The Non-Native Royal Damsel (Neopomacentrus cyanomos) in the Southern Gulf of Mexico: An Invasion Risk?

A diminutive, non-native damselfish (Neopomacentrus cyanomos) was recently discovered inhabiting coral reefs near Veracruz, Mexico—far removed from where it is native in the Red Sea and the Indo-Pacific. The quantities found in the Gulf of Mexico (GOM) suggest that the fish has already established a self-sustaining population in this new ecosystem. There is understandable concern, therefore, that this new arrival may become invasive and spread, yet the invasion risk imposed by this fish has not been assessed. In this study, a computer model was employed to deliver a forecast of the potential range of incursion of N. cyanomos in the GOM spanning 5 years. The model incorporated oceanic water flow in the region, tolerances of this damselfish to the ocean environment, and their reproductive strategy in order to supply a temporal and spatial forecast of their spread. From this study, targeted early detection and removal of the fish can be directed if the fish is deemed a threat to native fauna. On the basis of this work, it is foreseeable that the reefs presently harboring N. cyanomos will likely see increased abundance of this damsel. Immediate attempts to eliminate the fish, therefore, should be focused in nearshore shallow waters spanning Veracruz to Frontera, Mexico. Further, water flows in the southern GOM are not widely conducive to long-distance transport of marine organisms with pelagic larvae, reducing the risk of this damsel permeating the greater GOM over 5 years. Aside from N. cyanomos, this study implicitly adds to mounting evidence supporting a biogeographic disconnect between the Veracruz reef complex and the greater GOM and the Caribbean

Ice-sheet bed 3-D tomography

This is the published version. Copyright 2010 International Glaciological SocietyInformation on bed topography and basal conditions is essential to developing the next-generation ice-sheet models needed to generate a more accurate estimate of ice-sheet contribution to sea-level rise. Synthetic aperture radar (SAR) images of the ice–bed can be analyzed to obtain information on bed topography and basal conditions. We developed a wideband SAR, which was used during July 2005 to perform measurements over a series of tracks between the GISP2 and GRIP cores near Summit Camp, Greenland. The wideband SAR included an eight-element receive-antenna array with multiple-phase centers. We applied the MUltiple SIgnal Classification (MUSIC) algorithm, which estimates direction of arrival signals, to single-pass multichannel data collected as part of this experiment to obtain fine-resolution bed topography. This information is used for producing fine-resolution estimates of bed topography over a large swath of 1600m, with a 25m posting and a relative accuracy of approximately 10m. The algorithm-derived estimate of ice thickness is within 10m of the GRIP ice-core length. Data collected on two parallel tracks separated by 500m and a perpendicular track are compared and found to have difference standard deviations of 9.1 and 10.3m for the parallel and perpendicular tracks, respectively

Cerebrovascular Dysfunction is Related to Depressive Symptom Severity in Young Adults

Cerebral vasodilatory responsiveness is blunted in older adults (~70 yrs) with depressive disorders and is thought to contribute to the link between depressive symptomology and increased risk for neurocognitive (e.g., dementia) and cerebral vascular (e.g., stroke) diseases. In young adults with major depressive disorder (MDD), peripheral vascular endothelial dysfunction is present and graded in relation to the severity of depressive symptoms; however, to date, limited investigations have examined cerebral vasodilatory function in young otherwise healthy adults with MDD. PURPOSE: We tested the hypothesis that cerebral vasodilatory responsiveness to a hypercapnic stimulus would be blunted in young otherwise healthy adults with MDD compared to healthy non-depressed adults (HA). Further, we hypothesized, that the magnitude of impairment in cerebrovascular function would be related to depressive symptom severity. METHODS: Ten HA (7 women; 22±2yrs) and 10 adults with MDD (8 women; 22±2yrs; n=5 tested during a major depressive episode) participated. Depressive symptom severity was evaluated with the Patient Health History Questionnaire-9 (PHQ-9) in both HA and adults with MDD. Beat-to-beat mean arterial pressure (MAP; finger photoplethysmography), middle cerebral artery blood velocity (MCAv; transcranial Doppler ultrasound), and end-tidal carbon dioxide concentration (PETCO2; capnograph) were continuously measured during baseline (i.e., normocapnia) and rebreathing-induced hypercapnia. Cerebral vascular conductance index (CVCi=MCAv•MAP-1) was calculated at baseline and at the highest common magnitude of hypercapnia achieved by all subjects during rebreathing (∆PETCO2 = 9 Torr). RESULTS: At baseline, there were no differences in MAP or CVCi between groups (both p\u3e0.05). During hypercapnia, there were no group differences in the increase in MAP (∆3±3 HA vs. ∆4±3 mmHg MDD; p=0.78). Further, neither the hypercapnia-induced increase in MCAv (∆29±7 HA vs. ∆26±8 cm•s-1 MDD; p=0.37) nor the increase in CVCi (∆39±12 HA vs. ∆30±12 %baseline MDD; p=0.13) were different between groups. However, greater severity of depressive symptoms was negatively related to cerebral vasodilatory responsiveness (R2=0.219, p=0.04). CONCLUSION: These preliminary data suggest that cerebral vasodilatory responsiveness to hypercapnia is not impaired in young adults with MDD, despite a negative relation between depressive symptom severity and the magnitude of hypercapnia-induced cerebral vasodilation

