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La falta de equidad que prevalece hoy en muchos lugares, incluyendo los pa ses de nuestra regi n, hace que una proporci n a veces sorprendentemente grande de la poblaci n contin e atrapada en condiciones de pobreza y hambre, de falta de educaci n y salud. La comunidad cient fica se halla integrada por personas que han podido obtener una formaci n de alto nivel y est n en el deber de velar porque los resultados de su labor o, por cierto, aquellos frutos de cualquier trabajo, sean usufructuados por todos, sin depender de su condici n social, econ mica o civil. Pero solamente en un mundo con justicia verdadera para todos, si es que tal cosa llega a existir alg n d a, ser la ciencia un verdadero factor de orgullo para quienes la practican.

¡He allí al hombre, conocido por su sabiduría! Esta frase latina del título resume mi memoria del Dr. Luis Alberto Fournier Origgi, eminente ecólogo, botánico y agrónomo de la Universidad de Costa Rica (U.C.R.) fallecido sorpresivamente el pasado 5 de julio. La gran labor científica y agronómica del Dr. Fournier pasó desapercibida para muchos, porque él nunca buscó imagen o renombre.  

In rare-metal granites, niobium and tantalum are generally hosted by Nb-Ta oxides. However, in SE China, the Nb-specialized Huangshan granites are a unique occurrence in which Nb is essentially hosted by Li-Fe micas. The Huangshan granites are part of the Early Cretaceous (Late Yanshanian) Lingshan granite complex and belong to the A-type granite series, with two facies differing by their mica compositions: medium-grained \"protolithionite\" granite and medium-grained lithian (lithium-rich) annite granite. The granites are characterized by elevated whole-rock Nb contents (average 144 ppm in \"protolithionite\" granite and 158 ppm in annite granite), quite low Ta contents (average 9 and 4 ppm, respectively), leading to very high Nb/Ta ratios (average 15.3 and 31.2). Niobium is mainly hosted in the micas, with an average Nb content of 1347 ppm in the lithian annite and 884 ppm in the \"protolithionite,\" which is the highest ever reported in granitic mica. With an estimated endowment of ∼80 kt Nb, the Huangshan granites represent a new style of potential Nb resource. Contrasting with the great rarity of columbite, there is abundant Hf-rich zircon, Y-rich fluorite, and Th-rich fluocerite included in the Huangshan micas. Such accessory minerals being typical of alkaline rhyolitic magmas and niobium enrichment in the Huangshan granites results from A-type melt. The extreme Nb enrichment in the micas results from the highly compatible behavior of Nb in this melt, combined with the high magma temperature (estimated at 790-800 °C) and possibly enhanced magma oxidation.

Many studies have proved the usefulness of Li-mica and chlorite geochemistry as indicators of the chemical and thermal evolution of magmatic systems. This study highlights the suitability of Li-micas as tracers of hydrothermal mineralizing events in world-class W-Sn deposits associated with Jurassic (190-150 Ma) granites in China through the complex magmatic-hydrothermal evolution of the Piaotang deposit (South Jiangxi). A paragenetic sequence has been established for the Piaotang deposit comprising (1) a first \"silicate-oxide\" stage that hosts abundant W-Sn mineralization (wolframite and cassiterite), (2) a \"calcic\" stage with scheelite and wolframite, (3) a \"base metal sulfides\" stage with cassiterite and wolframite, and (4) a late \"sulfide\" stage, involving for the first time a polyphase emplacement of the mineralization. Li-micas from the underlying granite, greisen, and the different stages represented in the veins, were studied. The chemistry of the micas (characterized by intermediate compositions between phlogopite-zinnwaldite-muscovite poles) demonstrates the presence of end-members representing three different fluids that were involved in the emplacement of the Piaotang deposit. These end-members can be linked to previous fluid inclusion studies conducted on this deposit. The three fluids are identified to be magmatic, meteoric (as previously reported in the literature), and also metamorphic, and are shown to have mixed throughout the different stages. Moreover, it appears that the magmatic fluids could not have been derived from the Piaotang biotite granite but instead must have originated from a more evolved rare metal granite that is presently unidentified. These fluids were responsible for the greisenization. Finally, chlorite geochemistry reveals the occurrence of a heating process (from 200°C in stage II to 300°C in stage III) during the post-mineralizing stages, which was responsible for the precipitation of new generations of ore-bearing minerals (cassiterite and wolframite) concomitant with a continuous gain of metals during the emplacement of the Piaotang deposit.

