Your search keyword '"Santiago LS"' showing total 190 results

51. Irrigated urban trees exhibit greater functional trait plasticity compared to natural stands.

Author

Ibsen PC, Santiago LS, Shiflett SA, Chandler M, and Jenerette GD

Subjects

Environment, Carbon, Water physiology, Plant Leaves, Ecosystem, Trees

Abstract

Urbanization creates novel ecosystems comprised of species assemblages and environments with no natural analogue. Moreover, irrigation can alter plant function compared to non-irrigated systems. However, the capacity of irrigation to alter functional trait patterns across multiple species is unknown but may be important for the dynamics of urban ecosystems. We evaluated the hypothesis that urban irrigation influences plasticity in functional traits by measuring carbon-gain and water-use traits of 30 tree species planted in Southern California, USA spanning a coastal-to-desert gradient. Tree species respond to irrigation through increasing the carbon-gain trait relationship of leaf nitrogen per specific leaf area compared to their native habitat. Moreover, most species shift to a water-use strategy of greater water loss through stomata when planted in irrigated desert-like environments compared to coastal environments, implying that irrigated species capitalize on increased water availability to cool their leaves in extreme heat and high evaporative demand conditions. Therefore, irrigated urban environments increase the plasticity of trait responses compared to native ecosystems, allowing for novel response to climatic variation. Our results indicate that trees grown in water-resource-rich urban ecosystems can alter their functional traits plasticity beyond those measured in native ecosystems, which can lead to plant trait dynamics with no natural analogue.

Published

2023

52. A 3D Bioprinted Gut Anaerobic Model for Studying Bacteria-Host Interactions.

Author

Cheng L, Liu T, Liu Q, Lian L, Tang G, Mille LS, García FR, Engstrand L, Zhang YS, and Du J

Abstract

The role of the human intestinal tract in host-microbe interactions has been highlighted in recent years. Several 3-dimensional (3D) models have been developed to reproduce the physiological characteristics of the human gut and to investigate the function of the gut microbiota. One challenge for 3D models is to recapitulate the low oxygen concentrations in the intestinal lumen. Moreover, most earlier 3D culture systems used a membrane to physically separate bacteria from the intestinal epithelium, which has sometimes made the studies of bacteria adhering to or invading cells less feasible. We report the establishment of a 3D gut epithelium model and cultured it at high cell viability under an anaerobic condition. We further cocultured intestinal bacteria including both commensal and pathogen directly with epithelial cells in the established 3D model under the anaerobic condition. We subsequently compared the gene expression differences of aerobic and anaerobic conditions for cell and bacterial growth via dual RNA sequencing. Our study provides a physiologically relevant 3D gut epithelium model that mimics the anaerobic condition in the intestinal lumen and supplies a powerful system for future in-depth gut-microbe interactional investigations., (Copyright © 2023 Liqin Cheng et al.)

Published

2023

53. Time will tell: towards high-resolution temporal tree-ring isotope analyses.

Author

Schönbeck LC and Santiago LS

Subjects

Oxygen Isotopes, Carbon Isotopes, Trees

Published

2022

54. Convergence in phosphorus constraints to photosynthesis in forests around the world.

Author

Ellsworth DS, Crous KY, De Kauwe MG, Verryckt LT, Goll D, Zaehle S, Bloomfield KJ, Ciais P, Cernusak LA, Domingues TF, Dusenge ME, Garcia S, Guerrieri R, Ishida FY, Janssens IA, Kenzo T, Ichie T, Medlyn BE, Meir P, Norby RJ, Reich PB, Rowland L, Santiago LS, Sun Y, Uddling J, Walker AP, Weerasinghe KWLK, van de Weg MJ, Zhang YB, Zhang JL, and Wright IJ

Subjects

Carbon, Photosynthesis, Plant Leaves physiology, Trees physiology, Forests, Phosphorus

Abstract

Tropical forests take up more carbon (C) from the atmosphere per annum by photosynthesis than any other type of vegetation. Phosphorus (P) limitations to C uptake are paramount for tropical and subtropical forests around the globe. Yet the generality of photosynthesis-P relationships underlying these limitations are in question, and hence are not represented well in terrestrial biosphere models. Here we demonstrate the dependence of photosynthesis and underlying processes on both leaf N and P concentrations. The regulation of photosynthetic capacity by P was similar across four continents. Implementing P constraints in the ORCHIDEE-CNP model, gross photosynthesis was reduced by 36% across the tropics and subtropics relative to traditional N constraints and unlimiting leaf P. Our results provide a quantitative relationship for the P dependence for photosynthesis for the front-end of global terrestrial C models that is consistent with canopy leaf measurements., (© 2022. The Author(s).)

Published

2022

55. An expanded whole-cell model of E. coli links cellular physiology with mechanisms of growth rate control.

Author

Ahn-Horst TA, Mille LS, Sun G, Morrison JH, and Covert MW

Subjects

Amino Acids metabolism, RNA, Messenger, Escherichia coli genetics, Escherichia coli metabolism, Guanosine Tetraphosphate metabolism

Abstract

Growth and environmental responses are essential for living organisms to survive and adapt to constantly changing environments. In order to simulate new conditions and capture dynamic responses to environmental shifts in a developing whole-cell model of E. coli, we incorporated additional regulation, including dynamics of the global regulator guanosine tetraphosphate (ppGpp), along with dynamics of amino acid biosynthesis and translation. With the model, we show that under perturbed ppGpp conditions, small molecule feedback inhibition pathways, in addition to regulation of expression, play a role in ppGpp regulation of growth. We also found that simulations with dysregulated amino acid synthesis pathways provide average amino acid concentration predictions that are comparable to experimental results but on the single-cell level, concentrations unexpectedly show regular fluctuations. Additionally, during both an upshift and downshift in nutrient availability, the simulated cell responds similarly with a transient increase in the mRNA:rRNA ratio. This additional simulation functionality should support a variety of new applications and expansions of the E. coli Whole-Cell Modeling Project., (© 2022. The Author(s).)

Published

2022

56. Multimodality Molecular Imaging in Arthropathy Associated with Multiple Myeloma.

Author

Almeida LS, de Souza SPM, de Souza FVP, Reis F, and Ramos CD

Abstract

We report a patient with multiple myeloma (MM) and polyarthritis of large joints. During the staging of the disease, bone marrow diffusely involved by MM was clearly demonstrated by 99mTc-2-methoxy-isobutyl-isonitrile (MIBI) single-photon emission computed tomography/computed tomography (SPECT/CT) but not by 18F-fluorodeoxyglucose (18F-FDG) positron emission tomography/CT images. On the other hand, a very intense uptake of 18F-FDG was detected in periarticular tissues of multiple joints, with nonabnormal 99mTc-MIBI accumulation. Rheumatology tests were negative. A subsequent bone scintigraphy demonstrated radiolabeled bisphosphonate accumulation in periarticular tissues, suggesting amyloid arthropathy., Competing Interests: There are no conflicts of interest., (Copyright: © 2022 Indian Journal of Nuclear Medicine.)

Published

2022

57. Cross-cultural adaptation for Brazil and validity of a guide to assist nursing students' clinical reasoning.

Author

Guandalini LS, Santos VB, Tesoro MG, Maurício AB, Drehmer de Almeida Cruz E, de Lima Lopes J, Lopes CT, and Bottura Leite de Barros AL

Subjects

Brazil, Clinical Reasoning, Cross-Cultural Comparison, Humans, Reproducibility of Results, Surveys and Questionnaires, Translations, Students, Nursing

Abstract

Purpose: To assess the validity of a Written Clinical Reasoning Prompt (WCRP) to help nursing students' clinical reasoning (CR)., Method: This is a methodological study of translation and cross-cultural adaptation into Brazilian Portuguese of instruments that aim to promote CR improvement, composed of (1) WCRP; (2) two case studies; (3) a questionnaire about students' perceptions during decision-making in case studies; (4) a scoring rubric for correcting case studies. For translation and cross-cultural adaptation, stages 1-8 of the Research Diagnostic Criteria for Temporomandibular Disorders (RDC/TMD) Consortium Network were adopted. Agreement values among experts >80% and content validity coefficient (CVC) > 0.8 were considered satisfactory. For the pretest, a randomized clinical trial was carried out with 24 nursing students (intervention group, n = 14, using the WCRP to solve case studies; control group, n = 10, without using the WCRP)., Findings: The WCRP was translated and adapted into Brazilian Portuguese, requiring minimal adjustments to obtain agreement among the judges above 80% and CVC above 0.80. Regarding face validation, an adequate agreement was obtained in the assessment by students. There was no difference in the accuracy of nursing diagnoses between the intervention and control groups in the pretest., Conclusion: The WCRP was translated and adapted into Brazilian Portuguese and had adequate face and content validity estimates; however, there was no association with improving nursing students' diagnostic accuracy., Implications for Nursing Practice: The translated and adapted versions of all instruments into Brazilian Portuguese had adequate evidence of content and face validity. The use of WCRP was not associated with a significant improvement in nursing students' diagnostic accuracy. New studies with larger samples, a sample power of at least 80%, and a level of significance of 5% are needed., (© 2021 NANDA International, Inc.)

