Long-term Studies Research Articles

Extreme rainfall and soil water consumption differences increase yield shedding at lower fruiting branches, reducing cotton water productivity under different sowing dates

Improvement of cultivated cotton adaptability to extreme climate events under climate change promotes sustainable cotton production. Extreme rainfall leads to a significant decrease in cotton yield, which may be related to changes in soil water consumption (SWC) and the vertical distribution of yield, but relevant research is still scarce. Here, a two-year cotton sowing date experiment was conducted in which geostatistics, sensor technology, the spatial grid method, and principal component analysis were combined to analyze cotton utilization of soil water during extreme rainfall (2021) and normal (2022) years. The reasons for cotton yield reduction under extreme rainfall and strategies to improve cotton production adaptability to extreme rainfall were discussed. Under extreme rainfall, the morphogenesis and reproductive organ development of cotton were inhibited. The accumulation of SWC and its relationship with the biomass accumulation of cotton on different sowing dates under extreme rainfall exhibited nearly opposite characteristics to those in a normal year. Simultaneously, the two-year yield showed the opposite trend with the change in sowing date. There existed a trade-off strategy for the vertical distribution (i.e., on the upper, middle and lower fruiting branches) of cotton yield. Extreme rainfall reduced the yield at lower fruiting branches and increased the boll-forming rate of the upper fruiting branches, which was closely related to seed cotton yield, lint yield and water productivity (WP). Optimizing the cotton sowing date (early sowing should be appropriate in this study) may improve the adaptability of cotton production under extreme rainfall, but further long-term studies are needed. This study highlights the critical practice of climate-smart agriculture and has reference value for the sustainable development of cotton production.

Non-ablative laser skin rejuvenation by targeting indigenous chromophores

Three pulsed laser systems: 980 nm semiconductor diode laser, 1064 nm Nd: YAG laser and long pulse- fractional 2940 nm pulsed Er: YAG were used to treat some non-ablative skin rejuvenation applications. These three wavelengths can target the three main indigenous chromophores (melanin, hemoglobin and water) of the skin to treat different skin disorders. The efficacy of these lasers was assessed in the treatment of age spots, enlarged veins and wrinkles. The chromophore type and location of a specific disorder was taken into consideration when working out, in advance, the required laser fluence. The absorption of laser photons and the reabsorbed photon scattering were calculated and used to work out the temperature rise in the targeted tissue. The results indicated very good outcome of age spots with 980 nm laser, excellent clearance of the varicose veins with the use of 1064 nm laser and very good smoothing of fine lines wrinkles on forehead. Advances may involve conducting wavelengths or developing customizable protocols for different skin types. Long-term studies on patient outcomes to help establish standardized protocols and improve efficacy in clinical uses

Enhanced corrosion resistance of epoxy coatings through the incorporation of modified TiO2 and reduced graphene oxide

Anti-corrosion coatings ensure material safety and extend service life, serving as important safeguards in the fields of construction, infrastructure, petrochemicals, and marine engineering. Therefore, this study introduces a dual-nanofiller synergistic system by blending epoxy resin, 3-hydroxy-2-naphthylhydrazine modified reduced graphene oxide, and TiO2 nanofillers modified with the silane coupling agent KH570 to create a novel nanocomposite coating. Compared to traditional coatings, the synergistic effect of the dual nanofillers formed a dense nanonetwork structure, enhancing the corrosion resistance and mechanical properties of the coating. The results show that the composite coating has a smooth surface with minimal crack formation. In addition, the toughness and wear resistance of the composite coatings were improved. Electrochemical Impedance Spectroscopy analysis revealed that the impedance value of the Dual nanofiller composite coating was two orders of magnitude higher than that of the other coatings, showing the strongest corrosion resistance. A 45-d long-term immersion experiment was conducted on the composite coatings. The results showed that after 45 d of immersion in 3.5 wt% NaCl solution at room temperature, the Z modulus of the dual nanofiller composite coating decreased from 109 Ω·cm2 to 107 Ω·cm2. Although the performance declined, the coating still exhibited relatively high corrosion resistance and no significant physical defects, maintaining a good overall structure. This study provides an ideal method for enhancing the corrosion resistance of coatings by using a dual-nanofiller synergistic system.