Regionally metamorphosed, Neoproterozoic stratiform baryte deposits near Aberfeldy in the Grampian Highlands of Scotland, UK, contain barium-poor and barium-rich micas in the host rocks and mineralized strata, respectively. The barium-rich micas include muscovite, biotite, phlogopite, and chromium-bearing muscovite. They occur in schistose metasediments and metabasites, in barium-feldspar rocks, and in small amounts in baryte rock. An extensive study of micas in a range of lithologies using electron-probe micro-analysis found up to 10.86 wt% BaO in muscovite, 5.46 wt% in biotite, and 15.70 wt% in Ba-Cr muscovite, the latter containing up to 9.27 wt% Cr2O3. Compositions are comparable with Ba- and Ba-Cr-micas in other metamorphosed Sedimentary Exhalative deposits and barium-rich metasediments worldwide. In one baryte rock sample, disseminated crystals of an exotic Ba-V-Cr mica contain up to 12.33 wt% BaO and 10.82 wt% V2O3, compositionally similar to Ba-V micas in the Hemlo lode gold deposit, Ontario. Ba2+ incorporation is mainly by coupled substitution with Al3+ for K+ + Si4+ in the tetrahedral site. The extent of phengitic (Tschermakitic) substitution is typical of micas in amphibolite-facies metasediments. Similar Fe:Mg ratios in coexisting muscovite and biotite reflect partitioning of iron into sulphides and metamorphic equilibration, with rare exceptions in fine-grained rocks that exhibit millimetre-scale disequilibrium.

Gastric cancer (GC) is the fifth most prevalent type of cancer worldwide. Gastric tumor cells express MICA protein, a ligand to NKG2D receptor that triggers natural killer (NK) cells effector functions for early tumor elimination. MICA gene is highly polymorphic, thus originating alleles that encode protein variants with a controversial role in cancer. The main goal of this work was to study MICA gene polymorphisms and their relationship with the susceptibility and prognosis of GC. Fifty patients with GC and 50 healthy volunteers were included in this study. MICA alleles were identified using Sanger sequencing methods. The analysis of MICA gene sequence revealed 13 MICA sequences and 5 MICA-short tandem repeats (STR) alleles in the studied cohorts We identified MICA * 002 ( * A9) as the most frequent allele in both, patients and controls, followed by MICA * 008 allele ( * A5.1). MICA * 009/049 allele was significantly associated with increased risk of GC (OR: 5.11 [95% CI: 1.39–18.74], p = 0.014). The analysis of MICA-STR alleles revealed a higher frequency of MICA * A5 in healthy individuals than GC patients (OR = 0.34 [95% CI: 0.12–0.98], p = 0.046). Survival analysis after gastrectomy showed that patients with MICA * 002/002 or MICA * 002/004 alleles had significantly higher survival rates than those patients bearing MICA * 002/008 ( p = 0.014) or MICA * 002/009 (MICA * 002/049) alleles ( p = 0.040). The presence of threonine in the position MICA-181 (MICA * 009/049 allele) was more frequent in GC patients than controls ( p = 0.023). Molecular analysis of MICA-181 showed that the presence of threonine provides greater mobility to the protein than arginine in the same position (MICA * 004), which could explain, at least in part, some immune evasion mechanisms developed by the tumor. In conclusion, our findings suggest that the study of MICA alleles is crucial to search for new therapeutic approaches and may be useful for the evaluation of risk and prognosis of GC and personalized therapy.