Published

2022

58. Traditional Fermented Foods from Ecuador: A Review with a Focus on Microbial Diversity.

Author

Guerra LS, Cevallos-Cevallos JM, Weckx S, and Ruales J

Abstract

The development of early civilizations was greatly associated with populations' ability to exploit natural resources. The development of methods for food preservation was one of the pillars for the economy of early societies. In Ecuador, food fermentation significantly contributed to social advances and fermented foods were considered exclusive to the elite or for religious ceremonies. With the advancement of the scientific research on bioprocesses, together with the implementation of novel sequencing tools for the accurate identification of microorganisms, potential health benefits and the formation of flavor and aroma compounds in fermented foods are progressively being described. This review focuses on describing traditional fermented foods from Ecuador, including cacao and coffee as well as less popular fermented foods. It is important to provide new knowledge associated with nutritional and health benefits of the traditional fermented foods.

Published

2022

59. One more and one less: a new species of large bromelicolous lizard (Gymnophthalmidae: Anadia) from the Andean cloud forests of northwestern Colombia and the phylogenetic status of Anadia antioquensis.

Author

Amzquita A, Daza JM, Contreras LAB, Orejuela C, Barrientos LS, and Mazariegos H LA

Subjects

Animals, Body Size, Colombia, Forests, Phylogeny, Lizards

Abstract

The genus Anadia (family Gymnophthalmidae) consists of 19 species. It has remained almost taxonomically stable for decades, scarcely observed, in addition to being one of the less sampled gymnophthalmid genera with respect to molecular phylogenies. New Anadia species are discovered at a relatively low pace, and few specimens are found in the field, probably due to the arboreal habits of many low and mid elevation species. We describe here a new species of Anadia from the cloud forests of northwestern Colombia: the new species is easily diagnosed by the combination of shape and imbrication of dorsal scales, very large body size, the largest within its group, and large and non-overlapping number of longitudinal scale rows around midbody. We also tested the phylogenetic position of the recently described and geographically close A. antioquensis. A phylogenetic analysis based on four genomic regions recovered the new species as sister to A. buenaventura, whereas A. antioquensis was reassigned to the genus Riama. The new species is currently known from only three specimens, collected throughout eight years within less than 5 ha of the Mesenia-Paramillo Nature Reserve. Although its apparent rarity may be due to secretive habits, the species is provisionally declared vulnerable, while new information is available. To stimulate further research on this genus, we also compiled and present here the comparable information on the distribution and morphology of Anadia species. Altogether, the results stress the urge for a new review of the genus with the help of molecular data.

Published

2022

60. Effect of a guide for clinical reasoning on Nursing students' diagnostic accuracy: A clinical trial.

Author

Maurício AB, Cruz EDA, Barros ALBL, Tesoro MG, Lopes CT, Simmons AM, Lopes JL, and Guandalini LS

Subjects

Clinical Reasoning, Humans, Education, Nursing, Baccalaureate, Students, Nursing

Abstract

Objective: to evaluate the effect of the Self-Instructional Guide for Clinical Reasoning on the diagnostic accuracy of undergraduate Nursing students., Method: a randomized, parallel and double-blind (researchers and outcome evaluators) clinical trial, carried out with undergraduate Nursing students. Validated case studies were applied in two phases to identify the patient's Nursing diagnosis/problem, etiology and clues, using the Guide with the intervention group in the second phase. The outcomes - diagnostic and etiological accuracy and number of clues - were evaluated using validated rubrics. Descriptive statistics were used to analyze demographic data; Fisher's exact test for similarities in prior education and confidence; Mann-Whitney's test for age; and non-parametric ANOVA test in the evaluation of the hypothesis of differences in performance., Results: final sample composed of 24 students in the control group and 27 in the intervention group; no difference as to gender, age and schooling. There was a difference in diagnostic (p=0.041) and etiological (p=0.0351) accuracy in the intervention group, showing a negative effect of using the Guide., Conclusion: the one-time self-instruction was not effective in impacting the diagnostic accuracy of students solving case studies. Repeated application of the Guide as a teaching tool can be effective in improving such outcome. REBEC: RBR-4bhr78.

Published

2022

61. Undergraduate research in medicine: A summary of the evidence on problems, solutions and outcomes.

Author

Mass-Hernández LM, Acevedo-Aguilar LM, Lozada-Martínez ID, Osorio-Agudelo LS, Maya-Betancourth JGEM, Paz-Echeverry OA, Paz-Echeverry MJ, Castillo-Pastuzan HS, Rojas-Pimentel JC, and Rahman S

Abstract

Scientific research plays a fundamental role in current medical practice and it is of great importance that medical students relate to it from the beginning of their professional career, since it generates multiple benefits that will be reflected during the course of their careers as university students and future professionals. However, getting involved in research during the undergraduate years is not always easy, as there are different obstacles and challenges that result in a reduced number of research students. Because of this, it is necessary to adopt appropriate strategies and measures to help facilitate this process, in order to foster the early development of essential skills that will facilitate responsible clinical practice. Knowing the evidence on this issue is fundamental to propose educational solutions depending on each context., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2022 The Authors.)

Published

2022

62. Photoacoustic imaging of 3D-printed vascular networks.

Author

Ma C, Li W, Li D, Chen M, Wang M, Jiang L, Mille LS, Garciamendez CE, Zhao Z, Zhou Q, Zhang YS, and Yao J

Subjects

Microscopy methods, Printing, Three-Dimensional, Spectrum Analysis, Photoacoustic Techniques methods

Abstract

Thrombosis in the circulation system can lead to major myocardial infarction and cardiovascular deaths. Understanding thrombosis formation is necessary for developing safe and effective treatments. In this work, using digital light processing (DLP)-based 3D printing, we fabricated sophisticated in vitro models of blood vessels with internal microchannels that can be used for thrombosis studies. In this regard, photoacoustic microscopy (PAM) offers a unique advantage for label-free visualization of the 3D-printed vessel models, with large penetration depth and functional sensitivity. We compared the imaging performances of two PAM implementations: optical-resolution PAM and acoustic-resolution PAM, and investigated 3D-printed vessel structures with different patterns of microchannels. Our results show that PAM can provide clear microchannel structures at depths up to 3.6 mm. We further quantified the blood oxygenation in the 3D-printed vascular models, showing that thrombi had lower oxygenation than the normal blood. We expect that PAM can find broad applications in 3D printing and bioprinting for in vitro studies of various vascular and other diseases., (© 2022 IOP Publishing Ltd.)

Published

2022

63. Outdoor Radon as a Tool to Estimate Radon Priority Areas-A Literature Overview.

Author

Čeliković I, Pantelić G, Vukanac I, Krneta Nikolić J, Živanović M, Cinelli G, Gruber V, Baumann S, Quindos Poncela LS, and Rabago D

Subjects

Housing, Air Pollutants, Radioactive analysis, Air Pollution, Indoor analysis, Radiation Monitoring, Radon analysis

Abstract

Doses from the exposure to outdoor radon are typically an order of magnitude smaller than those from indoor radon, causing a greater interest on investigation of the latter for radiation protection issues. As a consequence, assessment of radon priority areas (RPA) is mainly based on indoor radon measurements. Outdoor radon measurements might be needed to guarantee a complete estimation of radiological risk and may help to improve the estimation of RPA. Therefore, authors have analysed the available literature on outdoor radon to give an overview of outdoor radon surveys and potential correlation with indoor radon and estimation of RPA. The review has shown that outdoor radon surveys were performed at much smaller scale compared to indoor radon. Only a few outdoor radon maps were produced, with a much smaller density, covering a larger area, and therefore putting doubt on the representativeness of this data. Due to a large variety of techniques used for outdoor radon measurements and requirement to have detectors with a high sensitivity and resistance to harsh environmental conditions, a standardised measurement protocol should be derived. This is no simple endeavour since there are more applications in different scientific disciplines for outdoor radon measurements compared to indoor radon.

Published

2022

64. Large variation in availability of Maya food plant sources during ancient droughts.

Author

Fedick SL and Santiago LS

Subjects

Agriculture, History, Ancient, Humans, Indians, Central American, Diet, Droughts, Plants, Edible

Abstract

Paleoclimatic evidence indicating a series of droughts in the Yucatan Peninsula during the Terminal Classic period suggests that climate change may have contributed to the disruption or collapse of Classic Maya polities. Although climate change cannot fully account for the multifaceted, political turmoil of the period, it is clear that droughts of strong magnitude could have limited food availability, potentially causing famine, migration, and societal decline. Maize was undoubtedly an important staple food of the ancient Maya, but a complete analysis of other food resources that would have been available during drought remains unresolved. Here, we assess drought resistance of all 497 indigenous food plant species documented in ethnographic, ethnobotanical, and botanical studies as having been used by the lowland Maya and classify the availability of these plant species and their edible components under various drought scenarios. Our analysis indicates availability of 83% of food plant species in short-term drought, but this percentage drops to 22% of food plant species available in moderate drought up to 1 y. During extreme drought, lasting several years, our analysis indicates availability of 11% of food plant species. Our results demonstrate a greater diversity of food sources beyond maize that would have been available to the Maya during climate disruption of the Terminal Classic period than has been previously acknowledged. While drought would have necessitated shifts in dietary patterns, the range of physiological drought responses for the available food plants would have allowed a continuing food supply under all but the most dire conditions., Competing Interests: The authors declare no competing interest., (Copyright © 2021 the Author(s). Published by PNAS.)

