Drought impacts on ecosystem functions of the U.S. National Forests and Grasslands: Part I evaluation of a water and carbon balance model

Understanding and quantitatively evaluating the regional impacts of climate change and variability (e.g., droughts) on forest ecosystem functions (i.e., water yield, evapotranspiration, and productivity) and services (e.g., fresh water supply and carbon sequestration) is of great importance for developing climate change adaptation strategies for National Forests and Grasslands (NFs) in the United States. However, few reliable continental-scale modeling tools are available to account for both water and carbon dynamics. The objective of this study was to test a monthly water and carbon balance model, the Water Supply Stress Index (WaSSI) model, for potential application in addressing the influences of drought on NFs ecosystem services across the conterminous United States (CONUS). The performance of the WaSSI model was comprehensively assessed with measured streamflow (Q) at 72 U.S. Geological Survey (USGS) gauging stations, and satellite-based estimates of watershed evapotranspiration (ET) and gross primary productivity (GPP) for 170 National Forest and Grassland (NFs). Across the 72 USGS watersheds, the WaSSI model generally captured the spatial variability of multi-year mean annual and monthly Q and annual ET as evaluated by Correlation Coefficient (R = 0.71–1.0), Nash–Sutcliffe Efficiency (NS = 0.31–1.00), and normalized Root Mean Squared Error (0.06–0.48). The modeled ET and GPP by WaSSI agreed well with the remote sensing-based estimates for multi-year annual and monthly means for all the NFs. However, there were systemic discrepancies in GPP between our simulations and the satellite-based estimates on a yearly and monthly scale, suggesting uncertainties in GPP estimates in all methods (i.e., remote sensing and modeling). Overall, our assessments suggested that the WaSSI model had the capability to reconstruct the long-term forest watershed water and carbon balances at a broad scale. This model evaluation study provides a foundation for model applications in understanding the impacts of climate change and variability (e.g., droughts) on NFs ecosystem service functions

Retrospective longitudinal analysis of phonetic and phonological cleft palate speech characteristics

In this study, we analysed phonetic and phonological consonant characteristics of cleft palate speech (CPS) at ages 5 and 10 in cleft palate with/without cleft lip (CP±CL) based on Cleft Audit Protocol for Speech – Augmented (CAPS-A) data collected in the Dental Hospital in Glasgow. The nature and extent of CPS characteristics at different ages were investigated. Video-recordings of 42 cleft palate (CP), unilateral cleft lip and palate (UCLP) and bilateral cleft lip and palate (BCLP) boys and girls were analysed based on narrow transcription and automatic PROPH (profile of phonology) of types of articulation features. Results of this study showed that CP±CL children produce a significantly higher number of phonetic CPS characteristics than phonological processes at both ages

Potential Impacts of Climate Change on Water Resources in South Carolina and Across the United States

2008 S.C. Water Resources Conference - Addressing Water Challenges Facing the State and Regio

Upscaling key ecosystem functions across the conterminous United States by a water-centric ecosystem model

We developed a water-centric monthly scale simulation model (WaSSI-C) by integrating empirical water and carbon flux measurements from the FLUXNET network and an existing water supply and demand accounting model (WaSSI). The WaSSI-C model was evaluated with basin-scale evapotranspiration (ET), gross ecosystem productivity (GEP), and net ecosystem exchange (NEE) estimates by multiple independent methods across 2103 eight-digit Hydrologic Unit Code watersheds in the conterminous United States from 2001 to 2006. Our results indicate that WaSSI-C captured the spatial and temporal variability and the effects of large droughts on key ecosystem fluxes. Our modeled mean (±standard deviation in space) ET (556 ± 228 mm yr−1) compared well to Moderate Resolution Imaging Spectroradiometer (MODIS) based (527 ± 251 mm yr−1) and watershed water balance based ET (571 ± 242 mm yr−1). Our mean annual GEP estimates (1362 ± 688 g C m−2 yr−1) compared well (R2 = 0.83) to estimates (1194 ± 649 g C m−2 yr−1) by eddy flux-based EC-MOD model, but both methods led significantly higher (25–30%) values than the standard MODIS product (904 ± 467 g C m−2 yr−1). Among the 18 water resource regions, the southeast ranked the highest in terms of its water yield and carbon sequestration capacity. When all ecosystems were considered, the mean NEE (−353 ± 298 g C m−2 yr−1) predicted by this study was 60% higher than EC-MOD\u27s estimate (−220 ± 225 g C m−2 yr−1) in absolute magnitude, suggesting overall high uncertainty in quantifying NEE at a large scale. Our water-centric model offers a new tool for examining the trade-offs between regional water and carbon resources under a changing environment

Best friends: children use mutual gaze to identify friendships in others

This study examined children’s ability to use mutual eye gaze as a cue to friendships in others. In Experiment 1, following a discussion about friendship, 4-, 5-, and 6-year-olds were shown animations in which three cartoon children looked at one another, and were told that one target character had a best friend. Although all age groups accurately detected the mutual gaze between the target and another character, only 5- and 6-year-olds used this cue to infer friendship. Experiment 2 replicated the effect with 5- and 6-year-olds when the target character was not explicitly identified. Finally, in Experiment 3, where the attribution of friendship could only be based on synchronized mutual gaze, 6-year-olds made this attribution, while 4- and 5-year-olds did not. Children occasionally referred to mutual eye gaze when asked to justify their responses in Experiments 2 and 3, but it was only by the age of 6 that reference to these cues correlated with the use of mutual gaze in judgements of affiliation. Although younger children detected mutual gaze, it was not until 6 years of age that children reliably detected and justified mutual gaze as a cue to friendship