Cutaneous and Muscle Reactive Hyperemia in Young Adults with Major Depressive Disorder

The reactive hyperemic vasodilatory response to a brief period of tissue ischemia provides an index of microvascular function and is an independent predictor of cardiovascular morbidity and mortality. As such, reactive hyperemia is a non-invasive technique that is commonly utilized to provide an index of vascular health in various patient groups. Major depressive disorder (MDD), a non-traditional risk factor for cardiovascular disease (CVD), has been associated with blunted reactive hyperemia, though this is not a universal finding. Further, to date, the quantification of the reactive hyperemic response in adults with MDD has been limited to the forearm muscle, assessed as Doppler ultrasound derived blood velocity in the brachial artery following a period of suprasystolic cuff occlusion. PURPOSE: Here, we sought to more comprehensively assess microvascular reactive hyperemia in otherwise healthy young adults with MDD. We tested the hypothesis that both muscle and cutaneous vasodilation would be blunted in adults with MDD compared to non-depressed young adults. METHODS: Nine healthy adults (HA; age: 22±2 yrs: body mass index: 26.5 ± 1.8 kg/m2) and ten adults with MDD (non-medicated; age: 22±2 yrs: body mass index: 22.6 ± 4.4 kg/m2) participated. Forearm reactive hyperemia was assessed as the increase in blood velocity in the brachial artery following 5-min of suprasystolic cuff occlusion (distal to the olecranon process). In a subset of adults (n=5 HA; n=4 MDD), cutaneous reactive hyperemia was concurrently assessed via laser Doppler flowmetry-derived flux (perfusion units; PU). Peak and total (area-under-the-curve; AUC) reactive hyperemia were quantified for each methodological approach. RESULTS: Neither the brachial artery Doppler ultrasound-derived peak (HA: 1020±383 vs. MDD: 950±239 s-1; p=0.65) nor the total blood flow (HA: 284±77 vs. MDD: 233±153 a.u.; p=0.41) reactive hyperemic response was different between groups. Further, there were no group differences in cutaneous reactive hyperemia (peak: 83±37 HA vs. 79±15 PU MDD, p=0.85; AUC: 8764±2273 HA vs. 8935±1439 a.u. MDD; p=0.90). CONCLUSION: These preliminary data indicate that neither the muscle nor cutaneous vasodilatory response to a brief period of tissue ischemia is blunted in young adults with MDD, suggesting preserved microvascular function

The Relation Between Cognitive Function and Cerebral Vasodilatory Reactivity in Young Adults with Major Depressive Disorder

Major depressive disorder (MDD) has been associated with an elevated risk of developing neurocognitive diseases (e.g., dementia). Although the precise neurobiological mechanisms remain incompletely understood, cerebrovascular dysfunction is thought to directly contribute, at least in part, to impairments in cognitive function. Cerebral vasodilatory reactivity to a hypercapnic stimulus is blunted in older adults with MDD compared to age-matched non-depressed adults. Further, impaired cerebral vasodilation has been linked to reduced cognitive activity in older adults with depression. However, to date, limited studies have examined the relation between cognitive function and cerebrovascular function in otherwise healthy young adults with MDD. PURPOSE: We tested the hypothesis that greater hypercapnia-induced cerebral vasodilation would be related to greater fluid cognitive ability (i.e., the capacity to process and integrate new information) in young adults with MDD. METHODS: Ten adults with MDD (non-medicated; age: 22±2 yrs: body mass index: 22.8±4.5 kg/m2; education level: all enrolled in a four-year university) participated. Cognitive function was assessed via the NIH Toolbox Cognitive Function Battery (iPad). A composite fluid cognitive ability score was derived from the specific tests within the battery that measure fluid ability [e.g., Flanker, Dimensional Change Cart Sort (DCCS)]; an age-correct standard T-score of 100 indicates ability that is average compared with national data. Beat-to-beat mean arterial pressure (MAP; finger photoplethysmography), middle cerebral artery blood velocity (MCAv; transcranial Doppler ultrasound), and end-tidal carbon dioxide concentration (PETCO2; capnograph) were continuously measured during normocapnic baseline and during rebreathing-induced hypercapnia. The hypercapnia-induced (∆PETCO2=9 mmHg) increase in cerebral vascular conductance index (∆CVCi=MCAv/MAP) was used as an index of cerebral vasodilatory reactivity. RESULTS: Hypercapnia elicited an increase in CVCi in all subjects (mean: 30±12%; range: 18-60%). The age-corrected composite fluid cognitive ability standard score was 100±15 (range: 79-119). The increase in CVCi was not related to fluid cognitive ability (slope=-0.12±0.3; r2=0.02, p=0.67). In addition, the increase in CVCi was not related to either the age-corrected standard score for the Flanker task (slope=-0.38±0.4; r2=0.12, p=0.32) or for the DCCS task (slope=0.09±0.3; r2=0.02, p=0.72), both of which specifically measure executive function. CONCLUSION: These preliminary data suggest that cerebral vasodilatory reactivity to a hypercapnic stimulus is not related to fluid cognitive function in otherwise healthy college-aged adults with MDD