Published

2022

65. Testing a global standard for quantifying species recovery and assessing conservation impact.

Author

Grace MK, Akçakaya HR, Bennett EL, Brooks TM, Heath A, Hedges S, Hilton-Taylor C, Hoffmann M, Hochkirch A, Jenkins R, Keith DA, Long B, Mallon DP, Meijaard E, Milner-Gulland EJ, Rodriguez JP, Stephenson PJ, Stuart SN, Young RP, Acebes P, Alfaro-Shigueto J, Alvarez-Clare S, Andriantsimanarilafy RR, Arbetman M, Azat C, Bacchetta G, Badola R, Barcelos LMD, Barreiros JP, Basak S, Berger DJ, Bhattacharyya S, Bino G, Borges PAV, Boughton RK, Brockmann HJ, Buckley HL, Burfield IJ, Burton J, Camacho-Badani T, Cano-Alonso LS, Carmichael RH, Carrero C, Carroll JP, Catsadorakis G, Chapple DG, Chapron G, Chowdhury GW, Claassens L, Cogoni D, Constantine R, Craig CA, Cunningham AA, Dahal N, Daltry JC, Das GC, Dasgupta N, Davey A, Davies K, Develey P, Elangovan V, Fairclough D, Febbraro MD, Fenu G, Fernandes FM, Fernandez EP, Finucci B, Földesi R, Foley CM, Ford M, Forstner MRJ, García N, Garcia-Sandoval R, Gardner PC, Garibay-Orijel R, Gatan-Balbas M, Gauto I, Ghazi MGU, Godfrey SS, Gollock M, González BA, Grant TD, Gray T, Gregory AJ, van Grunsven RHA, Gryzenhout M, Guernsey NC, Gupta G, Hagen C, Hagen CA, Hall MB, Hallerman E, Hare K, Hart T, Hartdegen R, Harvey-Brown Y, Hatfield R, Hawke T, Hermes C, Hitchmough R, Hoffmann PM, Howarth C, Hudson MA, Hussain SA, Huveneers C, Jacques H, Jorgensen D, Katdare S, Katsis LKD, Kaul R, Kaunda-Arara B, Keith-Diagne L, Kraus DT, de Lima TM, Lindeman K, Linsky J, Louis E Jr, Loy A, Lughadha EN, Mangel JC, Marinari PE, Martin GM, Martinelli G, McGowan PJK, McInnes A, Teles Barbosa Mendes E, Millard MJ, Mirande C, Money D, Monks JM, Morales CL, Mumu NN, Negrao R, Nguyen AH, Niloy MNH, Norbury GL, Nordmeyer C, Norris D, O'Brien M, Oda GA, Orsenigo S, Outerbridge ME, Pasachnik S, Pérez-Jiménez JC, Pike C, Pilkington F, Plumb G, Portela RCQ, Prohaska A, Quintana MG, Rakotondrasoa EF, Ranglack DH, Rankou H, Rawat AP, Reardon JT, Rheingantz ML, Richter SC, Rivers MC, Rogers LR, da Rosa P, Rose P, Royer E, Ryan C, de Mitcheson YJS, Salmon L, Salvador CH, Samways MJ, Sanjuan T, Souza Dos Santos A, Sasaki H, Schutz E, Scott HA, Scott RM, Serena F, Sharma SP, Shuey JA, Silva CJP, Simaika JP, Smith DR, Spaet JLY, Sultana S, Talukdar BK, Tatayah V, Thomas P, Tringali A, Trinh-Dinh H, Tuboi C, Usmani AA, Vasco-Palacios AM, Vié JC, Virens J, Walker A, Wallace B, Waller LJ, Wang H, Wearn OR, van Weerd M, Weigmann S, Willcox D, Woinarski J, Yong JWH, and Young S

Subjects

Animals, Biodiversity, Conservation of Natural Resources, Ecosystem, Risk, Endangered Species, Extinction, Biological

Abstract

Recognizing the imperative to evaluate species recovery and conservation impact, in 2012 the International Union for Conservation of Nature (IUCN) called for development of a "Green List of Species" (now the IUCN Green Status of Species). A draft Green Status framework for assessing species' progress toward recovery, published in 2018, proposed 2 separate but interlinked components: a standardized method (i.e., measurement against benchmarks of species' viability, functionality, and preimpact distribution) to determine current species recovery status (herein species recovery score) and application of that method to estimate past and potential future impacts of conservation based on 4 metrics (conservation legacy, conservation dependence, conservation gain, and recovery potential). We tested the framework with 181 species representing diverse taxa, life histories, biomes, and IUCN Red List categories (extinction risk). Based on the observed distribution of species' recovery scores, we propose the following species recovery categories: fully recovered, slightly depleted, moderately depleted, largely depleted, critically depleted, extinct in the wild, and indeterminate. Fifty-nine percent of tested species were considered largely or critically depleted. Although there was a negative relationship between extinction risk and species recovery score, variation was considerable. Some species in lower risk categories were assessed as farther from recovery than those at higher risk. This emphasizes that species recovery is conceptually different from extinction risk and reinforces the utility of the IUCN Green Status of Species to more fully understand species conservation status. Although extinction risk did not predict conservation legacy, conservation dependence, or conservation gain, it was positively correlated with recovery potential. Only 1.7% of tested species were categorized as zero across all 4 of these conservation impact metrics, indicating that conservation has, or will, play a role in improving or maintaining species status for the vast majority of these species. Based on our results, we devised an updated assessment framework that introduces the option of using a dynamic baseline to assess future impacts of conservation over the short term to avoid misleading results which were generated in a small number of cases, and redefines short term as 10 years to better align with conservation planning. These changes are reflected in the IUCN Green Status of Species Standard., (© 2021 The Authors. Conservation Biology published by Wiley Periodicals LLC on behalf of Society for Conservation Biology.)

Published

2021

66. Stem functional traits, not just morphology, explain differentiation along the liana-tree continuum.

Author

Santiago LS

Subjects

Plant Leaves, Sympatry, Tropical Climate, Forests, Trees

Published

2021

67. Towards a statistically robust determination of minimum water potential and hydraulic risk in plants.

Author

Martínez-Vilalta J, Santiago LS, Poyatos R, Badiella L, de Cáceres M, Aranda I, Delzon S, Vilagrosa A, and Mencuccini M

Subjects

Plant Leaves, Water, Xylem

Abstract

Minimum water potential (Ψ min ) is a key variable for characterizing dehydration tolerance and hydraulic safety margins (HSMs) in plants. Ψ min is usually estimated as the absolute minimum tissue Ψ experienced by a species, but this is problematic because sample extremes are affected by sample size and the underlying probability distribution. We compare alternative approaches to estimate Ψ min and assess the corresponding uncertainties and biases; propose statistically robust estimation methods based on extreme value theory (EVT); and assess the implications of our results for the characterization of hydraulic risk. Our results show that current estimates of Ψ min and HSMs are biased, as they are strongly affected by sample size. Because sampling effort is generally higher for species living in dry environments, the differences in current Ψ min estimates between these species and those living under milder conditions are partly artefactual. When this bias is corrected using EVT methods, resulting HSMs tend to increase substantially with resistance to embolism across species. Although data availability and representativeness remain the main challenges for proper determination of Ψ min , a closer look at Ψ distributions and the use of statistically robust methods to estimate Ψ min opens new ground for characterizing plant hydraulic risks., (© 2021 The Authors. New Phytologist © 2021 New Phytologist Foundation.)

Published

2021

68. A Smartphone-Enabled Portable Digital Light Processing 3D Printer.

Author

Li W, Wang M, Mille LS, Robledo Lara JA, Huerta V, Uribe Velázquez T, Cheng F, Li H, Gong J, Ching T, Murphy CA, Lesha A, Hassan S, Woodfield TBF, Lim KS, and Zhang YS

Abstract

3D printing has emerged as an enabling approach in a variety of different fields. However, the bulk volume of printing systems limits the expansion of their applications. In this study, a portable 3D Digital Light Processing (DLP) printer is built based on a smartphone-powered projector and a custom-written smartphone-operated app. Constructs with detailed surface architectures, porous features, or hollow structures, as well as sophisticated tissue analogs, are successfully printed using this platform, by utilizing commercial resins as well as a range of hydrogel-based inks, including poly(ethylene glycol)-diacrylate, gelatin methacryloyl, or allylated gelatin. Moreover, due to the portability of the unique DLP printer, medical implants can be fabricated for point-of-care usage, and cell-laden tissues can be produced in situ, achieving a new milestone for mobile-health technologies. Additionally, the all-in-one printing system described herein enables the integration of the 3D scanning smartphone app to obtain object-derived 3D digital models for subsequent printing. Along with further developments, this portable, modular, and easy-to-use smartphone-enabled DLP printer is anticipated to secure exciting opportunities for applications in resource-limited and point-of-care settings not only in biomedicine but also for home and educational purposes., (© 2021 Wiley-VCH GmbH.)