Transjugular intrahepatic portosystemic shunt (TIPS) with variceal embolization reduces rebleeding risk for patients with portal pressure gradient over 12 mmHg: A long-term follow-up study

ObjectiveThe consensus on whether Transjugular intrahepatic portosystemic shunt (TIPS) should be combined with variceal embolization in the treatment of portal hypertension-induced bleeding has not yet been reached. This study aimed to compare the difference in rebleeding incidence between TIPS and TIPS combined with variceal embolization and to analyze the optimal population for variceal embolization. MethodsClinical data of 721 patients undergoing TIPS were retrospectively collected. Patients were divided into two groups: TIPS alone (n = 155) and TIPS with embolization (TIPS+E, n = 251). Kaplan-Meier (KM) curves were used to analyze prognostic differences between the two groups, and subgroup analysis was conducted based on post-TIPS portal pressure gradient (PPG) exceeding 12 mmHg. ResultsAfter TIPS placement, the mean PPG significantly decreased for all patients. A total of 51 patients (12.6 %) experienced rebleeding, with 24 cases (15.9 %) in the TIPS group and 27 cases (10.6 %) in the TIPS+E group. There was no significant difference in cumulative rebleeding incidence between the TIPS+E and TIPS groups. In the subgroup with post-TIPS PPG greater than 12 mmHg, the cumulative rebleeding incidence was significantly lower in the TIPS+E group compared to the TIPS group (HR = 0.47, 95 %CI = 0.24–0.93, Log rank P = 0.026). No significant difference was found in patients with a post-TIPS PPG less than 12 mmHg. ConclusionFor patients with post-TIPS PPG exceeding 12 mmHg, simultaneous variceal embolization with TIPS placement significantly reduces the risk of rebleeding.

Cardiopulmonary coupling predictors of blood pressure response to positive airway pressure therapy

The effect of continuous positive airway pressure (CPAP) treatment on reducing cardiovascular disease risk in sleep apnea subjects remains inconclusive. It is plausible that pathological respiratory chemoreflex activation (high loop gain) is a predictive signal biomarker. To determine whether narrow band (e-LFCNB%) metric derived from cardiopulmonary coupling analysis is related with blood pressure reduction after CPAP. A secondary analysis of the Apnea Positive Pressure Long-term Efficacy Study (APPLES). The elevated low frequency coupling - narrow band (e-LFCNB %) metric derived from cardiopulmonary coupling analysis detects periodic breathing (as a surrogate for high loop gain), and was estimated in baseline polysomnogram. Linear regression analysis was performed to identify the potential association between e-LFCNB% of total sleep time and the observed reduction in blood pressure following the specified treatment. A total of 388 subjects received CPAP and had e-LFCNB % measurements. At 2 months, 90/322 subjects had e-LFCNB ≥ 4% at baseline. At 6 months 137/313 subjects had e-LFCNB higher than 2% at baseline. For morning systolic blood pressure, e-LFCNB ≥ 4% [β: 2.534, standard error (SE): 1.198, p: 0.035] was positively related with the extent of systolic blood pressure reductions after 2 months CPAP treatment and e-LFCNB ≥ 2% was marginally related with systolic blood pressure decrement after 6 months (β: 2.162, SE: 1.173, p: 0.066). For the morning diastolic blood pressure, e-LFCNB ≥ 2% predicted reductions at 6 months of treatment (β: 1.883, SE: 0.888, p: 0.035). e-LFCNB % (probable high loop gain) was positively related to systolic blood pressure reduction (short-term) and diastolic blood pressure reduction (longer-term), following CPAP.

Association between prenatal mercury exposure and pediatric neurodevelopment: The Japan environment and children's study

Mercury pollution, including from its use during gold mining and refining, remains an important problem worldwide. In particular, methylmercury, a microbial alteration of mercury released into the environment, is a major environmental neurotoxicant. Although there has been growing concern about the health hazards of exposure to low levels of mercury, the effects of prenatal mercury exposure on neurodevelopmental outcomes in children have remained controversial. In the Japan Environment and Children's Study, a large-scale nationwide birth cohort study, we measured methylmercury and inorganic mercury concentrations in cord blood and conducted developmental scoring tests at ages 2 and 4 years. We then analyzed the associations between mercury levels in cord blood and neurodevelopmental outcomes. Measurements of cord blood obtained from 3822 participants revealed median values of 7.39 ng/ml (5th percentile: 2.95, 95th percentile: 18.1) and 0.25 ng/ml (5th percentile: 0.10, 95th percentile: 0.58) for methylmercury and inorganic mercury, respectively. Analyzing the association with fish consumption, bonito-tuna was most strongly correlated with both methylmercury and inorganic mercury in cord blood. Although the association between cord blood mercury and neurodevelopmental scores was subsequently examined in 3083 individuals, we found no significant association with either methylmercury or inorganic mercury. Further quartile group analysis based on methylmercury concentrations in cord blood revealed no concentration-dependent association between a prenatal mercury exposure and neurodevelopment in children. However, various factors influence neurodevelopment, and long-term observational studies that consider those covariates are necessary for a more definitive conclusion. Although the findings of our study provide important insights into the association between prenatal mercury exposure and neurodevelopment, further research is needed to make recommendations for safe mercury intake thresholds during pregnancy.

