is particularly common in regions such as the Po Plain, where stone sources for construction are not immediately available. Thanks to a combined archaeometric, geological and anthracological study, the paper provides new insights on a fifth‐century bce building structure from Forcello. The findings reveal information on the life history of this feature, including its construction, maintenance and final destruction. The research also sheds a new light on the wattle‐and‐daub technique and on the interaction between people and the Po Plain Etruscan palaeoenvironment

Relação entre qualidade e liberação de N por plantas do semiárido usadas como adubo verde Relationship between biomass quality and N mineralization in plant species used as green manure in semi-arid Brazil

O uso de plantas como adubo verde pode ser uma alternativa para melhorar a fertilidade do solo porém a liberação de nutrientes desses adubos para o solo irá depender dos teores de lignina, polifenóis (PP) e N no material vegetal utilizado. Tais teores foram determinados em 24 espécies vegetais encontradas em propriedades rurais do semiárido e relacionados com a mineralização de N, quando incorporados ao solo. Os materiais apresentaram grande variação nos teores os quais, por sua vez, sinalizaram baixa correlação com as proporções do N mineralizado depois da incorporação. Utilizando os teores e suas relações, realizou-se análise de componentes principais agrupando os materiais de acordo com suas similaridades, visando verificar a existência de relações entre a formação dos grupos referidos e o N mineralizado após incubação dos materiais orgânicos. Quatro grupos foram formados; no entanto, pouca informação útil foi gerada no sentido de tentar predizer a mineralização de N com base na qualidade dos materiais testados. O comportamento da lignina não foi bem definido na formação dos grupos e não apresentou relação clara com a mineralização do N devido, talvez, ao curto prazo de avaliação da metodologia adotada (28 dias). Todos os materiais que apresentaram relação PP/N menor que 0,5, mineralizaram N enquanto que os apresentaram a mesma relação acima de 5, imobilizaram N.<br>The use of plants as green manure may be an alternative to improve soil fertility in the region, but the release of nutrients to the soil will depend on the concentrations of lignin, polyphenols (PP), and nitrogen of the green manures used. These variables were analyzed for 24 plant species commonly found in farms of the semi-arid region of NE Brazil, and the relationship between plant biomass quality and N release after incorporation into the soil was evaluated. There was a large variation in the concentration of lignin, PP and N of the green manures tested but these variables presented a low correlation with N mineralization after incorporation to the soil. In order to try to identify patterns among the different manures regarding quality and N release, these were grouped using Principal Component Analysis techniques, but very little meaningful patterns were observed to help predict N release based on the quality of the materials. The lignin content of the materials played an important role to form different groups, but may be the short time of the incubations (28 days) did not allow for the development of the correlation between lignin content and N release. In general, it was observed that all materials that presented a PP/N ratio lower than 0.5 mineralized N, while those that presented values of this ratio above 5 caused N immobilization