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2. Land use change and El Niño-Southern Oscillation drive decadal carbon balance shifts in Southeast Asia.

Author

Kondo, Masayuki, Ichii, Kazuhito, Patra, Prabir K, Canadell, Joseph G, Poulter, Benjamin, Sitch, Stephen, Calle, Leonardo, Liu, Yi Y, van Dijk, Albert IJM, Saeki, Tazu, Saigusa, Nobuko, Friedlingstein, Pierre, Arneth, Almut, Harper, Anna, Jain, Atul K, Kato, Etsushi, Koven, Charles, Li, Fang, Pugh, Thomas AM, Zaehle, Sönke, Wiltshire, Andy, Chevallier, Frederic, Maki, Takashi, Nakamura, Takashi, Niwa, Yosuke, and Rödenbeck, Christian

Abstract

An integrated understanding of the biogeochemical consequences of climate extremes and land use changes is needed to constrain land-surface feedbacks to atmospheric CO2 from associated climate change. Past assessments of the global carbon balance have shown particularly high uncertainty in Southeast Asia. Here, we use a combination of model ensembles to show that intensified land use change made Southeast Asia a strong source of CO2 from the 1980s to 1990s, whereas the region was close to carbon neutral in the 2000s due to an enhanced CO2 fertilization effect and absence of moderate-to-strong El Niño events. Our findings suggest that despite ongoing deforestation, CO2 emissions were substantially decreased during the 2000s, largely owing to milder climate that restores photosynthetic capacity and suppresses peat and deforestation fire emissions. The occurrence of strong El Niño events after 2009 suggests that the region has returned to conditions of increased vulnerability of carbon stocks.

Published
2018

3. How do we ensure the future of our discipline is vibrant? Student reflections on careers and culture of ecology

Author

Hansen, Winslow D, Scholl, Joshua P, Sorensen, Amanda E, Fisher, Kelsey E, Klassen, Jessica A, Calle, Leonardo, Kandlikar, Gaurav S, Kortessis, Nicholas, Kucera, Dion C, Marias, Danielle E, Narango, Desiree L, O'Keeffe, Kayleigh, Recart, Wilnelia, Ridolfi, Elizabeth, and Shea, Monika E

Subjects
Environmental Sciences, Ecological Applications, Ecology, Biological Sciences, careers, Ecological Society of America, inclusion, science communication, students, Zoology, Ecological applications
Abstract

Abstract: Ecology must attract and retain diverse talented people to produce innovative research and relevant solutions to 21st‐century environmental problems. Careers and culture form the foundation of scientific advancement, and substantial progress has been made over recent decades in both realms. Yet, important challenges persist in expanding career paths, inclusion of underrepresented groups, and communication with the public. The ESA Student Section organized a horizon scanning exercise to address the following goals: (1) to identify challenges that 21st‐century ecologists contend with or expect to contend with in careers and outreach to society, (2) to anticipate opportunities to help ecologists meet challenges, and (3) to identify concrete steps that could be taken by individual laboratories, institutions, and the ESA to foster progress. In spring 2016, the ESA Student Section solicited input from student members and organized a working group to assess the state of the discipline and to envision how we might cultivate a more inclusive and effective community. We identified three major challenges. First, PhDs are produced faster than academic positions become available and disconnects between academia and other sectors may keep early‐career ecologists from realizing the breadth of available positions. We propose an online jobs hub to make non‐academic sectors more accessible to ecologists. We also suggest students develop skills portfolios to prepare for non‐academic positions. Second, the composition of people who are ecologists differs from broader society, partially due to implicit biases and institutional barriers. We propose steps to reduce attrition of diversity in ecology that include countering implicit biases and creating mentorship networks. We offer steps to improve recruitment by increasing awareness of ecology among high school students and undergraduates and providing opportunities to engage in ecological research. Finally, ecology is only relevant if the public perceives it to be. We must improve science communication and begin cultivating trust. We propose that ad hoc communication by all ecologists is insufficient; translational ecologists should be hired in every department and formal training in translational ecology is necessary. We hope this paper catalyzes critical thinking and partnerships among students, professional ecologists, and the ESA to ensure the future of ecology is vibrant.

Published
2018

5. Regional carbon fluxes from land use and land cover change in Asia, 1980–2009

Author

Calle, Leonardo, Canadell, Josep G, Patra, Prabir, Ciais, Philippe, Ichii, Kazuhito, Tian, Hanqin, Kondo, Masayuki, Piao, Shilong, Arneth, Almut, Harper, Anna B, Ito, Akihiko, Kato, Etsushi, Koven, Charlie, Sitch, Stephen, Stocker, Benjamin D, Vivoy, Nicolas, Wiltshire, Andy, Zaehle, Sönke, and Poulter, Benjamin

Subjects
Agricultural, Veterinary and Food Sciences, Forestry Sciences, Life on Land, land use change, deforestation, DGVM, carbon budget, Meteorology & Atmospheric Sciences
Abstract

We present a synthesis of the land-atmosphere carbon flux from land use and land cover change (LULCC) in Asia using multiple data sources and paying particular attention to deforestation and forest regrowth fluxes. The data sources are quasi-independent and include the U.N. Food and Agriculture Organization-Forest Resource Assessment (FAO-FRA 2015; country-level inventory estimates), the Emission Database for Global Atmospheric Research (EDGARv4.3), the 'Houghton' bookkeeping model that incorporates FAO-FRA data, an ensemble of 8 state-of-the-art Dynamic Global Vegetation Models (DGVM), and 2 recently published independent studies using primarily remote sensing techniques. The estimates are aggregated spatially to Southeast, East, and South Asia and temporally for three decades, 1980-1989, 1990-1999 and 2000-2009. Since 1980, net carbon emissions from LULCC in Asia were responsible for 20%-40% of global LULCC emissions, with emissions from Southeast Asia alone accounting for 15%-25% of global LULCC emissions during the same period. In the 2000s and for all Asia, three estimates (FAO-FRA, DGVM, Houghton) were in agreement of a net source of carbon to the atmosphere, with mean estimates ranging between 0.24 to 0.41 Pg C yr-1, whereas EDGARv4.3 suggested a net carbon sink of -0.17 Pg C yr-1. Three of 4 estimates suggest that LULCC carbon emissions declined by at least 34% in the preceding decade (1990-2000). Spread in the estimates is due to the inclusion of different flux components and their treatments, showing the importance to include emissions from carbon rich peatlands and land management, such as shifting cultivation and wood harvesting, which appear to be consistently underreported.

