Nutrient recycling is fundamental to sustainable agricultural systems, but few mechanisms exist to ensure that surplus manure nutrients from animal feeding operations are transported for use on ...nutrient-deficient croplands. As a result, manure nutrients concentrate in locations where they can threaten environmental health and devalue manure as a fertilizer resource. This study advances the concept of the “manureshed” – the lands surrounding animal feeding operations onto which manure nutrients can be redistributed to meet environmental, production, and economic goals. Manuresheds can be managed at multiple scales, for example, on farms with both animals and crops, among animal farms and crop farms within a county, or even among animal farms and crop farms in distant counties. With a focus on redistribution among counties, we classified the 3109 counties of the contiguous United States by their capacity to either supply manure phosphorus (P) and nitrogen (N) from confined livestock production (“sources”) or to assimilate and remove excess P and N via crops (“sinks”). Manure nutrient source counties were identified in 40 of the 48 states, with a substantial concentration in the southern US. Source counties for manure P greatly outnumbered source counties for manure N (390 vs. 100), and 99 of the 100 manure N source counties were also source counties for manure P. Conversely, sink counties for manure N outnumbered sink counties for manure P (2766 vs. 2317). We used the P balances of the source and sink counties to delineate four manuresheds dominated by various combinations of confined hog, poultry, dairy, and beef industries. The four manuresheds differed in the transport distances needed to assimilate excess manure P from their respective source areas (from 147 ± 51 km for a beef dominated manureshed to 368 ± 140 km for a poultry dominated manureshed), highlighting the need for systems-level strategies to promote manure nutrient recycling that operate across local, county, regional, and national scales.
•A "manureshed" encompasses the lands surrounding animal feeding operations onto which manure nutrients can be redistributed to meet environmental, production, and economic goals.•3109 U.S. counties were classified as sources or sinks of manure nutrients.•Manure nutrient source counties were found in 40 states.•Manuresheds were delineated for major animal industries.•Manureshed differed in transport distances from 147 km to 368 km.
•Chihuahuan, Sonoran and Mojave Deserts vary in precipitation amount and seasonal distribution.•Due to hydrologic losses, ET was a better metric of ecosystem-available water than ...precipitation.•Ecosystem water use efficiency (GEP/ET) did not differ between winter and summer.•Due to lower respiration, winter seasons were critical for net carbon uptake.•Reduced 21st century winter precipitation reduced the carbon sink ∼6.8TgCyr1 in these 3 deserts.
Global-scale studies suggest that dryland ecosystems dominate an increasing trend in the magnitude and interannual variability of the land CO2 sink. However, such model-based analyses are poorly constrained by measured CO2 exchange in open shrublands, which is the most common global land cover type, covering ∼14% of Earth’s surface. Here we evaluate how the amount and seasonal timing of water availability regulate CO2 exchange between shrublands and the atmosphere. We use eddy covariance data from six US sites across the three warm deserts of North America with observed ranges in annual precipitation of ∼100–400mm, annual temperatures of 13–18°C, and records of 2–8 years (33 site-years in total). The Chihuahuan, Sonoran and Mojave Deserts present gradients in both mean annual precipitation and its seasonal distribution between the wet-winter Mojave Desert and the wet-summer Chihuahuan Desert. We found that due to hydrologic losses during the wettest summers in the Sonoran and Chihuahuan Deserts, evapotranspiration (ET) was a better metric than precipitation of water available to drive dryland CO2 exchange. In contrast with recent synthesis studies across diverse dryland biomes, we found that NEP could not be directly predicted from ET due to wintertime decoupling of the relationship between ecosystem respiration (Reco) and gross ecosystem productivity (GEP). Ecosystem water use efficiency (WUE=GEP/ET) did not differ between winter and summer. Carbon use efficiency (CUE=NEP/GEP), however, was greater in winter because Reco returned a smaller fraction of carbon to the atmosphere (23% of GEP) than in summer (77%). Combining the water-carbon relations found here with historical precipitation since 1980, we estimate that lower average winter precipitation during the 21st century reduced the net carbon sink of the three deserts by an average of 6.8TgC yr1. Our results highlight that winter precipitation is critical to the annual carbon balance of these warm desert shrublands.