Why Doesn\u27t Negative Behave? Inferences from Emotional Language

Emotional language appears to support the inference process in a hierarchical nature (Shears, et al., 2011). However, Nasrallah, Carmel and Lavie (2009) suggest that the negative valence should be primary in supporting inferences because it is survival based. Further, Gygax, Garnham and Oakhill (2004) claim the importance of context is critical when readers are processing emotional language. Here, we extend previous findings using two sentence pairs, by examining longer, more natural story contexts. Similarly, we hypothesized that if emotional language supports the formation of causal inferences, then positive stories should cause more false alarms to inference-related target words than negative stories. Participants made key press responses to words either in the story (control) or words related to the inferred information (experiment). Both accuracy and reaction time data were used to measure the formation of inferences across valences. Results suggest readers formed inferences equally from positive and neutral stories, but did not form inferences from negative emotional stories. These findings imply a unique quality of negative emotional language that resists typical comprehension processes of knowledge-based inferences

Pediatric Feeding Disorder: Consensus Definition and Conceptual Framework

Pediatric feeding disorders (PFDs) lack a universally accepted definition. Feeding disorders require comprehensive assessment and treatment of 4 closely related, complementary domains (medical, psychosocial, and feeding skill-based systems and associated nutritional complications). Previous diagnostic paradigms have, however, typically defined feeding disorders using the lens of a single professional discipline and fail to characterize associated functional limitations that are critical to plan appropriate interventions and improve quality of life. Using the framework of the World Health Organization International Classification of Functioning, Disability, and Health, a unifying diagnostic term is proposed: “Pediatric Feeding Disorder” (PFD), defined as impaired oral intake that is not age-appropriate, and is associated with medical, nutritional, feeding skill, and/or psychosocial dysfunction. By incorporating associated functional limitations, the proposed diagnostic criteria for PFD should enable practitioners and researchers to better characterize the needs of heterogeneous patient populations, facilitate inclusion of all relevant disciplines in treatment planning, and promote the use of common, precise, terminology necessary to advance clinical practice, research, and health-care policy

3. Safety Assessment of SIN LVs Harboring Chromatin Insulators in the Sensitive Cdkn2a-/- In Vivo Genotoxicity Assay Show Enhancer-Blocking Activity of Specific Insulator Sequences

Chromatin insulators (CI) have been proposed as safety features to increase the safety of self-inactivating (SIN) lentiviral vectors (LV) for gene therapy applications.By taking advantage of an in vivo genotoxicity assay based on the systemic injection of LVs in newborn tumor-prone Cdkn2a-/- mice we were able to measure vector-induced genotoxicity as an accelerated tumor onset that was proportional to the genotoxic potential of the tested LV. Importantly, we took advantage of integration sites (IS) analysis to qualitatively characterize CI that were shown by other in vitro and ex vivo studies to function as insulators. Recently we showed for the first time that a CAAT-box binding Nuclear factor 1 (CTF/NF1)-based CI, when cloned in the LTRs of a SIN.LV with a strong SFFV enhancer-promoter in internal position, significantly reduced the frequency of tumors harboring integrations activating Map3k8 oncogene accompanied by a marked skewing towards tumors harboring inactivating insertions targeting Pten.Here by using this stringent in vivo genotoxicity assay and IS analysis in tumors we expanded our studies towards other CI sequences whose function is regulated by the binding of the CCCTC-binding factor (CTCF), the best characterized insulator protein in vertebrates.Each CTCF-based insulating cassette was cloned in the LTRs of a LV construct containing the SFFV promoter in internal position (CTCF.SIN.LVs) and injected in Cdkn2a-/- mice. Interestingly, mice treated with some of the CTCF.SIN.LVs tested displayed an increased median survival time (ranging from 193.5 to 214 days) compared to mice treated with the uninsulated parental SIN.LV (186 days). Importantly, our preliminary IS analysis in tumors (881 IS) showed that two CTCF.SIN.LVs did not target Map3k8 oncogene while Pten was often disrupted by exonic insertions, an escape genotoxicity mechanism on which CI cannot act.These data confirm that the inclusion of two novel CTCF-based CIs of human origin completely abrogated the formation of tumors caused by enhancer-mediated activation of an oncogene in vivo.The ability of these two new insulator elements to block the crosstalk between powerful vector enhancers and cellular regulatory elements increase the safety of SIN LVs and justify their prompt adoption in future gene therapy applications

Improving human-robot interactivity for tele-operated industrial and service robot applications

In industrial robotics applications, teach pendant has been widely used by human operators to pre-define action trajectories for robot manipulators to execute as primitives. This hard-coding approach is only good for low-mix-highvolume jobs with sparse trajectory way-points. In this paper, we present a novel industrial robotic system designed for applications where human-robot interaction is key for efficient execution of actions such as high-mix-low-volume jobs. The proposed system comprises a robot manipulator that controls a tool (such as a soldering iron) to interact with the required workpiece, a networking server for remote tele-operation, and an integrated user interface that allows the human operator to better perceive the remote operation and to execute actions with greater ease. A user study is conducted to understand the merits of the proposed system. Results indicate that human can operate the system with ease and complete tasks more quickly and that the system can improve application efficiency