Published
2016

10. Simulating Global Dynamic Surface Reflectances for Imaging Spectroscopy Spaceborne Missions: LPJ‐PROSAIL

Author

Poulter, Benjamin, primary, Currey, Bryce, additional, Calle, Leonardo, additional, Shiklomanov, Alexey N., additional, Amaral, Cibele H., additional, Brookshire, E. N. Jack, additional, Campbell, Petya, additional, Chlus, Adam, additional, Cawse‐Nicholson, Kerry, additional, Huemmrich, Fred, additional, Miller, Charles E., additional, Miner, Kimberley, additional, Pierrat, Zoe, additional, Raiho, Ann M., additional, Schimel, David, additional, Serbin, Shawn, additional, Smith, William K., additional, Stavros, Natasha, additional, Stutz, Jochen, additional, Townsend, Phil, additional, Thompson, David R., additional, and Zhang, Zhen, additional

Published
2023
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12. A Segmentation Algorithm for Characterizing Rise and Fall Segments in Seasonal Cycles: An Application to XCO2 to Estimate Benchmarks and Assess Model Bias

Author

Calle, Leonardo, Poulter, Benjamin, and Patra, Prabir K

Subjects
Earth Resources And Remote Sensing
Abstract

There is more useful information in the time series of satellite-derived column-averaged carbon dioxide (XCO2) than is typically characterized. Often, the entire time series is treated at once without considering detailed features at shorter timescales, such as nonstationary changes in signal characteristics – amplitude, period and phase. In many instances, signals are visually and analytically differentiable from other portions in a time series. Each rise (increasing) and fall (decreasing) segment in the seasonal cycle is visually discernable in a graph of the time series. The rise and fall segments largely result from seasonal differences in terrestrial ecosystem production, which means that the segment's signal characteristics can be used to establish observational benchmarks because the signal characteristics are driven by similar underlying processes. We developed an analytical segmentation algorithm to characterize the rise and fall segments in XCO2 seasonal cycles. We present the algorithm for general application of the segmentation analysis and emphasize here that the segmentation analysis is more generally applicable to cyclic time series. We demonstrate the utility of the algorithm with specific results related to the comparison between satellite- and model-derived XCO2 seasonal cycles (2009–2012) for large bioregions across the globe. We found a seasonal amplitude gradient of 0.74–0.77 ppm for every 10∘ of latitude in the satellite data, with similar gradients for rise and fall segments. This translates to a south–north seasonal amplitude gradient of 8 ppm for XCO2, about half the gradient in seasonal amplitude based on surface site in situ CO2 data (∼19 ppm). The latitudinal gradients in the period of the satellite-derived seasonal cycles were of opposing sign and magnitude (−9 d per 10∘ latitude for fall segments and 10 d per 10∘ latitude for rise segments) and suggest that a specific latitude (∼2∘ N) exists that defines an inversion point for the period asymmetry. Before (after) the point of asymmetry inversion, the periods of rise segments are lesser (greater) than the periods of fall segments; only a single model could reproduce this emergent pattern. The asymmetry in amplitude and the period between rise and fall segments introduces a novel pattern in seasonal cycle analyses, but, while we show these emergent patterns exist in the data, we are still breaking ground in applying the information for science applications. Maybe the most useful application is that the segmentation analysis allowed us to decompose the model biases into their correlated parts of biases in amplitude, period and phase independently for rise and fall segments. We offer an extended discussion on how such information about model biases and the emergent patterns in satellite-derived seasonal cycles can be used to guide future inquiry and model development.

Published
2019
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13. Validación de la fórmula de cromi por ecografía fetal para diagnóstico de macrosomía en embarazos a término. Hospital Vicente Corral Moscoso. Octubre de 2020 a agosto de 2021

Author

Calle Calle, Leonardo Aníbal, Pinos Crespo, María Alexandra, Calle Calle, Leonardo Aníbal, and Pinos Crespo, María Alexandra

Abstract

Background: Fetal macrosomia is a frequent condition, it is related to a high rate of both maternal and fetal complications, therefore, it is important to have prediction methods during pregnancy and thus be able to adequately manage the maternal binomial. -fetal. Objectives: to determine the validity of the Cromi formula by ultrasound for the diagnosis of fetal macrosomia in term pregnancies. Hospital Vicente Corral Moscoso. October 2020 to August 2021. Methods: diagnostic validation test in women between 37 and 41.6 weeks of gestation. An ultrasound measurement of fetal anthropometry and umbilical cord area was performed, weighted values were calculated according to the Cromi, Hadlock and umbilical cord area formulas. Results: of 285 newborns, 1.4% were macrosomic, maternal age between 14 and 42 years, 50.53% multiparous, mean gestational age of 39.3 weeks. Hadlock, Cromi and the umbilical cord area demonstrated high specificity (greater than 96%) but poor sensitivity (between 25 and 50%), NPV greater than 98%, but low PPV (10- 50%) in the detection of fetal macrosomia. Conclusions: The study showed low sensitivity and PPV for Hadlock, Cromi and umbilical cord area percentile >95, however, the specificity and NPV values were high, although they were not shown to be superior in prediction. of fetal macrosomia, if it could be a useful tool when predicting its absence.

Published
2022

14. Validación del artefacto de centelleo en la ecografía renal para el diagnóstico de nefrolitiasis. Hospital Vicente Corral Moscoso, agosto 2020 – agosto 2021

Author

Calle Calle, Leonardo Aníbal, Brito Tenesaca, Andrea Silvana, Calle Calle, Leonardo Aníbal, and Brito Tenesaca, Andrea Silvana

Abstract

Background: Due to today's lifestyle, there is a higher frequency of nephrolithiasis, which is why non-invasive diagnostic methods and without radiation risks are necessary. Objective: to compare renal ultrasound with scintillation artifact and Urotomography without contrast in the diagnosis of nephrolithiasis. Methodology: diagnostic test in 101 patients with symptoms of renal colic, a renal ultrasound and a Urotomography without contrast were performed. Statistical analysis: SPSS version 15, diagnostic precision: sensitivity, specificity, positive predictive value and negative predictive value. Results: 101 patients with symptoms of renal colic, Nephrolithiasis was similar in both sexes, the mean age was 32.2 (± 14.5). The prevalence in ultrasound 54.46%, and in Urotomography 77.23%. By ultrasound 55 patients presented lithiasis, most had 1 stone, in the kidney and left side, > 3 to 7 mm, the scintillation artifact was positive 29.09%. In the Urotomography, lithiasis was presented in 78 patients, with 1 to 2 stones in the majority, > 3 to 7 mm, in the kidney and ureter and bilateral, the density of 102 to 700 HU predominated. Comparing the ultrasound scintillation artifact with Urotomography, we obtained a sensitivity of 48.72%, a specificity of 95.65%, a positive predictive value of 97.44%, and a negative predictive value of 35.48%. Conclusions: the ultrasound scintillation artifact should be considered a confirmatory sign for the diagnosis of kidney stones.