During the 21st century, human–environment interactions will increasingly expose both systems to risks, but also yield opportunities for improvement as we gain insight into these complex, coupled ...systems. Human–environment interactions operate over multiple spatial and temporal scales, requiring large data volumes of multi‐resolution information for analysis. Climate change, land‐use change, urbanization, and wildfires, for example, can affect regions differently depending on ecological and socioeconomic structures. The relative scarcity of data on both humans and natural systems at the relevant extent can be prohibitive when pursuing inquiries into these complex relationships. We explore the value of multitemporal, high‐density, and high‐resolution LiDAR, imaging spectroscopy, and digital camera data from the National Ecological Observatory Network’s Airborne Observation Platform (NEON AOP) for Socio‐Environmental Systems (SES) research. In addition to providing an overview of NEON AOP datasets and outlining specific applications for addressing SES questions, we highlight current challenges and provide recommendations for the SES research community to improve and expand its use of this platform for SES research. The coordinated, nationwide AOP remote sensing data, collected annually over the next 30 yr, offer exciting opportunities for cross‐site analyses and comparison, upscaling metrics derived from LiDAR and hyperspectral datasets across larger spatial extents, and addressing questions across diverse scales. Integrating AOP data with other SES datasets will allow researchers to investigate complex systems and provide urgently needed policy recommendations for socio‐environmental challenges. We urge the SES research community to further explore questions and theories in social and economic disciplines that might leverage NEON AOP data.
Models like the Rangeland Hydrology and Erosion Model (RHEM) are useful for estimating soil erosion, however, they rely on input parameters that are sometimes difficult or expensive to measure. ...Specifically, RHEM requires information about foliar and ground cover fractions that generally must be measured in situ, which makes it difficult to use models like RHEM to produce erosion or soil risk maps for areas exceeding the size of a hillslope such as a large watershed. We previously developed a deep learning emulator of RHEM that has low computational expense and can, in principle, be run over large areas (e.g., over the continental US). In this paper, we develop a deep learning model to estimate the RHEM ground cover inputs from remote sensing time series, reducing the need for extensive field surveys to produce erosion maps. We achieve a prediction accuracy on hillslope runoff of R2≈0.9, and on soil loss and sediment yield of R2≈0.4 at 66,643 field locations within the US. We demonstrate how this approach can be used for mapping by developing runoff, soil loss, and sediment yield maps over a 1356 km2 region of interest in Nebraska.
•We developed a deep learning model estimating the ground cover inputs of the RHEM.•Litter and Shrubs are the most and Bio Crusts is the least accurate estimations.•We achieved an R2≈0.9 for runoff and ≈0.4 for soil loss by the estimated covers.
In the southwest United States, the current prolonged warm drought is similar to the predicted future climate change scenarios for the region. This study aimed to determine patterns in vegetation ...response to the early 21st century drought across multiple biomes. We hypothesized that different biomes (forests, shrublands, and grasslands) would have different relative sensitivities to both climate drivers (precipitation and temperature) and legacy effects (previous-year's productivity). We tested this hypothesis at eight Ameriflux sites in various Southwest biomes using NASA Moderate-resolution Imaging Spectroradiometer Enhanced Vegetation Index (EVI) from 2001 to 2013. All sites experienced prolonged dry conditions during the study period. The impact of combined precipitation and temperature on Southwest ecosystems at both annual and sub-annual timescales was tested using Standardized Precipitation Evapotranspiration Index (SPEI). All biomes studied had critical sub-annual climate periods during which precipitation and temperature influenced production. In forests, annual peak greenness (EVImax) was best predicted by 9-month SPEI calculated in July (i.e., January-July). In shrublands and grasslands, EVImax was best predicted by SPEI in July through September, with little effect of the previous year's EVImax. Daily gross ecosystem production (GEP) derived from flux tower data yielded further insights into the complex interplay between precipitation and temperature. In forests, GEP was driven by cool-season precipitation and constrained by warm-season maximum temperature. GEP in both shrublands and grasslands was driven by summer precipitation and constrained by high daily summer maximum temperatures. In grasslands, there was a negative relationship between temperature and GEP in July, but no relationship in August and September. Consideration of sub-annual climate conditions and the inclusion of the effect of temperature on the water balance allowed us to generalize the functional responses of vegetation to predicted future climate conditions. We conclude that across biomes, drought conditions during critical sub-annual climate periods could have a strong negative impact on vegetation production in the southwestern United States.
Introducción a la neurocirugía psiquiátrica Carrillo Ruiz, José D; Castro Farfán, Guillermo; Soto Abraham, Julián ...