Invasive Lionfish Drive Atlantic Coral Reef Fish Declines

Indo-Pacific lionfish (Pterois volitans and P. miles) have spread swiftly across the Western Atlantic, producing a marine predator invasion of unparalleled speed and magnitude. There is growing concern that lionfish will affect the structure and function of invaded marine ecosystems, however detrimental impacts on natural communities have yet to be measured. Here we document the response of native fish communities to predation by lionfish populations on nine coral reefs off New Providence Island, Bahamas. We assessed lionfish diet through stomach contents analysis, and quantified changes in fish biomass through visual surveys of lionfish and native fishes at the sites over time. Lionfish abundance increased rapidly between 2004 and 2010, by which time lionfish comprised nearly 40% of the total predator biomass in the system. The increase in lionfish abundance coincided with a 65% decline in the biomass of the lionfish's 42 Atlantic prey fishes in just two years. Without prompt action to control increasing lionfish populations, similar effects across the region may have long-term negative implications for the structure of Atlantic marine communities, as well as the societies and economies that depend on them

Sympathetic and hemodynamic responses to exercise in heart failure with preserved ejection fraction

Excessive sympathetic activity during exercise causes heightened peripheral vasoconstriction, which can reduce oxygen delivery to active muscles, resulting in exercise intolerance. Although both patients suffering from heart failure with preserved and reduced ejection fraction (HFpEF and HFrEF, respectively) exhibit reduced exercise capacity, accumulating evidence suggests that the underlying pathophysiology may be different between these two conditions. Unlike HFrEF, which is characterized by cardiac dysfunction with lower peak oxygen uptake, exercise intolerance in HFpEF appears to be predominantly attributed to peripheral limitations involving inadequate vasoconstriction rather than cardiac limitations. However, the relationship between systemic hemodynamics and the sympathetic neural response during exercise in HFpEF is less clear. This mini review summarizes the current knowledge on the sympathetic (i.e., muscle sympathetic nerve activity, plasma norepinephrine concentration) and hemodynamic (i.e., blood pressure, limb blood flow) responses to dynamic and static exercise in HFpEF compared to HFrEF, as well as non-HF controls. We also discuss the potential of a relationship between sympathetic over-activation and vasoconstriction leading to exercise intolerance in HFpEF. The limited body of literature indicates that higher peripheral vascular resistance, perhaps secondary to excessive sympathetically mediated vasoconstrictor discharge compared to non-HF and HFrEF, drives exercise in HFpEF. Excessive vasoconstriction also may primarily account for over elevations in blood pressure and concomitant limitations in skeletal muscle blood flow during dynamic exercise, resulting in exercise intolerance. Conversely, during static exercise, HFpEF exhibit relatively normal sympathetic neural reactivity compared to non-HF, suggesting that other mechanisms beyond sympathetic vasoconstriction dictate exercise intolerance in HFpEF

Linking removal targets to the ecological effects of invaders: a predictive model and field test