Published

2021

69. Shade tree species affect gas exchange and hydraulic conductivity of cacao cultivars in an agroforestry system.

Author

Ávila-Lovera E, Blanco H, Móvil O, Santiago LS, and Tezara W

Subjects

Ecosystem, Photosynthesis, Plant Leaves, Water, Cacao, Trees

Abstract

Shade tolerance is a widespread strategy of rainforest understory plants. Many understory species have green young stems that may assimilate CO2 and contribute to whole-plant carbon balance. Cacao commonly grows in the shaded understory and recent emphasis has been placed on diversifying the types of trees used to shade cacao plants to achieve additional ecosystem services. We studied three agricultural cacao cultivars growing in the shade of four timber species (Cedrela odorata L., Cordia thaisiana Agostini, Swietenia macrophylla King and Tabebuia rosea (Bertol) A.D.C.) in an agroforestry system to (i) evaluate the timber species for their effect on the physiological performance of three cacao cultivars; (ii) assess the role of green stems on the carbon economy of cacao; and (iii) examine coordination between stem hydraulic conductivity and stem photosynthesis in cacao. Green young stem photosynthetic CO2 assimilation rate was positive and double leaf CO2 assimilation rate, indicating a positive contribution of green stems to the carbon economy of cacao; however, green stem area is smaller than leaf area and its relative contribution is low. Timber species showed a significant effect on leaf gas exchange traits and on stomatal conductance of cacao, and stem water-use efficiency varied among cultivars. There were no significant differences in leaf-specific hydraulic conductivity among cacao cultivars, but sapwood-specific hydraulic conductivity varied significantly among cultivars and there was an interactive effect of cacao cultivar × timber species. Hydraulic efficiency was coordinated with stem-stomatal conductance, but not with leaf-stomatal conductance or any measure of photosynthesis. We conclude that different shade regimes determined by timber species and the interaction with cacao cultivar had an important effect on most of the physiological traits and growth variables of three cacao cultivars growing in an agroforestry system. Results suggested that C. odorata is the best timber species to provide partial shade for cacao cultivars in the Barlovento region in Venezuela, regardless of cultivar origin., (© The Author(s) 2020. Published by Oxford University Press. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2021

70. Hydraulic traits of Neotropical canopy liana and tree species across a broad range of wood density: implications for predicting drought mortality with models.

Author

De Guzman ME, Acosta-Rangel A, Winter K, Meinzer FC, Bonal D, and Santiago LS

Subjects

Panama, Plant Leaves, Water, Wood, Xylem, Droughts, Trees

Abstract

Wood density (WD) is often used as a proxy for hydraulic traits such as vulnerability to drought-induced xylem cavitation and maximum water transport capacity, with dense-wooded species generally being more resistant to drought-induced xylem cavitation, having lower rates of maximum water transport and lower sapwood capacitance than light-wooded species. However, relationships between WD and the hydraulic traits that they aim to predict have not been well established in tropical forests, where modeling is necessary to predict drought responses for a high diversity of unmeasured species. We evaluated WD and relationships with stem xylem vulnerability by measuring cavitation curves, sapwood water release curves and minimum seasonal water potential (Ψmin) on upper canopy branches of six tree species and three liana species from a single wet tropical forest site in Panama. The objective was to better understand coordination and trade-offs among hydraulic traits and the potential utility of these relationships for modeling purposes. We found that parameters from sapwood water release curves such as capacitance, saturated water content and sapwood turgor loss point (Ψtlp,x) were related to WD, whereas stem vulnerability curve parameters were not. However, the water potential corresponding to 50% loss of hydraulic conductivity (P50) was related to Ψtlp,x and sapwood osmotic potential at full turgor (πo,x). Furthermore, species with lower Ψmin showed lower P50, Ψtlp,x and πo,x suggesting greater drought resistance. Our results indicate that WD is a good easy-to-measure proxy for some traits related to drought resistance, but not others. The ability of hydraulic traits such as P50 and Ψtlp,x to predict mortality must be carefully examined if WD values are to be used to predict drought responses in species without detailed physiological measurements., (© The Author(s) 2020. Published by Oxford University Press. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2021

71. Unraveling the relative role of light and water competition between lianas and trees in tropical forests: A vegetation model analysis.

Author

Meunier F, Verbeeck H, Cowdery B, Schnitzer SA, Smith-Martin CM, Powers JS, Xu X, Slot M, De Deurwaerder HPT, Detto M, Bonal D, Longo M, Santiago LS, and Dietze M

Abstract

Despite their low contribution to forest carbon stocks, lianas (woody vines) play an important role in the carbon dynamics of tropical forests. As structural parasites, they hinder tree survival, growth and fecundity; hence, they negatively impact net ecosystem productivity and long-term carbon sequestration.Competition (for water and light) drives various forest processes and depends on the local abundance of resources over time. However, evaluating the relative role of resource availability on the interactions between lianas and trees from empirical observations is particularly challenging. Previous approaches have used labour-intensive and ecosystem-scale manipulation experiments, which are infeasible in most situations.We propose to circumvent this challenge by evaluating the uncertainty of water and light capture processes of a process-based vegetation model (ED2) including the liana growth form. We further developed the liana plant functional type in ED2 to mechanistically simulate water uptake and transport from roots to leaves, and start the model from prescribed initial conditions. We then used the PEcAn bioinformatics platform to constrain liana parameters and run uncertainty analyses.Baseline runs successfully reproduced ecosystem gas exchange fluxes (gross primary productivity and latent heat) and forest structural features (leaf area index, aboveground biomass) in two sites (Barro Colorado Island, Panama and Paracou, French Guiana) characterized by different rainfall regimes and levels of liana abundance.Model uncertainty analyses revealed that water limitation was the factor driving the competition between trees and lianas at the drier site (BCI), and during the relatively short dry season of the wetter site (Paracou). In young patches, light competition dominated in Paracou but alternated with water competition between the wet and the dry season on BCI according to the model simulations.The modelling workflow also identified key liana traits (photosynthetic quantum efficiency, stomatal regulation parameters, allometric relationships) and processes (water use, respiration, climbing) driving the model uncertainty. They should be considered as priorities for future data acquisition and model development to improve predictions of the carbon dynamics of liana-infested forests. Synthesis . Competition for water plays a larger role in the interaction between lianas and trees than previously hypothesized, as demonstrated by simulations from a process-based vegetation model., (© 2020 The Authors. Journal of Ecology published by John Wiley & Sons Ltd on behalf of British Ecological Society.)

Published

2021

72. Effects of Clinical Reasoning Prompts on Nursing Students' Clinical Judgment for a Patient Experiencing Respiratory Distress.

Author

Tesoro MG, Simmons AM, de Barros ALBL, Lopes CT, Guandalini LS, Cruz EDA, and Maurício AB

Subjects

Clinical Competence, Clinical Reasoning, Humans, Judgment, Education, Nursing, Baccalaureate, Respiratory Distress Syndrome, Students, Nursing

Abstract

Purpose: To test the effects of clinical reasoning prompts on students' clinical judgment of a written case study., Methods: An experimental pre- and posttest study with second semester nursing students (N = 163)., Findings: The intervention was insufficient to significantly improve clinical judgment. Students identified that the prompts would help them "narrow… down the problem" and "slow… the decision-making process" to improve analysis. The most accurate patient problem was identified by 28% of students in pretest and 35% in posttest., Conclusions: This study provides evidence of variations in nursing students' clinical judgment and students' desire to use decision-making algorithms., Nursing Implications: Nurse educators should provide students with additional education and practice to identify and solve these types of problems., (© 2020 NANDA International, Inc.)

Published

2021

73. DSDapp use for multidisciplinary esthetic planning.

Author

do Vale Voigt M, Espíndola-Castro LF, de Melo Monteiro GQ, Ortigoza LS, Dos Santos Torreão A, and Georg R

Subjects

Ceramics, Computer-Aided Design, Dental Porcelain, Humans, Smiling, Dental Veneers, Esthetics, Dental

Abstract

Objectives: Digital smile design (DSD) is useful in planning multidisciplinary esthetic treatments. However, DSD requires clinician training and skill to ensure its effective use. The Digital smile design application (DSDapp) was recently developed, to facilitate such planning. The objective of this study was to illustrate the use of the DSDapp for esthetic planning in a clinical case that included periodontal plastic surgery and ceramic laminate veneers., Clinical Considerations: An intraoral digital scan was performed, and a photograph was obtained using an iPad (frontal facial full smile). The images were analyzed using the DSDapp. All reference lines were inserted, and dental shapes predetermined by the app were superimposed on the photographs. A digital diagnostic wax-up was performed considering the plan created in the DSDapp. After 3D printing the wax-up, a mock-up transferred the planning to the oral cavity. Following this, the patient was referred to a periodontist for the periodontal plastic surgery. After the healing period, the teeth were prepared for computer-aided design/computer-aided modeling lithium disilicate ceramic laminate veneers., Conclusions: DSDapp use accelerated the initial planning steps. Smile planning can be performed during the clinical session with the patient's active participation. In addition, the DSDapp facilitated better communication within the multidisciplinary team., Clinical Significance: The DSDapp relies more on intuition than on skill and training to execute the treatment plan. The DSDapp provides immediate feedback to the patient, offering greater predictability and helps monitor the planning through all the clinical stages., (© 2020 Wiley Periodicals LLC.)

Published

2020

74. Functional traits of leaves and photosynthetic stems of species from a sarcocaulescent scrub in the southern Baja California Peninsula.

Author

Ávila-Lovera E, Garcillán PP, Silva-Bejarano C, and Santiago LS

Subjects

Mexico, Plant Stems, Trees, Water, Wood, Photosynthesis, Plant Leaves

Abstract

Premise: Photosynthetic stems represent a source of extra carbon in plants from hot and dry environments, but little is known about how leaves and photosynthetic stems differ in terms of photosynthetic capacity, trait coordination, and responses to seasonal drought in subtropical systems., Methods: We studied photosynthetic, hydraulic, morphometric (specific leaf area [SLA], wood density [WD]), and biochemical (C and N isotopes) traits in leaves and photosynthetic stems of 12 plant species from a sarcocaulescent scrub in the southern Baja California Peninsula, Mexico, in wet and dry seasons., Results: Leaves and stems had similar mean photosynthetic capacity, as evaluated by chlorophyll fluorescence traits, indicating similar investment in leaf and stem photosynthesis. We did not find a relationship between stem hydraulic conductivity and leaf or stem photosynthetic traits. However, we found resource allocation trade-offs, between WD and both stem hydraulic conductivity and SLA. Leaf and stem photosynthetic traits did not change with season, but specific stem area was one of the few traits that changed the most between seasons-it increased during the dry season by as much as 154% indicating substantial water storage., Conclusions: Our results indicate the same proportional investment in photosynthetic capacity and dry matter in both leaves and photosynthetic stems across all 12 species. We identified multiple strategies at this seasonal site, with species ranging from high WD, low SLA, low hydraulic conductivity, and high specific bark area on one end of the spectrum and opposite traits on the other end., (© 2020 Botanical Society of America.)