Published
2022

15. Simulating global dynamic surface reflectances for imaging spectroscopy spaceborne missions - LPJ-PROSAIL

Author

Poulter, Benjamin, primary, Currey, Bryce, additional, Calle, Leonardo, additional, Brookshire, Jack, additional, Campbell, Petya, additional, Chlus, Adam, additional, Cawse-Nicholson, Kerry, additional, Huemmrich, Karl Fred, additional, Miller, Charles E., additional, Miner, Kimberley, additional, Pierrat, Zoe Amie, additional, Schimel, David, additional, Serbin, Shawn Paul, additional, Shiklomanov, Alexey N, additional, Stavros, E. Natasha, additional, Townsend, Philip A, additional, Thompson, David Ray, additional, Zhang, Zhen, additional, Amaral, Cibele, additional, Raiho, Ann, additional, and Stutz, Jochen, additional

Published
2022
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19. Northward migration of the boreal forest confirmed by satellite record

Author

Feng, Min, primary, Sexton, Joseph, additional, Wang, Panshi, additional, Montesano, Paul, additional, Calle, Leonardo, additional, Carvalhais, Nuno, additional, Poulter, Benjamin, additional, Wooten, Margaret, additional, Wagner, William, additional, Elders, Akiko, additional, Channan, Saurabh, additional, and Neigh, Christopher, additional

Published
2021
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20. State of the science in reconciling top‐down and bottom‐up approaches for terrestrial CO₂ budget

Author

Kondo, Masayuki, Patra, Prabir K., Sitch, Stephen, Friedlingstein, Pierre, Poulter, Benjamin, Chevallier, Frederic, Ciais, Philippe, Canadell, Josep G., Bastos, Ana, Lauerwald, Ronny, Calle, Leonardo, Ichii, Kazuhito, Anthoni, Peter, Arneth, Almut, Haverd, Vanessa, Jain, Atul K., Kato, Etsushi, Kautz, Markus, Law, Rachel M., Lienert, Sebastian, Lombardozzi, Danica, Maki, Takashi, Nakamura, Takashi, Peylin, Philippe, Rödenbeck, Christian, Zhuravlev, Ruslan, Saeki, Tazu, Tian, Hanqin, Zhu, Dan, and Ziehn, Tilo

Subjects
530 Physics
Abstract

Robust estimates of CO₂ budget, CO₂ exchanged between the atmosphere and terrestrial biosphere, are necessary to better understand the role of the terrestrial biosphere in mitigating anthropogenic CO₂ emissions. Over the past decade, this field of research has advanced through understanding of the differences and similarities of two fundamentally different approaches: “top-down” atmospheric inversions and “bottom-up” biosphere models. Since the first studies were undertaken, these ap-proaches have shown an increasing level of agreement, but disagreements in some regions still persist, in part because they do not estimate the same quantity of atmos-phere–biosphere CO₂ exchange. Here, we conducted a thorough comparison of CO₂ budgets at multiple scales and from multiple methods to assess the current state of the science in estimating CO₂ budgets. Our set of atmospheric inversions and bio-sphere models, which were adjusted for a consistent flux definition, showed a high level of agreement for global and hemispheric CO₂ budgets in the 2000s. Regionally, improved agreement in CO₂ budgets was notable for North America and Southeast Asia. However, large gaps between the two methods remained in East Asia and South America. In other regions, Europe, boreal Asia, Africa, South Asia, and Oceania, it was difficult to determine whether those regions act as a net sink or source because of the large spread in estimates from atmospheric inversions. These results highlight two research directions to improve the robustness of CO₂ budgets: (a) to increase repre-sentation of processes in biosphere models that could contribute to fill the budget gaps, such as forest regrowth and forest degradation; and (b) to reduce sink–source compensation between regions (dipoles) in atmospheric inversion so that their esti-mates become more comparable. Advancements on both research areas will increase the level of agreement between the top-down and bottom-up approaches and yield more robust knowledge of regional CO₂ budgets.

Published
2020
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27. State of the science in reconciling top-down and bottom-up approaches for terrestrial CO2 budget

Author

Kondo, Masayuki, Patra, Prabir P.K., Sitch, Stephen, Friedlingstein, Pierre, Poulter, Benjamin, Chevallier, Frédéric, Ciais, Phillipe, Canadell, Josep J.G., Bastos, Ana, Lauerwald, Ronny, Calle, Leonardo, Ichii, Kazuhito, Anthoni, Peter, Arneth, Almut, Haverd, Vanessa, Jain, Atul, Kato, Etsushi, Kautz, Markus, Law, Rachel R.M., Lienert, Sebastian, Lombardozzi, Danica, Maki, Takashi, Nakamura, Takashi, Peylin, Philippe, Rödenbeck, Christian, Zhuravlev, Ruslan, Saeki, Tazu, Tian, Hanqin, Zhu, Dan, Ziehn, Tilo, Kondo, Masayuki, Patra, Prabir P.K., Sitch, Stephen, Friedlingstein, Pierre, Poulter, Benjamin, Chevallier, Frédéric, Ciais, Phillipe, Canadell, Josep J.G., Bastos, Ana, Lauerwald, Ronny, Calle, Leonardo, Ichii, Kazuhito, Anthoni, Peter, Arneth, Almut, Haverd, Vanessa, Jain, Atul, Kato, Etsushi, Kautz, Markus, Law, Rachel R.M., Lienert, Sebastian, Lombardozzi, Danica, Maki, Takashi, Nakamura, Takashi, Peylin, Philippe, Rödenbeck, Christian, Zhuravlev, Ruslan, Saeki, Tazu, Tian, Hanqin, Zhu, Dan, and Ziehn, Tilo

Abstract

Robust estimates of CO2 budget, CO2 exchanged between the atmosphere and terrestrial biosphere, are necessary to better understand the role of the terrestrial biosphere in mitigating anthropogenic CO2 emissions. Over the past decade, this field of research has advanced through understanding of the differences and similarities of two fundamentally different approaches: “top-down” atmospheric inversions and “bottom-up” biosphere models. Since the first studies were undertaken, these approaches have shown an increasing level of agreement, but disagreements in some regions still persist, in part because they do not estimate the same quantity of atmosphere–biosphere CO2 exchange. Here, we conducted a thorough comparison of CO2 budgets at multiple scales and from multiple methods to assess the current state of the science in estimating CO2 budgets. Our set of atmospheric inversions and biosphere models, which were adjusted for a consistent flux definition, showed a high level of agreement for global and hemispheric CO2 budgets in the 2000s. Regionally, improved agreement in CO2 budgets was notable for North America and Southeast Asia. However, large gaps between the two methods remained in East Asia and South America. In other regions, Europe, boreal Asia, Africa, South Asia, and Oceania, it was difficult to determine whether those regions act as a net sink or source because of the large spread in estimates from atmospheric inversions. These results highlight two research directions to improve the robustness of CO2 budgets: (a) to increase representation of processes in biosphere models that could contribute to fill the budget gaps, such as forest regrowth and forest degradation; and (b) to reduce sink–source compensation between regions (dipoles) in atmospheric inversion so that their estimates become more comparable. Advancements on both research areas will increase the level of agreement between the top-down and bottom-up approaches and yield more robust knowledge of r, SCOPUS: ar.j, DecretOANoAutActif, info:eu-repo/semantics/published

Published
2019

28. A segmentation algorithm for characterizing Rise and Fall segments in seasonal cycles: an application to XCO2 to estimate benchmarks and assess model bias

Author

Calle, Leonardo, Poulter, Benjamin, and Patra, Prabir K.