Tungsten oxide‐mica composites were prepared by adding different amounts of commercial mica (alumina silicate) in order to provide high luster to electrochromic coatings. The mechanical stability was sustained for up to 50 weight % mica for application in aqueous medium. The electrochemical properties, coloration, and luster were investigated. The luster of the composites increased roughly linearly with increased mica content and was retained after coloration. The addition of 10 weight % mica was found to be optimal with respect to the compromise between electrochromic coloration and pearlescent luster. This is, to the best of our knowledge, the first report on the preparation and characterization of WO 3 ‐mica inorganic composites with high luster in both bleached and colored states.

The Cornubian Batholith (SW England) is an archetypal Variscan rare metal granite with potential for Li-mica mineralization. We present a petrographic, trace element and multivariate statistical study of micas from the Cornubian Batholith granite series and related hydrothermally altered units to assess the role of magmatic vs subsolidus processes and of fluxing elements (F and B) on the Li cycle during the evolution of the system. The mica types are as follows: (1) magmatic, which include Fe-biotite, protolithionite I and phengite-muscovite from the most primitive granites, and zinnwaldite I from more fractionated lithologies; (2) subsolidus, which encompass high-temperature autometasomatic Li-micas and low-temperature hydrothermal muscovite-phengite. Autometasomatic species include protolithionite II, zinnwaldite II and lepidolite, which were observed in the most fractionated and hydrothermally altered units, and occur as replacements of magmatic micas. Low-temperature hydrothermal Li-poor micas formed via alteration of magmatic and autometasomatic micas or as replacement of feldspars, and albeit occur in all studied lithologies they are best represented by the granite facies enriched in metasomatic tourmaline. The evolution of micas follows two major trends underlining a coupling and decoupling between the Li(F) and B fluxes. These include as follows: (1) a Li(F)-progressive trend explaining the formation of protolithionite I and zinnwaldite I, which fractionate Li along with Cs, Nb and Sn during the late-magmatic stages of crystallization, and of zinnwaldite II and lepidolite forming from the re-equilibration of primary micas with high-temperature Li-B-W-Tl-Cs-Mn-W-rich autometasomatic fluids; (2) a Li(F)-retrogressive trend explaining the low-temperature hydrothermal muscovitization, which represents the main Li depletion process. Trace element geochemistry and paragenesis of late muscovite-phengite support that muscovitization is a district-scale process that affected the upper parts of the granite cupolas through acidic and B(Fe-Sn)-saturated hydrothermal fluids associated with metasomatic tourmalinization, which were mixed with a low Eh meteoric component.

In 2020, we reported MICA allele frequencies from a cohort of over one million German individuals. This study identified MICA*008 (42%), MICA*002 (12%), and MICA*009 (9%) as the most common MICA alleles at protein resolution. Additionally, we discovered novel alleles with a cumulative frequency of 0.3%. To reduce this fraction of unnamed sequences, we aimed to fully characterize the most frequent novel alleles using both long- and short-read sequencing. As a result, we submitted 603 sequences to the IPD-IMGT/HLA Database: 406 novel alleles and 197 sequence extensions and confirmations. Among the novel alleles, 199 encoded for distinct novel MICA proteins. Following the inclusion of these sequences into the IPD-IMGT/HLA Database, we genotyped 93,814 individuals from an independent cohort. In the German subset (n=48,618), our previous findings on MICA allele frequencies were confirmed. As anticipated, the cumulative frequency of novel alleles decreased significantly from 0.3% to 0.03%, reflecting the expanded reference database. The most frequent of the previously novel alleles were MICA*107N (0.02%), MICA*141 (0.01%), MICA*119 (0.01%), MICA*089 (0.01%), and MICA*247 (0.01%). While allele frequencies in other European and the South African White population were similar to those in Germany, greater variation was observed in the South African Black, non-indigenous Chilean, and Turkish populations. Notably, some of the novel alleles appeared to be population-specific; for example, MICA*258 was exclusively identified in samples from the Black or Colored populations of South Africa. In conclusion, the extensive characterization of novel MICA alleles has substantially reduced the fraction of unknown sequences in MICA donor genotyping, which will support future biomedical and population genetic studies.