Published

2020

75. Analysis of the evidence of related factors, associated conditions and at-risk populations of the NANDA-I nursing diagnosis insomnia.

Author

Guandalini LS, da Silva EF, Lopes JL, Santos VB, Lopes CT, and de Barros ALBL

Abstract

Objectives: To summarize evidence in the literature on the predictors of insomnia in adults and to determine correspondences with diagnostic indicators of the NANDA-I diagnosis Insomnia., Methods: An integrative review performed in Pubmed, Virtual Health Library and CINAHL. Forty-eight articles published in Portuguese, English or Spanish from 2011 to 2018 were included. An analysis of correspondence between the predictors and the NANDA-I related factors and associated conditions for Insomnia was performed., Results: There was a correspondence of the predictors found in this review with NANDA-I related factors and associated conditions, except for grieving and frequent naps during the day. Smoking, caffeine intake, dysfunctional sleep beliefs, obesity and caregiver role strain are possible new related factors; chronic illness is a possible new associated condition and individuals going through changes in marital status, economically disadvantaged, female gender, increasing age and night shift worker are possible new at-risk populations., Conclusion: The predictors of insomnia that had a correspondence with the NANDA-I elements can support the evidence base of the nursing diagnosis. The predictors found without a correspondence with the diagnosis can be considered for inclusion in the NANDA-I classification, thereby supporting the clinical reasoning of nurses and students., (© 2020 The authors.)

Published

2020

76. The Study Demands-Resources Framework: An Empirical Introduction.

Author

Lesener T, Pleiss LS, Gusy B, and Wolter C

Subjects

Humans, Universities, Workload, Burnout, Psychological, Students psychology

Abstract

Based on the well-established job demands-resources (JD-R) framework, in our study we introduce the novel study demands-resources (SD-R) framework. The SD-R framework allows the study of salutogenic and pathogenic effects of university settings on students' health and well-being. Using a large sample of university students ( n = 5660), our aim was to translate and validate the JD-R's essential assumptions within the university context, and thus establish the SD-R framework. We performed structural equation modelling to examine these essential assumptions. As assumed, we found that study demands-the "bad things" at university-predict student burnout (β = 0.50), whereas study resources-the "good things" at university-predict student engagement (β = 0.70) as well as burnout (β = -0.35). Also, in line with the SD-R's assumptions, student burnout predicts life satisfaction negatively (β = -0.34), whereas student engagement predicts life satisfaction positively (β = 0.29). Hence, we were able to introduce the novel SD-R framework and validate its core assumptions. The SD-R framework serves as an excellent theoretical basis to examine both the salutogenic and pathogenic effects of the study context on students' health and well-being. However, the framework needs further longitudinal and meta-analytical verification in accordance with the research on the JD-R framework.

Published

2020

77. Variations in radon dosimetry under different assessment approaches in the Altamira Cave.

Author

Sainz C, Rábago D, Fernández E, Quindós J, Quindós L, Fernández A, Fuente I, Arteche JL, Quindós LS, and Celaya S

Subjects

Humans, Radiation Dosage, Radon Daughters analysis, Spain, Air Pollutants, Radioactive analysis, Caves, Radiation Monitoring methods, Radon analysis

Abstract

The atmosphere of caves is a special environment where it is necessary to take into account some particular characteristics when assessing the radon dose. The equilibrium factor (F) between radon and its progeny, and especially its unattached fraction (f p ), is a key parameter in radon dose evaluation. In order to consider the specific features of the atmosphere in the Altamira Cave, the radon and particle concentrations have been measured. The mean annual radon concentration inside the cave over the period 2013-2019 is around 3500 Bq m -3 with a standard deviation of 1833 Bq m -3 and this exhibits seasonal variations. This value surpasses all international (WHO, IAEA, ICRP) upper action and reference levels (occupational and non-occupational). Dose rate levels expressed in μSv h -1 were estimated for four different equilibrium scenarios between radon and its progeny 218 Po, 214 Pb, 214 Bi and 214 Po. The most recent dose conversion factors have been used and the contribution made to the dose by the unattached fraction of radon progeny f p has been also assessed from the particle concentration. The results suggest that the mean annual dose levels show variations of up to 500% due to the range of F and the f p considered in this study. Given the high radon concentrations usually found in show caves, the best way to reduce this variability and its associated uncertainty in dose assessment is to conduct specific studies aimed at determining both F and f p .

Published

2020

78. Head-to-head comparison of F-18 FDG PET/CT in radioidine refractory thyroid cancer patients with elevated versus suppressed TSH levels a pilot study.

Author

Almeida LS, Araújo ML, Santos AO, Montali da Assumpção LV, Lima ML, Ramos CD, Zantut-Wittmann DE, and Etchebehere EC

Abstract

Introduction: To perform a head-to-head comparison of the uptake pattern of F-18 fluorodeoxyglucose in positron emission computed tomography (FDG PET/CT) in radioiodine refractory thyroid carcinomas (RAIR) in the same patient under elevated TSH levels ( e TSH) and suppressed TSH levels ( s TSH)., Methods: FDG PET/CT studies were performed under two conditions: levothyroxine intake ( s TSH) and 30 days after hormonal withdrawal ( e TSH). SUVmax values and the number of lesions detected (local recurrence and metastases in cervical and distant lymph nodes, lungs and bone) where blindly evaluated. Blood serum TSH and Tg levels were obtained prior to both studies. FDG PET/CT imaging, neck ultrasound, biopsy and follow-up were considered the reference standard., Results: Fifteen patients performed both e TSH and s TSH FDG PET/CT studies. Both were positive for metastases in 80% of the patients. e TSH FDG PET/CT studies did not reveal increased uptake (p = 0.0640) and did not demonstrate a higher number of lesions (p = 0.320) when compared to sTSH FDG PET/CT studies. There was no change in the clinical management of these patients., Conclusions: e TSH FDG PET/CT in patients with RAIR did not show more metastases in comparison to s TSH FDG PET/CT and there was no impact in clinical management of patients. Elevating TSH levels (whether by hormonal withdrawal or recombinant TSH) in patients being submitted to FDG PET/CT may not be necessary., (© 2020 Published by Elsevier Ltd.)

Published

2020

79. Going underground: new approaches to assess dynamic root behaviour during drought.

Author

Santiago LS

Subjects

Carbon, Plant Shoots, Plant Transpiration, Droughts, Tracheophyta

Published

2020

80. Multidisciplinary Approach to Smile Restoration: Gingivoplasty, Tooth Bleaching, and Dental Re-anatomization.

Author

Espíndola-Castro LF, de Melo Monteiro GQ, Ortigoza LS, da Silva CHV, and Souto-Maior JR

Subjects

Composite Resins, Esthetics, Dental, Gingivoplasty, Humans, Male, Peroxides, Smiling, Urea, Tooth Bleaching

Abstract

This article reports on the case of a patient who underwent a multidisciplinary treatment in smile design that entailed dental cosmetic techniques involving esthetic periodontal surgery, teeth bleaching, and re-anatomization of the upper incisors. The male patient presented with a chief complaint of an excessive gingival display while smiling, as well as small, darkened teeth with spaces between them. After diagnosis and patient consent, therapy began in the following stages: periodontal plastic surgery with probing, bleeding points delimitation, beveled incision, removal of the gingival band with periodontal curettes, and finishing with an electric scalpel. After 21 days following surgery, dental bleaching using a combined technique that included two sessions of in-office bleaching (35% hydrogen peroxide) and 2 weeks of at-home bleaching (carbamide peroxide 16% for 4 hours per day) was carried out, followed by dental re-anatomization using resin composite. Diagnostic waxing, mock-up, fabrication of a palatal silicone index, incremental sculpturing, and structuring the restoration of the palatal shell to the vestibular surfaces was then completed, followed by occlusal adjustment, finishing, and polishing. The multidisciplinary intervention was fundamental for the accomplishment of the proposed treatment that combined biological, functional, and esthetic concepts.

Published

2019

81. Testing and Calibration of CDs as Radon Detectors at Highly Variable Radon Concentrations and Temperatures.

Author

Pressyanov D, Quindos Poncela LS, Georgiev S, Dimitrova I, Mitev K, Sainz C, Fuente I, and Rabago D

Subjects

Calibration, Radiation Monitoring instrumentation, Spain, Temperature, Air Pollutants, Radioactive analysis, Compact Disks statistics & numerical data, Radiation Monitoring methods, Radon analysis

Abstract

The application of the compact disk (CD) method for radon measurements at mines, caves and other workplaces needs testing under highly variable exposure conditions. We present the results from a blind comparison of CDs exposed in the Laboratory of Natural Radiation (Saelices el Chico, Spain). During the exposure the temperature varied from 6.5 to 24.9 °C (average 12.6 °C) and the 222 Rn activity concentrations varied from <10 Bq m -3 to 147 kBq m -3 . Good correspondence was observed between the integrated 222 Rn activity concentration determined by the reference instruments in the laboratory (122,500 ± 6100 kBq h m -3 ) and that assessed by analysis of the CDs at a depth 80 µm beneath the front surface (118,000 ± 12,000 kBq h m -3 ) and at a depth of 120 µm (106,000 ± 12,000 kBq h m -3 ). The theoretical modeling of the CD response under variable temperature and radon concentration suggested that the small bias is probably due to the time variation of the calibration factor because of the time variations of the temperature.