Abstract

There is more useful information in the time series of satellite-derived column-averaged carbon dioxide (XCO2) than is typically characterized. Often, the entire time series is treated at once without considering detailed features at shorter timescales, such as non-stationary changes in signal characteristics – amplitude, period, and phase. In many instances, signals are visually and analytically differentiable from other portions in a time series. Each Rise (increasing) and Fall (decreasing) segment, in the seasonal cycle is visually discernable in a graph of the time series. The Rise and Fall segments largely result from seasonal differences in terrestrial ecosystem production, which means that the segment’s signal characteristics can be used to establish observational benchmarks because the signal characteristics are driven by similar underlying processes. We developed an analytical segmentation algorithm to characterize the Rise and Fall segments in XCO2 seasonal cycles. We present the algorithm for general application of the segmentation analysis and emphasize here that the segmentation analysis is more generally applicable to cyclic time series. We demonstrate the utility of the algorithm with specific results related to the comparison between satellite- and model-derived XCO2 seasonal cycles (2009–2012) for large bioregions on the globe. We found a seasonal amplitude gradient of 0.74–0.77 ppm for every 10˚ degrees of latitude for the satellite data, with similar gradients for Rise and Fall segments. This translates to a south-north seasonal amplitude gradient of 8 ppm for XCO2, about half the gradient in seasonal amplitude based on surface site in-situ CO2 data (~ 19 ppm). The latitudinal gradients in period of the satellite-derived seasonal cycles were of opposing sign and magnitude (-9 days/10˚ latitude for Fall segments, and 10 days/10˚ latitude for Rise segments), and suggests that a specific latitude (~ 2˚ N) exists which defines an inversion point for the period asymmetry. Before (after) the point of asymmetry inversion, the periods of Rise segments are less (greater) than the periods of Fall segments; only a single model could reproduce this emergent pattern. The asymmetry in amplitude and period between Rise and Fall segments introduces a novel pattern in seasonal cycle analyses, but while we show these emergent patterns exist in the data, we are still breaking ground in applying the information for science applications. Maybe the most useful application is that the segmentation analysis allowed us to decompose the model biases into their correlated parts of biases in amplitude, period, and phase, independently for Rise and Fall segments. We offer an extended discussion on how such information on model biases and the emergent patterns in satellite-derived seasonal cycles can be used to guide future inquiry and model development.

Published
2018

29. State of the science in reconciling top‐down and bottom‐up approaches for terrestrial CO2 budget

Author

Kondo, Masayuki, primary, Patra, Prabir K., additional, Sitch, Stephen, additional, Friedlingstein, Pierre, additional, Poulter, Benjamin, additional, Chevallier, Frederic, additional, Ciais, Philippe, additional, Canadell, Josep G., additional, Bastos, Ana, additional, Lauerwald, Ronny, additional, Calle, Leonardo, additional, Ichii, Kazuhito, additional, Anthoni, Peter, additional, Arneth, Almut, additional, Haverd, Vanessa, additional, Jain, Atul K., additional, Kato, Etsushi, additional, Kautz, Markus, additional, Law, Rachel M., additional, Lienert, Sebastian, additional, Lombardozzi, Danica, additional, Maki, Takashi, additional, Nakamura, Takashi, additional, Peylin, Philippe, additional, Rödenbeck, Christian, additional, Zhuravlev, Ruslan, additional, Saeki, Tazu, additional, Tian, Hanqin, additional, Zhu, Dan, additional, and Ziehn, Tilo, additional

Published
2019
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33. Reducing the environmental impact of unhairing process in colombia tanneries

Author

Fúquene Yate, Diana Marcela, Manrique Perdomo, Jorge Orlando, Calle, Leonardo Emilio, Yate, Andrea Viviana, Fúquene Yate, Diana Marcela, Manrique Perdomo, Jorge Orlando, Calle, Leonardo Emilio, and Yate, Andrea Viviana

Abstract

In Colombia, the largest percentage of tanneries are concentrated in the municipality of Cundinamarca, mainly in Villapinzón, a major study sites. Its discharges are sent to the upper basin of the Bogotá River. The tanneries are among the industrial sectors that have the greatest negative impact on water resources, specifically in the unhairing process because the mass ratio 1: 1 is operated on the weight of the furs to work. In order to evaluate options to minimize the negative impacts generated on the Bogota river by high volumes of effluents (average capacity of 300 drums of fur bump, average weight of a fur 25 kg), this study evaluates the feasibility of reuse discharges generated in the unhairing process through physical chemical treatment, assuring not to affect the quality of the end product. The water recirculation on the unhairing process does not increase operational costs. Instead, it represents a savings and reduces the negative environmental impact generated, considering reuse a water volume of about 50%.

Published
2018

34. Reviews and syntheses: An empirical spatiotemporal description of the global surface–atmosphere carbon fluxes: opportunities and data limitations