Half-life-extended Monoclonal Antibody APG777 for Atopic Dermatitis: Design of the Phase 2 APEX Study

Introduction: Current treatments for moderate-to-severe atopic dermatitis (AD) include topical and systemic therapies. The latter includes monoclonal antibodies (mAbs) targeting the IL-13 pathway, which is implicated in AD pathophysiology. While currently available mAbs directed against the IL-13 pathway have demonstrated efficacy for AD, they require ongoing injections every 2 or 4 weeks. APG777 is a humanized, anti-IL-13 mAb that binds IL-13 and blocks downstream signaling mediated by the IL-13Rα1/IL-4Rα complex. APG777 contains amino acid modifications designed to extend plasma half-life through increased FcRn-mediated antibody recycling. Interim results from an ongoing phase 1 study in healthy participants suggest a favorable safety and PK/PD profile for APG777, and a half-life of approximately 75 days. Methods: APEX (NCT06395948) is a 2-part, multicenter, phase 2, randomized, double-blinded, placebo-controlled clinical trial evaluating the efficacy and safety of APG777 in adults with moderate-to-severe AD. Adults (≥18 years of age) are eligible to participate if they have a diagnosis of AD for ≥1 year prior to screening and exhibit moderate-to-severe AD (EASI ≥16, IGA ≥3, BSA ≥10%) at both screening and baseline visits. Part A of the study (proof-of-concept) is evaluating the efficacy and safety of one induction dose regimen of APG777 compared with placebo over 16 weeks; this is followed by a 36-week maintenance period. Part B (dose-regimen finding) will evaluate different dose regimens of APG777 compared with placebo over 16 weeks followed by a 36-week maintenance period. Participants completing the maintenance period of Part A or B of the study will be eligible to enroll in a separate long-term extension study or enter the post-treatment follow-up period (up to 52 weeks). The primary outcome measure for the study is the percentage change from baseline to week 16 in the Eczema Area and Severity Index (EASI). The APEX study is currently enrolling.

TELOMERE LENGTH IN RHESUS MACAQUES WITH VOLUNTARY CHRONIC ETHANOL CONSUMPTION

Introduction. Alcohol abuse is associated with telomere shortening. There is no convincing evidence of a “safe” level of alcohol consumption in this regard. Long-term studies in rodents are not feasible, and clinical trials with the administration of alcohol to healthy individuals is not ethically acceptable. An approach based on a relevant model of voluntary alcohol consumption in monkeys under controlled conditions is a significant alternative. The aim of the study. To estimate the length of telomeres at long-term ethanol consumption by male rhesus macaques in under free choice with water Methods. The study was performed on fourteen mature male Rhesus macaques of groups with low (median 0.62 g/kg/day) and high (median 2.71 g/kg/day) ethanol consumption as 4% (v./v.) solution with condition of all-day access and free choice with drinking water. The duration of consumption was 920 days. The relative length of telomeres was determined by quantitative PCR according to Cawthon (2002) in blood leukocytes. Results. The relative average telomere length in the high-consumption group was 1.53±0.57 before the presentation of ethanol in the adaptation period (-32 day of the study), and at the consumption stage it was on 717 day 2.13±0.19 and on 917 day 4.61±0.7. In the low-consumption group, the average relative telomere length constituted 1.42±0.22, 1.55±0.15 and 3.3±0.47, respectively. The absolute count of leukocytes did not change significantly during the study. However, changes in the differential white cells count were revealed representing development of relative monocytosis by 917 day in both groups. Conclusion. The data obtained do not confirm the association of long-term alcohol consumption in moderate doses with telomere length. The completed study has limitations related to the lack of control without consumption and evaluation in one sex.

Impact of Integrated Nutrient Management on Soil Micronutrients and Organic Matter Dynamics in Maize-mustard Crop Rotation in Himalayan Foothills

Aims: The purpose of this research is to investigate the effects of inorganic fertilizers and organic manures on availability of micronutrients and organic matter in soils of rainfed agriculture in foothills of Himalayas. Place and Duration of Study: Present study was conducted at Advance Centre for Rainfed Agriculture (ACRA), Rakh Dhiansar, Jammu from 2020 to 2022. Methodology: In a long-term field experiment, we investigated the effects of 10 treatments on soil micronutrients, organic matter and their correlation under rain fed agriculture. Randomized block design was used with three replications. Following are the treatments: T1 - Control, T2 - 100% RDF of N,P,K through chemicals, T3 - 50% RDF of N,P,K through chemicals, T4- 50% RD of N through crop residue, T5 - 50% RD of N through FYM, T6 -50% RDF of N,P,K through chemicals + 50% RDF of N through crop residues, T7- 50% RDF of N,P,K through chemicals + 50% RD of N through FYM, T8 - FYM @ 10 ton/ha, T9 - 100% RDF of N,P,K through chemicals + Zinc Sulphate @ 20kg/ha and T10 - Farmer practice (FYM @ 4 ton/ha + 40kg urea /ha). The micronutrients (Fe, Zn, Cu and Mn) showed maximum increase with the application of organic manures along with inorganic fertilizers over control in both surface and sub surface layers of the soil. However, in the sub-surface soil, there was less availability of these nutrients than the surface layer of the soil. The available Zn content was found maximum in the treatment T9 getting 100% NPK + ZnSO4 @ 20kg/ha over control. The treatment T8 with the application of FYM @ 10 ton/ha recorded highest content of soil organic matter in surface soil. Positive and significant correlations were observed between soil organic matter and the micronutrient content of the soil. The INM practices proved very beneficial for increasing the sustainability of soil.