Published

2019

82. Modeling of xylem vessel occlusion in grapevine.

Author

Pouzoulet J, Scudiero E, Schiavon M, Santiago LS, and Rolshausen PE

Subjects

Droughts, Plant Stems, Wood, Xylem, Vitis, Water

Abstract

Morphological traits of the plant vascular system such as xylem vessel diameter have been implicated in many physiological processes including resistance to drought-induced xylem cavitation and vessel occlusion during infection with vascular wilt diseases. In both events, xylem vessels lose function because they become filled with air or tyloses and gels. Xylem cavitation has been well studied, whereas vessel occlusion remains purely descriptive even though it is a critical response to wounding injuries and compartmentalization of vascular pathogens. The timing of vessel occlusion is a key determinant to a successful compartmentalization of pathogens within the plant vascular system and we hypothesized that xylem vessel diameter is the driving variable. Using a dye injection method coupled with automated image analysis, we parameterized a model to investigate how xylem vessel diameter affects the speed of vessel occlusion in Vitis vinifera L. cv. Cabernet Sauvignon in response to wounding. Our dataset contains observations from 6,646 vessels at five kinetic points following stem pruning, over a time course of 1 week. Using this approach we provide evidence that the diameter of vessels is a key determinant of the timing of their occlusion. We discuss how these findings impact resistance to vascular wilt diseases in perennial woody hosts., (© The Author(s) 2019. Published by Oxford University Press. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2019

83. PM 2.5 Filter Extraction Methods: Implications for Chemical and Toxicological Analyses.

Author

Roper C, Delgado LS, Barrett D, Massey Simonich SL, and Tanguay RL

Subjects

Environmental Monitoring, Particulate Matter, Air Pollutants, Polycyclic Aromatic Hydrocarbons

Abstract

Toxicology research into the global public health burden of fine particulate matter (PM 2.5 ) exposures frequently requires extraction of PM 2.5 from filters. A standardized method for these extractions does not exist, leading to inaccurate interlaboratory comparisons. It is largely unknown how different filter extraction methods might impact the composition and bioactivity of the resulting samples. We characterized the variation in these metrics by using equal portions of a single PM 2.5 filter, with each portion undergoing a different extraction method. Significant differences were observed between extraction methods for concentrations of elements and polycyclic aromatic hydrocarbons (PAHs) for the PM 2.5 tested following its preparation for biological response studies. Importantly, the chemical profiles differed from those observed when we used standard protocols for chemical characterization of the ambient sample, demonstrating that extraction can alter both chemical component amounts and species profiles of the extracts. The impact of these chemical differences on sensitive end points of zebrafish development was investigated. Significant differences in the percent incidence and timing of mortality were associated with the PM 2.5 extraction method. This research highlights the importance of and rationale for considering the extraction method when interlaboratory comparisons of PM 2.5 toxicology research are made.

Published

2019

84. Costs and benefits of photosynthetic stems in desert species from southern California.

Author

Ávila-Lovera E, Haro R, Ezcurra E, and Santiago LS

Subjects

California, Cost-Benefit Analysis, Water, Photosynthesis, Plant Leaves

Abstract

Woody plants with green photosynthetic stems are common in dry woodlands with the possible advantages of extra carbon gain, re-assimilation of CO2, and high water-use efficiency. However, their green stem tissue may also incur greater costs of water loss when stomata are closed. Our study focussed on evaluating the costs and benefits of having green stems in desert plants, addressing the water-use efficiency hypothesis. We measured water status, carbon and water exchange, and carbon, nitrogen and oxygen isotopic composition of 15 species in a desert wash scrub in Joshua Tree National Park, California, USA. We found that all woody species that have green stems relied on their green stems as the sole organ for carbon assimilation for most of the study period. Green stems had similar photosynthetic rate (Amax), stomatal conductance (gs) and intrinsic water-use efficiency (WUEi) to leaves of the same species. However, Amax, gs and cuticular conductance (gmin) were higher in green stems than in leaves of non-green stemmed species. Carbon isotopic composition (δ13C) was similar in both leaves and green stems, indicating no difference in integrated long-term WUE. Our results raise questions about the possible trade-off between carbon gain and water loss through the cuticle in green stems and how this may affect plant responses to current and future droughts.

Published

2019

85. Stomatal behaviour and stem xylem traits are coordinated for woody plant species under exceptional drought conditions.

Author

Pivovaroff AL, Cook VMW, and Santiago LS

Subjects

Dehydration, Droughts, Plant Leaves physiology, Plant Transpiration physiology, Water metabolism, Plant Stems physiology, Plant Stomata physiology, Trees physiology, Xylem physiology

Abstract

Isohydry (maintenance of plant water potential at the cost of carbon gain) and anisohydry (gas exchange maintenance at the cost of declining plant water status) make up two ends of a stomatal drought response strategy continuum. However, few studies have merged measures of stomatal regulation with xylem hydraulic safety strategies based on in situ field measurements. The goal of this study was to characterize the stomatal and xylem hydraulic safety strategies of woody species in the biodiverse Mediterranean-type ecosystem region of California. Measurements were conducted in situ when California was experiencing the most severe drought conditions in the past 1,200 years. We found coordination among stomatal, hydraulic, and standard leaf functional traits. For example, stem xylem vulnerability to cavitation (P 50 ) was correlated with the water potential at stomatal closure (P close ); more resistant species had a more negative water potential at stomatal closure. The degree of isohydry-anisohydry, defined at P close -P 50 , was correlated with the hydraulic safety margin across species; more isohydric species had a larger hydraulic safety margin. In addition, we report for the first time P close values below -10 MPa. Measuring these traits in a biodiverse region under exceptional drought conditions contributes to our understanding of plant drought responses., (© 2018 John Wiley & Sons Ltd.)

Published

2018

86. Sex change in the dioecious palm Ceroxylon quindiuense (Arecaceae).

Author

Martínez B, Sanín MJ, Castillo LS, López R, and Bernal R

Subjects

Phylogeny, Arecaceae

Published

2018

87. Continuous monitoring of radon gas as a tool to understand air dynamics in the cave of Altamira (Cantabria, Spain).

Author

Sainz C, Rábago D, Celaya S, Fernández E, Quindós J, Quindós L, Fernández A, Fuente I, Arteche JL, and Quindós LS

Abstract

The use of radon as an atmospheric tracer in the Altamira Cave over the past 30years has provided relevant information about gaseous exchanges between the Polychromes Room, the adjoining Chambers inside the cave, and the outside atmosphere. The relatively simple physico-chemical behaviour of radon gas provides a marked advantage over other tracer gases that are usually present in high concentrations in hypogeous environments, such as CO 2 . Two types of continuous radon measurement were undertaken. The first involves active detectors located in the Hall and Polychromes Room, which provide radon concentration values at 1-hour intervals. In addition, nuclear solid track etched detectors (CR-39) are used in every chamber of the cave over 14-day exposure periods, providing average radon concentrations. In this paper we show some of the specific degassing and recharge events identified by anomalous variations in the concentration of radon gas in the Polychromes Room. In addition, we update knowledge regarding the degree of connection between chambers inside the cave and with the outside atmosphere. We verify that the connection between the Polychromes Room and the rest of the cave has been drastically reduced by the installation of the second closure in 2008. Except for point exchanges with the Crossing zone generated by a negative temperature gradient in that direction, the atmosphere of the Polychromes Room remains stable, or else it exchanges matter with the outside atmosphere through the karst interface. The role of radon as a tracer is demonstrated to be valid both to reflect seasonal cycles of degassing and recharge, and to analyse shorter (daily) period fluctuations., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2018

88. Coordination and trade-offs among hydraulic safety, efficiency and drought avoidance traits in Amazonian rainforest canopy tree species.

Author

Santiago LS, De Guzman ME, Baraloto C, Vogenberg JE, Brodie M, Hérault B, Fortunel C, and Bonal D

Subjects

French Guiana, Phylogeny, Pressure, Principal Component Analysis, Rain, Sample Size, Species Specificity, Wood physiology, Xylem physiology, Droughts, Quantitative Trait, Heritable, Rainforest, Trees physiology, Water physiology

Abstract

Predicting responses of tropical forests to climate change-type drought is challenging because of high species diversity. Detailed characterization of tropical tree hydraulic physiology is necessary to evaluate community drought vulnerability and improve model parameterization. Here, we measured xylem hydraulic conductivity (hydraulic efficiency), xylem vulnerability curves (hydraulic safety), sapwood pressure-volume curves (drought avoidance) and wood density on emergent branches of 14 common species of Eastern Amazonian canopy trees in Paracou, French Guiana across species with the densest and lightest wood in the plot. Our objectives were to evaluate relationships among hydraulic traits to identify strategies and test the ability of easy-to-measure traits as proxies for hard-to-measure hydraulic traits. Xylem efficiency was related to capacitance, sapwood water content and turgor loss point, and other drought avoidance traits, but not to xylem safety (P 50 ). Wood density was correlated (r = -0.57 to -0.97) with sapwood pressure-volume traits, forming an axis of hydraulic strategy variation. In contrast to drier sites where hydraulic safety plays a greater role, tropical trees in this humid tropical site varied along an axis with low wood density, high xylem efficiency and high capacitance at one end of the spectrum, and high wood density and low turgor loss point at the other., (© 2018 The Authors. New Phytologist © 2018 New Phytologist Trust.)