Author

Zscheischler, Jakob, Mahecha, Miguel D., Avitabile, Valerio, Calle, Leonardo, Carvalhais, Nuno, Ciais, Philippe, Gans, Fabian, Gruber, Nicolas, Hartmann, Jens, Herold, Martin, Ichii, Kazuhito, Jung, Martin, Landschützer, Peter, Laruelle, Goulven G., Lauerwald, Ronny, Papale, Dario, Peylin, Philippe, Poulter, Benjamin, Ray, Deepak, Regnier, Pierre, Rödenbeck, Christian, Roman-Cuesta, Rosa M., Schwalm, Christopher, Tramontana, Gianluca, Tyukavina, Alexandra, Valentini, Riccardo, van der Werf, Guido, West, Tristram O., Wolf, Julie E., Reichstein, Markus, Max Planck Institute for Biogeochemistry (MPI-BGC), Max-Planck-Gesellschaft, inconnu, Inconnu, Department of Biogeochemical Integration [Jena], Max-Planck-Gesellschaft-Max-Planck-Gesellschaft, Departamento de Ciências e Engenharia do Ambiente, DCEA, Faculdade de Ciências e Tecnologia, FCT, Laboratoire des Sciences du Climat et de l'Environnement [Gif-sur-Yvette] (LSCE), Université de Versailles Saint-Quentin-en-Yvelines (UVSQ)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut national des sciences de l'Univers (INSU - CNRS)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS), ICOS-ATC (ICOS-ATC), Université de Versailles Saint-Quentin-en-Yvelines (UVSQ)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut national des sciences de l'Univers (INSU - CNRS)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)-Université de Versailles Saint-Quentin-en-Yvelines (UVSQ)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut national des sciences de l'Univers (INSU - CNRS)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS), Department of Environmental Sciences, Eidgenössische Technische Hochschule - Swiss Federal Institute of Technology [Zürich] (ETH Zürich), Commissariat à l'énergie atomique et aux énergies alternatives - Laboratoire d'Electronique et de Technologie de l'Information (CEA-LETI), Direction de Recherche Technologique (CEA) (DRT (CEA)), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA), Structure et Réactivité des Systèmes Moléculaires Complexes (SRSMC), Institut de Chimie du CNRS (INC)-Université de Lorraine (UL)-Centre National de la Recherche Scientifique (CNRS), Pennsylvania State University (Penn State), Penn State System, Max-Planck-Institut für Meteorologie (MPI-M), Università degli studi della Tuscia [Viterbo], Modélisation des Surfaces et Interfaces Continentales (MOSAIC), Montana State University (MSU), Ecole Supérieure de Commerce de Grenoble (ESC Grenoble), EESC-GEM Grenoble Ecole de Management, Littérature, idéologies, représentations, XVIIIe-XIXe siècles (LIRE), Université Stendhal - Grenoble 3-École normale supérieure de Lyon (ENS de Lyon)-Université Lumière - Lyon 2 (UL2)-Université Jean Monnet - Saint-Étienne (UJM)-Centre National de la Recherche Scientifique (CNRS), Max-Planck-Institut, Graduate School of Geography, Clark University, Di.S.A.F.Ri, Faculty of Earth and Life Sciences [Amsterdam] (FALW), Vrije Universiteit Amsterdam [Amsterdam] (VU), Biology Department, University of Florida [Gainesville] (UF), Institut national des sciences de l'Univers (INSU - CNRS)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université de Versailles Saint-Quentin-en-Yvelines (UVSQ), Institut national des sciences de l'Univers (INSU - CNRS)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université de Versailles Saint-Quentin-en-Yvelines (UVSQ)-Institut national des sciences de l'Univers (INSU - CNRS)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université de Versailles Saint-Quentin-en-Yvelines (UVSQ), Grenoble Ecole de Management, and Université Stendhal - Grenoble 3-École normale supérieure - Lyon (ENS Lyon)-Université Lumière - Lyon 2 (UL2)-Université Jean Monnet [Saint-Étienne] (UJM)-Centre National de la Recherche Scientifique (CNRS)

Subjects
[SDU.OCEAN]Sciences of the Universe [physics]/Ocean, Atmosphere, Géologie et minéralogie, Ecologie, Laboratory of Geo-information Science and Remote Sensing, SDG 13 - Climate Action, Life Science, Laboratorium voor Geo-informatiekunde en Remote Sensing, SDG 14 - Life Below Water, Evolution des espèces, PE&RC, [SDU.ENVI]Sciences of the Universe [physics]/Continental interfaces, environment
Abstract

Understanding the global carbon (C) cycle is of crucial importance to map current and future climate dynamics relative to global environmental change. A full characterization of C cycling requires detailed information on spatiotemporal patterns of surface-atmosphere fluxes. However, relevant C cycle observations are highly variable in their coverage and reporting standards. Especially problematic is the lack of integration of the carbon dioxide (CO2) exchange of the ocean, inland freshwaters and the land surface with the atmosphere. Here we adopt a data-driven approach to synthesize a wide range of observation-based spatially explicit surface-atmosphere CO2 fluxes from 2001 to 2010, to identify the state of today's observational opportunities and data limitations. The considered fluxes include net exchange of open oceans, continental shelves, estuaries, rivers, and lakes, as well as CO2 fluxes related to net ecosystem productivity, fire emissions, loss of tropical aboveground C, harvested wood and crops, as well as fossil fuel and cement emissions. Spatially explicit CO2 fluxes are obtained through geostatistical and/or remote-sensing-based upscaling, thereby minimizing biophysical or biogeochemical assumptions encoded in process-based models. We estimate a bottom-up net C exchange (NCE) between the surface (land, ocean, and coastal areas) and the atmosphere. Though we provide also global estimates, the primary goal of this study is to identify key uncertainties and observational shortcomings that need to be prioritized in the expansion of in situ observatories. Uncertainties for NCE and its components are derived using resampling. In many regions, our NCE estimates agree well with independent estimates from other sources such as process-based models and atmospheric inversions. This holds for Europe (mean±1 SD: 0.8±0.1PgCyr-1, positive numbers are sources to the atmosphere), Russia (0.1±0.4PgCyr-1), East Asia (1.6±0.3PgCyr-1), South Asia (0.3±0.1PgCyr-1), Australia (0.2±0.3PgCyr-1), and most of the Ocean regions. Our NCE estimates give a likely too large CO2 sink in tropical areas such as the Amazon, Congo, and Indonesia. Overall, and because of the overestimated CO2 uptake in tropical lands, our global bottom-up NCE amounts to a net sink of -5.4±2.0PgCyr-1. By contrast, the accurately measured mean atmospheric growth rate of CO2 over 2001-2010 indicates that the true value of NCE is a net CO2 source of 4.3±0.1PgCyr-1. This mismatch of nearly 10PgCyr-1 highlights observational gaps and limitations of data-driven models in tropical lands, but also in North America. Our uncertainty assessment provides the basis for setting priority regions where to increase carbon observations in the future. High on the priority list are tropical land regions, which suffer from a lack of in situ observations. Second, extensive pCO2 data are missing in the Southern Ocean. Third, we lack observations that could enable seasonal estimates of shelf, estuary, and inland water-atmosphere C exchange. Our consistent derivation of data uncertainties could serve as prior knowledge in multicriteria optimization such as the Carbon Cycle Data Assimilation System (CCDAS) and atmospheric inversions, without over- or under-stating bottom-up data credibility. In the future, NCE estimates of carbon sinks could be aggregated at national scale to compare with the official national inventories of CO2 fluxes in the land use, land use change, and forestry sector, upon which future emission reductions are proposed., SCOPUS: re.j, info:eu-repo/semantics/published

Published
2017
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35. Ecosystem age-class dynamics and distribution in the LPJ-wsl v2.0 global ecosystem model.