Species invasions have a range of negative effects on recipient ecosystems, and many occur at a scale and magnitude that preclude complete eradication. When complete extirpation is unlikely with available management resources, an effective strategy may be to suppress invasive populations below levels predicted to cause undesirable ecological change. We illustrate this approach by developing and testing targets for the control of invasive Indo-Pacific lionfish (Pterois volitans and P. miles) on Western Atlantic coral reefs. We first developed a size structured simulation model of predation by lionfish on native fish communities, which we used to predict threshold densities of lionfish beyond which native fish biomass should decline. We then tested our predictions by experimentally manipulating lionfish densities above or below reef-specific thresholds, and monitoring the consequences for native fish populations on 24 Bahamian patch reefs over 18 months. We found that reducing lionfish below predicted threshold densities effectively protected native fish community biomass from predation-induced declines. Reductions in density of 75- 95%, depending on the reef, were required to suppress lionfish below levels predicted to over-consume prey. On reefs where lionfish were kept threshold densities, native prey fish biomass increased by 50-70%. Gains in small (15cm total length), including ecologically important grazers and economically important fisheries species, had increased by 10-65% by the end of the experiment. Crucially, similar gains in prey fish biomass were realized on reefs subjected to partial and full removal of lionfish, but partial removals took 30% less time to implement. By contrast, the biomass of small native fishes declined by more than 50% on all reefs with lionfish densities exceeding reef-specific thresholds. Large inter-reef variation in the biomass of prey fishes at the outset of the study, which influences the threshold density of lionfish, means that we identify a single rule-of-thumb for guiding control efforts. However, our model provides a method for setting reef-specific targets for population control using local monitoring data. Our work is the first to demonstrate that for ongoing invasions, suppressing invaders below densitiesterms of protecting the native ecosystem on a local scale, to achieving complete eradicationKeywords: Metabolic scaling theory, Marine management, Eradication, Size-based analysis, Population control, Exotic species, Productivity, Ecological model, PredationKeywords: Metabolic scaling theory, Marine management, Eradication, Size-based analysis, Population control, Exotic species, Productivity, Ecological model, Predatio

Microwave Observations of Venus with CLASS

We report on the disk-averaged absolute brightness temperatures of Venus measured at four microwave frequency bands with the Cosmology Large Angular Scale Surveyor (CLASS). We measure temperatures of 432.3 $\pm$ 2.8 K, 355.6 $\pm$ 1.3 K, 317.9 $\pm$ 1.7 K, and 294.7 $\pm$ 1.9 K for frequency bands centered at 38.8, 93.7, 147.9, and 217.5 GHz, respectively. We do not observe any dependence of the measured brightness temperatures on solar illumination for all four frequency bands. A joint analysis of our measurements with lower frequency Very Large Array (VLA) observations suggests relatively warmer ($\sim$ 7 K higher) mean atmospheric temperatures and lower abundances of microwave continuum absorbers than those inferred from prior radio occultation measurements.Comment: 10 pages, 3 figures, published in PS

COSMOS-Web: Intrinsically Luminous z≳\gtrsim10 Galaxy Candidates Test Early Stellar Mass Assembly

We report the discovery of 15 exceptionally luminous $10\lesssim z\lesssim14$ candidate galaxies discovered in the first 0.28 deg$^2$ of JWST/NIRCam imaging from the COSMOS-Web Survey. These sources span rest-frame UV magnitudes of $-20.5>M_{\rm UV}>-22$, and thus constitute the most intrinsically luminous $z\gtrsim10$ candidates identified by JWST to-date. Selected via NIRCam imaging with Hubble ACS/F814W, deep ground-based observations corroborate their detection and help significantly constrain their photometric redshifts. We analyze their spectral energy distributions using multiple open-source codes and evaluate the probability of low-redshift solutions; we conclude that 12/15 (80%) are likely genuine $z\gtrsim10$ sources and 3/15 (20%) likely low-redshift contaminants. Three of our $z\sim12$ candidates push the limits of early stellar mass assembly: they have estimated stellar masses $\sim5\times10^{9}\,M_\odot$, implying an effective stellar baryon fraction of $\epsilon_{\star}\sim0.2-0.5$, where $\epsilon_{\star}\equiv M_{\star}/(f_{b}M_{halo})$. The assembly of such stellar reservoirs is made possible due to rapid, burst-driven star formation on timescales $<$100\,Myr where the star-formation rate may far outpace the growth of the underlying dark matter halos. This is supported by the similar volume densities inferred for $M_\star\sim10^{10}\,M_\odot$ galaxies relative to $M_\star\sim10^{9}\,M_\odot$ -- both about $10^{-6}$ Mpc$^{-3}$ -- implying they live in halos of comparable mass. At such high redshifts, the duty cycle for starbursts would be of order unity, which could cause the observed change in the shape of the UVLF from a double powerlaw to Schechter at $z\approx8$. Spectroscopic redshift confirmation and ensuing constraints of their masses will be critical to understanding how, and if, such early massive galaxies push the limits of galaxy formation in $\Lambda$CDM.Comment: 30 pages, 9 figures; ApJ submitte