Published

2018

89. Laminin-modified and aligned poly(3-hydroxybutyrate-co-3-hydroxyvalerate)/polyethylene oxide nanofibrous nerve conduits promote peripheral nerve regeneration.

Author

Zhang XF, Liu HX, Ortiz LS, Xiao ZD, and Huang NP

Subjects

Animals, Cell Line, Cell Proliferation drug effects, Cell Survival drug effects, Glial Fibrillary Acidic Protein metabolism, Nanofibers ultrastructure, Peripheral Nerves drug effects, Rats, Sprague-Dawley, Schwann Cells drug effects, Schwann Cells pathology, Schwann Cells ultrastructure, Laminin pharmacology, Nanofibers chemistry, Nerve Regeneration drug effects, Peripheral Nerves physiology, Polyesters pharmacology, Polyethylene Glycols pharmacology, Tissue Scaffolds chemistry

Abstract

Poly(3-hydroxybutyrate-co-3-hydroxyvalerate) (PHBV) has received much attention for its biodegradability and biocompatibility, characteristics that are required in tissue engineering. In this study, polyethylene oxide (PEO)-incorporated PHBV nanofibres with random or aligned orientation were obtained by electrospinning. For further use in vivo, the nanofibre films were made into nerve conduits after treatment with NH 3 plasma, which could improve the hydrophilicity of inner surfaces of nerve conduits and then facilitate laminin adsorption via electrostatic interaction for promoting cell adhesion and proliferation. Morphology of the surfaces of modified PHBV/PEO nanofibrous scaffolds were examined by scanning electron microscopy. Schwann cell viability assay was conducted and the results confirmed that the functionalized nanofibres were favourable for cell growth. Morphology of Schwann cells cultured on scaffolds showed that aligned nanofibrous scaffolds provided topographical guidance for cell orientation and elongation. Furthermore, three-dimensional PHBV/PEO nerve conduits made from aligned and random-oriented nanofibres were implanted into 12-mm transected sciatic nerve rat model and subsequent analysis were conducted at 1 and 2 months postsurgery. The above functionalized PHBV/PEO scaffolds provide a novel and promising platform for peripheral nerve regeneration. Copyright © 2016 John Wiley & Sons, Ltd., (Copyright © 2016 John Wiley & Sons, Ltd.)

Published

2018

90. Stem photosynthesis and hydraulics are coordinated in desert plant species.

Author

Ávila-Lovera E, Zerpa AJ, and Santiago LS

Subjects

Desert Climate, Magnoliopsida metabolism, Photosynthesis, Plant Stems metabolism, Water physiology

Abstract

Coordination between stem photosynthesis and hydraulics in green-stemmed desert plants is important for understanding the physiology of stem photosynthesis and possible drought responses. Plants with photosynthetic stems have extra carbon gain that can help cope with the detrimental effects of drought. We studied photosynthetic, hydraulic and functional traits of 11 plant species with photosynthetic stems from three California desert locations. We compared relationships among traits between wet and dry seasons to test the effect of seasonality on these relationships. Finally, we compared stem trait relationships with analogous relationships in the leaf economics spectrum. We found that photosynthetic and hydraulic traits are coordinated in photosynthetic stems. The slope or intercept of all trait relationships was mediated by seasonality. The relationship between mass-based stem photosynthetic CO 2 assimilation rate (A mass ) and specific stem area (SSA; stem surface area to dry mass ratio) was statistically indistinguishable from the leaf economics spectrum. Our results indicate that photosynthetic stems behave like leaves in the coordination of multiple traits related to carbon gain, water movement and water loss. Because of the similarity of the stem A mass -SSA relationship to the leaf A mass -specific leaf area relationship, we suggest the existence of a photosynthetic stem economic spectrum., (© 2017 The Authors. New Phytologist © 2017 New Phytologist Trust.)

Published

2017

91. Trade-offs between water transport capacity and drought resistance in neotropical canopy liana and tree species.

Author

De Guzman ME, Santiago LS, Schnitzer SA, and Álvarez-Cansino L

Subjects

Panama, Photosynthesis, Plant Leaves chemistry, Trees physiology, Droughts, Plant Leaves physiology, Plant Stems physiology, Water physiology, Wood physiology

Abstract

In tropical forest canopies, it is critical for upper shoots to efficiently provide water to leaves for physiological function while safely preventing loss of hydraulic conductivity due to cavitation during periods of soil water deficit or high evaporative demand. We compared hydraulic physiology of upper canopy trees and lianas in a seasonally dry tropical forest to test whether trade-offs between safety and efficiency of water transport shape differences in hydraulic function between these two major tropical woody growth forms. We found that lianas showed greater maximum stem-specific hydraulic conductivity than trees, but lost hydraulic conductivity at less negative water potentials than trees, resulting in a negative correlation and trade-off between safety and efficiency of water transport. Lianas also exhibited greater diurnal changes in leaf water potential than trees. The magnitude of diurnal water potential change was negatively correlated with sapwood capacitance, indicating that lianas are highly reliant on conducting capability to maintain leaf water status, whereas trees relied more on stored water in stems to maintain leaf water status. Leaf nitrogen concentration was related to maximum leaf-specific hydraulic conductivity only for lianas suggesting that greater water transport capacity is more tied to leaf processes in lianas compared to trees. Our results are consistent with a trade-off between safety and efficiency of water transport and may have implications for increasing liana abundance in neotropical forests., (© The Author 2016. Published by Oxford University Press. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2017

92. Reconciling seasonal hydraulic risk and plant water use through probabilistic soil-plant dynamics.

Author

Feng X, Dawson TE, Ackerly DD, Santiago LS, and Thompson SE

Subjects

California, Seasons, Soil, Water, Climate Change, Plant Transpiration

Abstract

Current models used for predicting vegetation responses to climate change are often guided by the dichotomous needs to resolve either (i) internal plant water status as a proxy for physiological vulnerability or (ii) external water and carbon fluxes and atmospheric feedbacks. Yet, accurate representation of fluxes does not always equate to accurate predictions of vulnerability. We resolve this discrepancy using a hydrodynamic framework that simultaneously tracks plant water status and water uptake. We couple a minimalist plant hydraulics model with a soil moisture model and, for the first time, translate rainfall variability at multiple timescales - with explicit descriptions at daily, seasonal, and interannual timescales - into a physiologically meaningful metric for the risk of hydraulic failure. The model, parameterized with measured traits from chaparral species native to Southern California, shows that apparently similar transpiration patterns throughout the dry season can emerge from disparate plant water potential trajectories, and vice versa. The parsimonious set of parameters that captures the role of many traits across the soil-plant-atmosphere continuum is then used to establish differences in species sensitivities to shifts in seasonal rainfall statistics, showing that co-occurring species may diverge in their risk of hydraulic failure despite minimal changes to their seasonal water use. The results suggest potential shifts in species composition in this region due to species-specific changes in hydraulic risk. Our process-based approach offers a quantitative framework for understanding species sensitivity across multiple timescales of rainfall variability and provides a promising avenue toward incorporating interactions of temporal variability and physiological mechanisms into drought response models., (© 2017 John Wiley & Sons Ltd.)

Published

2017

93. Advances in Clinical Research in Ecuador.

Author

Ramos TI, Castro KA, Escalante LS, and Santiago Vispo N

Abstract

Ecuador is undergoing a process of clinical research development and strengthening. At the turn of the century, Ecuador experienced a favorable transition period of economic stability, which enabled advances in the health system and improvements in population welfare indicators. During this period, Ecuador created an institutional infrastructure to support the implementation and development of research projects. In turn, Ecuador created institutions, including the National Agency for Health Regulation, Control, and Surveillance (Agencia Nacional de Regulación, Control y Vigilancia Sanitaria [ARCSA]), and regulations establishing clinical trial (CT) design, conduct, recording, and reporting parameters, whose compliance ensures the protection of the rights of research subjects and requires compliance with Good Clinical Practice (GCP). Ecuador has favorable conditions for fostering the development of clinical research. The regulation of CTs is a process undergoing consistent changes toward harmonization with international standards and quality assurance.

Published

2017

94. AI-BL1.0: a program for automatic on-line beamline optimization using the evolutionary algorithm.

Author

Xi S, Borgna LS, Zheng L, Du Y, and Hu T

Abstract

In this report, AI-BL1.0, an open-source Labview-based program for automatic on-line beamline optimization, is presented. The optimization algorithms used in the program are Genetic Algorithm and Differential Evolution. Efficiency was improved by use of a strategy known as Observer Mode for Evolutionary Algorithm. The program was constructed and validated at the XAFCA beamline of the Singapore Synchrotron Light Source and 1W1B beamline of the Beijing Synchrotron Radiation Facility.

Published

2017

95. Plant hydraulics as a central hub integrating plant and ecosystem function: meeting report for 'Emerging Frontiers in Plant Hydraulics' (Washington, DC, May 2015).