Author

Calle, Leonardo and Poulter, Benjamin

Subjects
*ECOSYSTEM dynamics, *CARBON cycle, *HETEROTROPHIC respiration, *AGE distribution, *ECOSYSTEMS, *LAND management
Abstract

Forest ecosystem processes follow classic responses with age, peaking production around canopy closure and declin-ing thereafter. Although age dynamics might be more dominant in certain regions over others, demographic effects on net primary production (NPP) and heterotrophic respiration (Rh) are bound to exist. Yet, explicit representation of ecosystem demography is notably absent in most global ecosystem models. This is concerning because the glob-al community relies on these models to regularly update our collective understanding of the global carbon cycle. This paper aims to fill this gap in understanding by presenting the technical developments of a computationally-efficient approach for representing age-class dynamics within a global ecosystem model, the LPJ-wsl v2.0 Dynamic Global Vegetation Model. The modeled age-classes are initially created by fire feedbacks, wood harvesting, and abandonment of managed land, otherwise aging naturally until a stand-clearing disturbance is simulated or pre-scribed. In this paper, we show that the age-module can capture classic demographic patterns in stem density and tree height compared to inventory data, and that patterns of ecosystem function follow classic responses with age. We also present a few scientific applications of the model to assess the modeled age-class distribution over time and to determine the demographic effect on ecosystem fluxes relative to climate. Simulations show that, between 1860 and 2016, zonal age distribution on Earth was driven predominately by fire, causing a ~ 45-year difference in ages between boreal (50N-90N) and tropical (23S-23N) latitudes. Land use change and land management was responsible for an additional decrease in zonal age by -6 years in boreal and by -21 years in temperate (23N-50N) and tropical latitudes, with the anthropogenic effect on zonal age distribution increasing over time. A statistical model helped reduced LPJ-wsl complexity by predicting per-grid-cell annual NPP and Rh fluxes by three terms: precipitation, temperature and age-class; at global scales, R2 was between 0.95 and 0.98. As determined by the statistical model, the demographic effect on ecosystem function was often less than 0.10 kg C m-2 yr-1 but as high as 0.60 kg C m-2 yr-1 where the effect was greatest. In eastern forests of North America, the demographic effect was of similar magni-tude, or greater than, the effects of climate; demographic effects were similarly important in large regions of every vegetated continent. Spatial datasets are provided for global ecosystem ages and the estimated coefficients for effects of precipitation, temperature and demography on ecosystem function. The discussion focuses on our finding of an increasing role of demography in the global carbon cycle, the effect of demography on relaxation times (resilience) following a disturbance event and its implications at global scales, and a finding of a 40-Pg C increase in turnover from age dynamics at global scales. Whereas time is the only mechanism that increases ecosystem age, any addi-tional disturbance not explicitly modeled will decrease age. This LPJ-based age-module therefore simulates the up-per limit of age-class distributions on Earth and represents another step forward towards understanding the role of demography in global ecosystems. [ABSTRACT FROM AUTHOR]

Published
2020
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36. State of the science in reconciling top‐down and bottom‐up approaches for terrestrial CO2 budget.

Author

Kondo, Masayuki, Patra, Prabir K., Sitch, Stephen, Friedlingstein, Pierre, Poulter, Benjamin, Chevallier, Frederic, Ciais, Philippe, Canadell, Josep G., Bastos, Ana, Lauerwald, Ronny, Calle, Leonardo, Ichii, Kazuhito, Anthoni, Peter, Arneth, Almut, Haverd, Vanessa, Jain, Atul K., Kato, Etsushi, Kautz, Markus, Law, Rachel M., and Lienert, Sebastian

Subjects
MULTIPLE scale method, FOREST degradation, ATMOSPHERE, BUDGET, ATMOSPHERIC methane
Abstract

Robust estimates of CO2 budget, CO2 exchanged between the atmosphere and terrestrial biosphere, are necessary to better understand the role of the terrestrial biosphere in mitigating anthropogenic CO2 emissions. Over the past decade, this field of research has advanced through understanding of the differences and similarities of two fundamentally different approaches: "top‐down" atmospheric inversions and "bottom‐up" biosphere models. Since the first studies were undertaken, these approaches have shown an increasing level of agreement, but disagreements in some regions still persist, in part because they do not estimate the same quantity of atmosphere–biosphere CO2 exchange. Here, we conducted a thorough comparison of CO2 budgets at multiple scales and from multiple methods to assess the current state of the science in estimating CO2 budgets. Our set of atmospheric inversions and biosphere models, which were adjusted for a consistent flux definition, showed a high level of agreement for global and hemispheric CO2 budgets in the 2000s. Regionally, improved agreement in CO2 budgets was notable for North America and Southeast Asia. However, large gaps between the two methods remained in East Asia and South America. In other regions, Europe, boreal Asia, Africa, South Asia, and Oceania, it was difficult to determine whether those regions act as a net sink or source because of the large spread in estimates from atmospheric inversions. These results highlight two research directions to improve the robustness of CO2 budgets: (a) to increase representation of processes in biosphere models that could contribute to fill the budget gaps, such as forest regrowth and forest degradation; and (b) to reduce sink–source compensation between regions (dipoles) in atmospheric inversion so that their estimates become more comparable. Advancements on both research areas will increase the level of agreement between the top‐down and bottom‐up approaches and yield more robust knowledge of regional CO2 budgets. [ABSTRACT FROM AUTHOR]

Published
2020
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43. An empirical spatiotemporal description of the global surface-atmosphere carbon fluxes: opportunities and data limitations

Author

Zscheischler, Jakob, primary, Mahecha, Miguel D., additional, Avitabile, Valerio, additional, Calle, Leonardo, additional, Carvalhais, Nuno, additional, Ciais, Philippe, additional, Gans, Fabian, additional, Gruber, Nicolas, additional, Hartmann, Jens, additional, Herold, Martin, additional, Ichii, Kazuhito, additional, Jung, Martin, additional, Landschützer, Peter, additional, Laruelle, Goulven G., additional, Lauerwald, Ronny, additional, Papale, Dario, additional, Peylin, Philippe, additional, Poulter, Benjamin, additional, Ray, Deepak, additional, Regnier, Pierre, additional, Rödenbeck, Christian, additional, Roman-Cuesta, Rosa M., additional, Schwalm, Christopher, additional, Tramontana, Gianluca, additional, Tyukavina, Alexandra T., additional, Valentini, Ricardo, additional, van der Werf, Guido, additional, West, Tristram O., additional, Wolf, Julie E., additional, and Reichstein, Markus, additional

Published
2016
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44. Supplementary material to "An empirical spatiotemporal description of the global surface-atmosphere carbon fluxes: opportunities and data limitations"

Author

Zscheischler, Jakob, primary, Mahecha, Miguel D., additional, Avitabile, Valerio, additional, Calle, Leonardo, additional, Carvalhais, Nuno, additional, Ciais, Philippe, additional, Gans, Fabian, additional, Gruber, Nicolas, additional, Hartmann, Jens, additional, Herold, Martin, additional, Ichii, Kazuhito, additional, Jung, Martin, additional, Landschützer, Peter, additional, Laruelle, Goulven G., additional, Lauerwald, Ronny, additional, Papale, Dario, additional, Peylin, Philippe, additional, Poulter, Benjamin, additional, Ray, Deepak, additional, Regnier, Pierre, additional, Rödenbeck, Christian, additional, Roman-Cuesta, Rosa M., additional, Schwalm, Christopher, additional, Tramontana, Gianluca, additional, Tyukavina, Alexandra T., additional, Valentini, Ricardo, additional, van der Werf, Guido, additional, West, Tristram O., additional, Wolf, Julie E., additional, and Reichstein, Markus, additional

Published
2016
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45. A segmentation algorithm for characterizing Rise and Fall segments in seasonal cycles: an application to XCO2 to estimate benchmarks and assess model bias.