Salud mental (México),
2006, Letnik:
29, Številka:
1
Journal Article
Recenzirano
Odprti dostop
Resumen: La neurocirugía para tratar los trastornos psiquiátricos tiene sus primeros antecedentes modernos a mediados del siglo XIX con los trabajos de Buckhart, quien resecó parcialmente la corteza ...frontal de pacientes psiquiátricos. Aunque los resultados fueron alentadores en cuatro de seis casos, la muerte de uno y crisis convulsivas en otros dos frenaron el desarrollo de este procedimiento. En 1936, Egas Moniz y Almeida Lima efectuaron una sección de las fibras frontales en pacientes psiquiátricos con diversos diagnósticos, procedimiento que denominaron lobotomía prefrontal. El éxito de este tratamiento llevó a Moniz a obtener un premio Nobel en 1949. A su vez, esto alentó a Fulton y a Jacobsen a promover este tipo de procedimientos, denominados entonces "psicocirugía", en Estados Unidos. Desafortunadamente, la ausencia de un entendimiento adecuado de la fisiopatología y la sobreindicación de los procedimientos provocó que entre 1935 y 1950 se operaran alrededor de 20,000 pacientes en condiciones cuestionables y con importantes complicaciones. La aparición de los fármacos antipsicóticos y la falta de regulación y entendimiento de la neurocirugía psiquiátrica evitan nuevamente que este tratamiento se realice de manera científica y controlada. Aun así, Spiegel y Wacis iniciaron en 1946 la era de la neurocirugía estereotáctica que reduce el riesgo de complicaciones de la neurocirugía funcional. Cuatro procedimientos fueron aceptados entonces por la OMS para el tratamiento seguro y efectivo de enfermedades psiquiátricas. Estas cirugías incluyen la cingulotomía, la capsulotomía anterior, la tractotomía subcaudada y la leucotomía límbica (combinación de cingulotomía y tractotomía). Por otro lado, los trastornos psiquiátricos que han mostrado mejoría sustancial después de alguno de estos procedimientos neuroquirúrgicos son el trastorno depresivo mayor, el trastorno obsesivo-compulsivo, el trastorno bipolar, algunos trastornos de ansiedad, la adicción a sustancias y los trastornos impulsivos-agresivos. Es importante señalar que los criterios de inclusión a protocolos neuroquirúrgicos asistenciales o de investigación para mejorar los síntomas psiquiátricos han sido bien establecidos, y la selección de pacientes y los grupos neuroquirúrgicos deben ser supervisados por un comité de ética bien acreditado. Actualmente, las indicaciones para proponer como candidato a neurocirugía a un paciente son: Una enfermedad psiquiátrica diagnosticada de acuerdo con los criterios del DSM IV-R; evidencia de refractariedad (mejoría inferior a 50% de los síntomas) con los tratamientos convencionales; ésta debe ser avalada por dos psiquiatras. El padecimiento debe tener una duración de al menos cinco años. Además, un comité ético revisor de los protocolos quirúrgicos y de investigación debe evaluar a cada candidato al procedimiento o protocolo y cerciorarse de que el paciente o las personas responsables de él entiendan los criterios médicos y psiquiátricos para participar en el proceso; el comité supervisa también el proceso de consentimiento. Los procedimientos neuroquirúrgicos sólo podrán ser indicados en pacientes psiquiátricos con capacidad y ellos mismos aprobarán y firmarán un consentimiento informado. Las clínicas de neurocirugía psiquiátrica deberán trabajar estrechamente y contar con los siguientes especialistas: Un equipo de neurocirujanos estereotácticos con experiencia probada en neurocirugía psiquiátrica, neuromodulación, radiocirugía e investigación. Un equipo de psiquiatras con amplia experiencia en condiciones psiquiátricas y de investigación. Preferiblemente, ambos grupos deberán tener experiencia en neurocirugía psiquiátrica o contar con la asesoría de una clínica de neurocirugía psiquiátrica. La neurocirugía psiquiátrica deberá realizarse sólo para restaurar la función normal y aliviar al paciente de su angustia y sufrimiento. Los procedimientos deberán practicarse para mejorar la vida de los pacientes y nunca por motivos políticos, cuestiones legales o propósitos sociales. Finalmente, la neuromodulación ha demostrado ser una técnica útil y segura para el alivio de trastornos psiquiátricos debido a que sus efectos son reversibles y ajustables a cada paciente. Por lo mismo, en la actualidad se ha aplicado con éxito en el tratamiento de la depresión mayor, el trastorno obsesivo compulsivo y la enfermedad de Gilles de la Tourette.