Author

Sack L, Ball MC, Brodersen C, Davis SD, Des Marais DL, Donovan LA, Givnish TJ, Hacke UG, Huxman T, Jansen S, Jacobsen AL, Johnson DM, Koch GW, Maurel C, McCulloh KA, McDowell NG, McElrone A, Meinzer FC, Melcher PJ, North G, Pellegrini M, Pockman WT, Pratt RB, Sala A, Santiago LS, Savage JA, Scoffoni C, Sevanto S, Sperry J, Tyerman SD, Way D, and Holbrook NM

Subjects

Water Cycle, Ecosystem, Trees physiology, Water physiology

Abstract

Water plays a central role in plant biology and the efficiency of water transport throughout the plant affects both photosynthetic rate and growth, an influence that scales up deterministically to the productivity of terrestrial ecosystems. Moreover, hydraulic traits mediate the ways in which plants interact with their abiotic and biotic environment. At landscape to global scale, plant hydraulic traits are important in describing the function of ecological communities and ecosystems. Plant hydraulics is increasingly recognized as a central hub within a network by which plant biology is connected to palaeobiology, agronomy, climatology, forestry, community and ecosystem ecology and earth-system science. Such grand challenges as anticipating and mitigating the impacts of climate change, and improving the security and sustainability of our food supply rely on our fundamental knowledge of how water behaves in the cells, tissues, organs, bodies and diverse communities of plants. A workshop, 'Emerging Frontiers in Plant Hydraulics' supported by the National Science Foundation, was held in Washington DC, 2015 to promote open discussion of new ideas, controversies regarding measurements and analyses, and especially, the potential for expansion of up-scaled and down-scaled inter-disciplinary research, and the strengthening of connections between plant hydraulic research, allied fields and global modelling efforts., (© 2016 John Wiley & Sons Ltd.)

Published

2016

96. Air-powder polishing on self-ligating brackets after clinical use: effects on debris levels.

Author

Aragón ML, Lima LS, and Normando D

Subjects

Friction, Orthodontic Wires, Stress, Mechanical, Ceramics, Orthodontic Appliance Design, Orthodontic Brackets

Abstract

Introduction:: Debris buildup on brackets and arch surfaces is one of the main factors that can influence the intensity of friction between bracket and orthodontic wire., Objective:: This study sought to evaluate the effect of air-powder polishing cleaning on debris levels of self-ligating ceramic brackets at the end of orthodontic treatment, compared to the behavior of conventional brackets., Methods:: Debris levels were evaluated in metal conventional orthodontic brackets (n = 42) and ceramic self-ligating brackets (n = 42) on canines and premolars, arranged in pairs. There were brackets with and without air-powder polishing. At the end of orthodontic treatment, a hemiarch served as control and the contralateral hemiarch underwent prophylaxis with air-powder polishing. Debris buildup in bracket slots was assessed through images, and Wilcoxon test was used to analyze the results., Results:: The median debris levels were statistically lower in the conventional metal brackets compared to self-ligating ones (p = 0.02), regarding brackets not submitted to air-powder polishing. Polishing significantly reduced debris buildup to zero in both systems, without differences between groups., Conclusions:: Ceramic self-ligating brackets have a higher debris buildup in comparison to conventional metal brackets in vivo, but prophylaxis with sodium bicarbonate jet was effective in reducing debris levels in self-ligating and also in conventional brackets.

Published

2016

97. Plant hydraulic responses to long-term dry season nitrogen deposition alter drought tolerance in a Mediterranean-type ecosystem.

Author

Pivovaroff AL, Santiago LS, Vourlitis GL, Grantz DA, and Allen MF

Subjects

Droughts, Ecosystem, Photosynthesis, Plant Leaves, Trees, Water, Nitrogen pharmacology, Seasons

Abstract

Anthropogenic nitrogen (N) deposition represents a significant N input for many terrestrial ecosystems. N deposition can affect plants on scales ranging from photosynthesis to community composition, yet few studies have investigated how changes in N availability affect plant water relations. We tested the effects of N addition on plant water relations, hydraulic traits, functional traits, gas exchange, and leaf chemistry in a semi-arid ecosystem in Southern California using long-term experimental plots fertilized with N for over a decade. The dominant species were Artemisia california and Salvia mellifera at Santa Margarita Ecological Reserve and Adenostoma fasciculatum and Ceanothus greggii at Sky Oaks Field Station. All species, except Ceanothus, showed increased leaf N concentration, decreased foliar carbon to N ratio, and increased foliar N isotopic composition with fertilization, indicating that added N was taken up by study species, yet each species had a differing physiological response to long-term N addition. Dry season predawn water potentials were less negative with N addition for all species except Adenostoma, but there were no differences in midday water potentials, or wet season water potentials. Artemisia was particularly responsive, as N addition increased stem hydraulic conductivity, stomatal conductance, and leaf carbon isotopic composition, and decreased wood density. The alteration of water relations and drought resistance parameters with N addition in Artemisia, as well as Adenostoma, Ceanothus, and Salvia, indicate that N deposition can affect the ability of native Southern California shrubs to respond to drought.

Published

2016

98. Testing the 'microbubble effect' using the Cavitron technique to measure xylem water extraction curves.

Author

Pivovaroff AL, Burlett R, Lavigne B, Cochard H, Santiago LS, and Delzon S

Abstract

Plant resistance to xylem cavitation is a major drought adaptation trait and is essential to characterizing vulnerability to climate change. Cavitation resistance can be determined with vulnerability curves. In the past decade, new techniques have increased the ease and speed at which vulnerability curves are produced. However, these new techniques are also subject to new artefacts, especially as related to long-vesselled species. We tested the reliability of the 'flow rotor' centrifuge technique, the so-called Cavitron, and investigated one potential mechanism behind the open vessel artefact in centrifuge-based vulnerability curves: the microbubble effect. The microbubble effect hypothesizes that microbubbles introduced to open vessels, either through sample flushing or injection of solution, travel by buoyancy or mass flow towards the axis of rotation where they artefactually nucleate cavitation. To test the microbubble effect, we constructed vulnerability curves using three different rotor sizes for five species with varying maximum vessel length, as well as water extraction curves that are constructed without injection of solution into the rotor. We found that the Cavitron technique is robust to measure resistance to cavitation in tracheid-bearing and short-vesselled species, but not for long-vesselled ones. Moreover, our results support the microbubble effect hypothesis as the major cause for the open vessel artefact in long-vesselled species., (Published by Oxford University Press on behalf of the Annals of Botany Company.)

Published

2016

99. Description of the behavior of an aquifer by using continuous radon monitoring in a thermal spa.

Author

Sainz C, Rábago D, Fuente I, Celaya S, and Quindós LS

Subjects

Groundwater, Humans, Radium analysis, Spain, Air Pollutants, Radioactive analysis, Hot Springs, Radiation Monitoring, Radon analysis, Water Pollutants, Radioactive analysis

Abstract

Radon ((222)Rn) levels in air and water have been analyzed continuously for almost a year in Las Caldas de Besaya thermal spa, north Spain. Radon is a naturally occurring noble gas from the decay of radium ((226)Ra) both constituents of radioactive uranium 238 series. It has been recognized as a lung carcinogen by the World Health Organization (WHO) and International Agency for Research on Cancer (IARC). Furthermore the Royal Decree R.D 1439/2010 of November, 2010 establishes the obligation to study occupational activities where workers and, where appropriate, members of the public are exposed to inhalation of radon in workplaces such as spas. Together with radon measures several physico-chemical parameters were obtained such as pH, redox potential, electrical conductivity and air and water temperature. The devices used for the study of the temporal evolution of radon concentration have been the RTM 2100, the Radon Scout and gamma spectrometry was complementarily used to determine the transfer factor of the silicone tubes in the experimental device. Radon concentrations obtained in water and air of the spa are high, with an average of 660 Bq/l and 2900 Bq/m(3) respectively, where water is the main source of radon in the air. Radiation dose for workers and public was estimated from these levels of radon. The data showed that the thermal processes can control the behavior of radon which can be also influenced by various physical and chemical parameters such as pH and redox potential., (Copyright © 2015 Elsevier B.V. All rights reserved.)

Published

2016

100. Global-scale environmental control of plant photosynthetic capacity.

Author

Ali AA, Xu C, Rogers A, McDowell NG, Medlyn BE, Fisher RA, Wullschleger SD, Reich PB, Vrugt JA, Bauerle WL, Santiago LS, and Wilson CJ

Subjects

Models, Biological, Nitrogen, Plant Leaves chemistry, Plant Leaves metabolism, Uncertainty, Conservation of Natural Resources methods, Environmental Monitoring methods, Photosynthesis physiology, Plants metabolism

Abstract

Photosynthetic capacity, determined by light harvesting and carboxylation reactions, is a key plant trait that determines the rate of photosynthesis; however, in Earth System Models (ESMs) at a reference temperature, it is either a fixed value for a given plant functional type or derived from a linear function of leaf nitrogen content. In this study, we conducted a comprehensive analysis that considered correlations of environmental factors with photosynthetic capacity as determined by maximum carboxylation (V(cm)) rate scaled to 25 degrees C (i.e., V(c),25; μmol CO2 x m(-2)x s(-1)) and maximum electron transport rate (J(max)) scaled to 25 degrees C (i.e., J25; μmol electron x m(-2) x s(-1)) at the global scale. Our results showed that the percentage of variation in observed V(c),25 and J25 explained jointly by the environmental factors (i.e., day length, radiation, temperature, and humidity) were 2-2.5 times and 6-9 times of that explained by area-based leaf nitrogen content, respectively. Environmental factors influenced photosynthetic capacity mainly through photosynthetic nitrogen use efficiency, rather than through leaf nitrogen content. The combination of leaf nitrogen content and environmental factors was able to explain -56% and -66% of the variation in V(c),25 and J25 at the global scale, respectively. Our analyses suggest that model projections of plant photosynthetic capacity and hence land-atmosphere exchange under changing climatic conditions could be substantially improved if environmental factors are incorporated into algorithms used to parameterize photosynthetic capacity in ESMs.

Published

2015