Author

Calle, Leonardo, Poulter, Benjamin, and Patra, Prabir K.

Subjects
*ALGORITHMS, *CARBON dioxide, *TIME series analysis
Abstract

There is more useful information in the time series of satellite-derived column-averaged carbon dioxide (XCO2) than is typically characterized. Often, the entire time series is treated at once without considering detailed features at shorter timescales, such as non-stationary changes in signal characteristics – amplitude, period, and phase. In many instances, signals are visually and analytically differentiable from other portions in a time series. Each Rise (increasing) and Fall (decreasing) segment, in the seasonal cycle is visually discernable in a graph of the time series. The Rise and Fall segments largely result from seasonal differences in terrestrial ecosystem production, which means that the segment’s signal characteristics can be used to establish observational benchmarks because the signal characteristics are driven by similar underlying processes. We developed an analytical segmentation algorithm to characterize the Rise and Fall segments in XCO2 seasonal cycles. We present the algorithm for general application of the segmentation analysis and emphasize here that the segmentation analysis is more generally applicable to cyclic time series. We demonstrate the utility of the algorithm with specific results related to the comparison between satellite- and model-derived XCO2 seasonal cycles (2009–2012) for large bioregions on the globe. We found a seasonal amplitude gradient of 0.74–0.77 ppm for every 10˚ degrees of latitude for the satellite data, with similar gradients for Rise and Fall segments. This translates to a south-north seasonal amplitude gradient of 8ppm for XCO2, about half the gradient in seasonal amplitude based on surface site in-situ CO2 data (~19ppm). The latitudinal gradients in period of the satellite-derived seasonal cycles were of opposing sign and magnitude (-9 days/10˚ latitude for Fall segments, and 10 days/10˚ latitude for Rise segments), and suggests that a specific latitude (~2˚N) exists which defines an inversion point for the period asymmetry. Before (after) the point of asymmetry inversion, the periods of Rise segments are less (greater) than the periods of Fall segments; only a single model could reproduce this emergent pattern. The asymmetry in amplitude and period between Rise and Fall segments introduces a novel pattern in seasonal cycle analyses, but while we show these emergent patterns exist in the data, we are still breaking ground in applying the information for science applications. Maybe the most useful application is that the segmentation analysis allowed us to decompose the model biases into their correlated parts of biases in amplitude, period, and phase, independently for Rise and Fall segments. We offer an extended discussion on how such information on model biases and the emergent patterns in satellite-derived seasonal cycles can be used to guide future inquiry and model development. [ABSTRACT FROM AUTHOR]

Published
2018
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46. Histerosonografía en el diagnóstico de patologías endometriales con hemorragia uterina anormal, en el Hospital José Carrasco Arteaga, Cuenca, 2010-2012

Author

Calle Calle, Leonardo Aníbal, Pazos Manzano, Presley Eduardo, and Arévalo Peláez, Carlos Eduardo

Subjects
Histopatologia, Histerosonografia, Sensibilidad, Ecuador, Hospital Jose Carrasco Arteaga, Patologia, Cuenca, Especificidad
Abstract

Objetivo: Validar la histerosonografía para el diagnóstico de patologías endometriales en mujeres con hemorragia uterina anormal en comparación con histopatología en la consulta externa del Hospital José Carrasco Arteaga. Cuenca 2010-2012. Material y métodos: El estudio incluyo 250 pacientes con hemorragia uterina anormal valoradas por el especialista y remitidas para valoración por imagenología. Se realizó pruebas de Histerosonografía y análisis de histopatología a todas las pacientes. Se obtuvieron valores de sensibilidad, especificidad, valores predictivos positivos y negativos y razones de verosimilitud. Resultados: La media de edad fue de 48,69 años de edad; la media de edad de presentación de menarquía fue de 12,89 años mientras que la media de edad para la presentación de menopausia fue de 44,17 años; la hemorragia anormal de mayor presentación fue la hipermenorrea con el 36,4%. Mediante la técnica histerosonográfica el principal diagnóstico encontrado fue el pólipo endometrial con el 26,8%.Mientras que mediante la histopatología la hiperplasia endometrial fue el principal diagnóstico con un 24,8%. La sensibilidad de la histerosonografía para diagnóstico de patologías uterinas fue de 90.08% (IC: 83.31 – 94.40) y la especificidad del 94.79 %(65.85 – 82.10) Conclusiones: La histerosonografía presentó una alta sensibilidad y especificidad para el diagnóstico de pólipos endometriales, hiperplasia endometrial y endometrio normal. Descriptores: HISTEROSONOGRAFIA, HISTOPATOLOGIA, PATOLOGIA/CLASIFICACION, SENSIBILIDAD Y ESPECIFICIDAD, HOSPITAL JOSE CARRASCO ARTEAGA DEL INSTITUTO ECUATORIANO DE SEGURIDAD SOCIAL. Objective: To validate hysterosonography for diagnosing endometrial pathology in women with abnormal uterine bleeding compared with histopathology Hospital outpatient José Carrasco Arteaga, from October 2010 to complete the sample. Methods: 250 patients with abnormaluterine bleeding valuated by the specialist and dispatched to imagenology valuation. There were performed hysterosonography and histopathology analysis to all patients. Sensitivity, specificity, predictive positive values and negative values were calculated. Results: The study sample had the following gynecological characteristics: the mean age was 48.69 years old, the average age of onset of menarche was 12.89 years while the average age for menopause presentation was 44.17 years, and abnormal bleeding occurred most frequently were hypermenorrhea with 36.4 %. Hysterosonography revealed polyps as the main pathology founded (26.8%). Meanwhile the histopathology revealed hyperplasia endometrial as the main diagnostic (24.8%). Hysterosonography sensitivity to diagnose endometrial pathologies were 90.08% (83.31 – 94.40) and the specificity 94.79% (IC: 65.85 – 82.10 Conclusions: Hysterosonography showed high sensitivity and specificity for the diagnosis of endometrial polyps, endometrial hyperplasia and normal endometrium. KEYWORDS: HYSTEROSONOGRAPHY, HISTOPATHOLOGY, PATHOLOGY / CLASSIFICATION, SENSITIVITY AND SPECIFICITY, HOSPITAL JOSE CARRASCO ARTEAGA ECUADORIAN SOCIAL SECURITY INSTITUTE. Especialista en Imagenología Cuenca

Published
2013

47. Plant Regrowth as a Driver of Recent Enhancement of Terrestrial CO2 Uptake.

Author

Kondo, Masayuki, Ichii, Kazuhito, Patra, Prabir K., Poulter, Benjamin, Calle, Leonardo, Koven, Charles, Pugh, Thomas A. M., Kato, Etsushi, Harper, Anna, Zaehle, Sönke, and Wiltshire, Andy

Abstract

Abstract: The increasing strength of land CO2 uptake in the 2000s has been attributed to a stimulating effect of rising atmospheric CO2 on photosynthesis (CO2 fertilization). Using terrestrial biosphere models, we show that enhanced CO2 uptake is induced not only by CO2 fertilization but also an increasing uptake by plant regrowth (accounting for 0.33 ± 0.10 Pg C/year increase of CO2 uptake in the 2000s compared with the 1960s–1990s) with its effect most pronounced in eastern North America, southern‐eastern Europe, and southeastern temperate Eurasia. Our analysis indicates that ecosystems in North America and Europe have established the current productive state through regrowth since the 1960s, and those in temperate Eurasia are still in a stage from regrowth following active afforestation in the 1980s–1990s. As the strength of model representation of CO2 fertilization is still in debate, plant regrowth might have a greater potential to sequester carbon than indicated by this study. [ABSTRACT FROM AUTHOR]

Published
2018
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48. Land use change and El Niño-Southern Oscillationdrive decadal carbon balance shifts in SoutheastAsia.

Author

Masayuki Kondo, Kazuhito Ichii, Patra, Prabir K., Canadell, Joseph G., Poulter, Benjamin, Sitch, Stephen, Calle, Leonardo, Liu, Yi Y., van Dijk, Albert I. J. M., Tazu Saeki, Nobuko Saigusa, Friedlingstein, Pierre, Arneth, Almut, Harper, Anna, Jain, Atul K., Etsushi Kato, Koven, Charles, Fang Li, Pugh, Thomas A. M., and Zaehle, Sönke

Abstract

An integrated understanding of the biogeochemical consequences of climate extremes and land use changes is needed to constrain land-surface feedbacks to atmospheric CO2 from associated climate change. Past assessments of the global carbon balance have shown particularly high uncertainty in Southeast Asia. Here, we use a combination of model ensembles to show that intensified land use change made Southeast Asia a strong source of CO2 from the 1980s to 1990s, whereas the region was close to carbon neutral in the 2000s due to an enhanced CO2 fertilization effect and absence of moderate-to-strong El Niño events. Our findings suggest that despite ongoing deforestation, CO2 emissions were substantially decreased during the 2000s, largely owing to milder climate that restores photosynthetic capacity and suppresses peat and deforestation fire emissions. The occurrence of strong El Niño events after 2009 suggests that the region has returned to conditions of increased vulnerability of carbon stocks. [ABSTRACT FROM AUTHOR]

Published
2018
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49. Foraging ecology of wading birds in a sub-tropical intertidal zone

Author

Calle, Leonardo (author), Gawlik, Dale E. (Thesis advisor), Florida Atlantic University (Degree grantor), Charles E. Schmidt College of Science, Department of Biological Sciences, Calle, Leonardo (author), Gawlik, Dale E. (Thesis advisor), Florida Atlantic University (Degree grantor), Charles E. Schmidt College of Science, and Department of Biological Sciences

Abstract

Summary: The first of five chapters describe the study area and study species, including a short description about the impetus for this research. The second chapter describes a unique hydrologic model for application in tidal ecosystems. The second chapter represents new information on the effects of various abiotic and biotic factors on foraging wading birds in this highly dynamic environment. The third chapter identifies important factors affecting the abundance of foraging wading birds in intertidal environments. The fourth chapter presents a study of the foraging habitat preferences of two wading bird species in intertidal environments. The fifth chapter describes a conceptual model of wading bird foraging ecology and a predictive model of foraging habitat in intertidal zones. The conceptual model captures the major drivers and linkages between the abiotic and biotic variables thought to affect wading bird foraging abundance in intertidal habitats. The conceptual model also identifies major knowledge gaps in our understanding of foraging ecology of wading birds in coastal intertidal areas. The predictive model of foraging habitat is meant to be used by resource managers, but its framework may be useful for ecological studies in general. The final and sixth chapter provides a summary of all the major findings. Each chapter has been written so as to be independent of the other chapters. As such, a full background, along with a discussion of the relevance of the chapter's findings is provided for each chapter., 2014, Includes bibliography., Degree granted: Thesis (M.S.)--Florida Atlantic University, 2014., Collection: FAU Electronic Theses and Dissertations Collection

Published
2014

50. Histerosonografía en el diagnóstico de patologías endometriales con hemorragia uterina anormal, en el Hospital José Carrasco Arteaga, Cuenca, 2010-2012

Author

Pazos Manzano, Presley Eduardo, Arévalo Peláez, Carlos Eduardo, Calle Calle, Leonardo Aníbal, Pazos Manzano, Presley Eduardo, Arévalo Peláez, Carlos Eduardo, and Calle Calle, Leonardo Aníbal

Abstract

Objective: To validate hysterosonography for diagnosing endometrial pathology in women with abnormal uterine bleeding compared with histopathology Hospital outpatient José Carrasco Arteaga, from October 2010 to complete the sample. Methods: 250 patients with abnormaluterine bleeding valuated by the specialist and dispatched to imagenology valuation. There were performed hysterosonography and histopathology analysis to all patients. Sensitivity, specificity, predictive positive values and negative values were calculated. Results: The study sample had the following gynecological characteristics: the mean age was 48.69 years old, the average age of onset of menarche was 12.89 years while the average age for menopause presentation was 44.17 years, and abnormal bleeding occurred most frequently were hypermenorrhea with 36.4 %. Hysterosonography revealed polyps as the main pathology founded (26.8%). Meanwhile the histopathology revealed hyperplasia endometrial as the main diagnostic (24.8%). Hysterosonography sensitivity to diagnose endometrial pathologies were 90.08% (83.31 – 94.40) and the specificity 94.79% (IC: 65.85 – 82.10 Conclusions: Hysterosonography showed high sensitivity and specificity for the diagnosis of endometrial polyps, endometrial hyperplasia and normal endometrium. KEYWORDS: HYSTEROSONOGRAPHY, HISTOPATHOLOGY, PATHOLOGY / CLASSIFICATION, SENSITIVITY AND SPECIFICITY, HOSPITAL JOSE CARRASCO ARTEAGA ECUADORIAN SOCIAL SECURITY INSTITUTE.

Published
2013

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