Efficacy of intravitreal faricimab therapy for polypoidal choroidal vasculopathy: A systematic review and meta-analysis.

Polypoidal choroidal vasculopathy (PCV) is an aneurismal type of macular neovascularization that show similarities with age-related macular degeneration and diseases that are part of the pachychoroid disease spectrum. Exudative changes in PCV can be treated with intravitreal anti-vascular endothelial growth factor monotherapy; however, a combination therapy with photodynamic therapy may be required. In this systematic review and meta-analysis, we evaluated the efficacy of faricimab for PCV. We searched 12 literature databases for eligible studies. All study evaluation and data extraction were made by two authors in duplicate. Studies eligible for analysis were included for a qualitative and quantitative review. We identified seven studies with data from 150 eyes with PCV, five studies were of treatment-naïve eyes who were commenced in faricimab monotherapy, and two studies were of switch-over to faricimab from other anti-VEGF drugs. After faricimab loading dose in treatment-naïve eyes, the best-corrected visual acuity (BCVA) remained stable at -0.09 (95% CI: -0.20-0.03) logMAR, central retinal thickness (CRT) decreased -169 (95% CI: -311--27) μm, and 48.7 (95% CI: 32.5-65.0) % of eyes obtained polyp closure. In switch-over eyes, 57%-67% experienced fluid reduction and 21% were able to extend their treatment interval. In conclusion, faricimab monotherapy for PCV leads to acceptable clinical outcomes in terms of stable BCVA, reduction of CRT, and high incidence of polyp closure. Some cases may benefit from a switch to faricimab. However, long-term efficacy studies and controlled comparative studies are warranted.

Impact of adalimumab on erectile dysfunction, sperm parameters and hormonal profile in male psoriasis patients: a six-month observational study.

Psoriasis, a chronic inflammatory skin disease, is associated with systemic complications that extend beyond cutaneous lesions, including cardiovascular risks and sexual dysfunction. Erectile dysfunction (ED) is notably more prevalent in male psoriasis patients, likely driven by both systemic inflammation and psychological stress. Adalimumab (ADA), a tumor necrosis factor-alpha (TNF-α) inhibitor, has been shown to effectively reduce psoriasis severity, but its effects on sexual and reproductive health remain underexplored. This study investigates the impact of ADA on erectile function, sperm parameters, and hormonal profiles in male psoriasis patients. This six-month prospective observational study included 33 biologic-naïve male patients aged 18-50 years with moderate-to-severe plaque psoriasis (Psoriasis Area and Severity Index [PASI] > 10). Patients received ADA according to standard clinical protocols. Erectile function was assessed using the International Index of Erectile Function (IIEF-5). Sperm parameters, including ejaculate volume, sperm concentration, total sperm count, motility, vitality, and morphology, were analyzed following World Health Organization (WHO) 2010 criteria. Hormonal profiles (testosterone, luteinizing hormone (LH), follicle-stimulating hormone (FSH), estradiol, and prolactin) were measured via standardized assays. Statistical analyses were performed using paired t-tests or Wilcoxon signed-rank tests, with p-values < 0.05 considered significant. ADA significantly improved erectile function, as the mean IIEF-5 score increased from 21.3 ± 2.2 to 22.2 ± 1.9 (p = 0.03). The percentage of patients with ED decreased from 51.5% at baseline to 36.4% post-treatment (p < 0.001). Progressive sperm motility and vitality showed statistically significant improvement post-treatment (p = 0.02 and p = 0.04, respectively), while other sperm parameters remained unchanged. Total testosterone levels significantly increased from 3.4 ± 0.4 ng/ml to 3.5 ± 0.4 ng/ml (p = 0.02), while LH, FSH, estradiol, and prolactin levels showed no significant changes. The anti-inflammatory properties of adalimumab, through the inhibition of TNF-α, not only reduce psoriasis severity but also appear to exert positive effects on male sexual and reproductive health. Our study demonstrated significant improvements in erectile function, sperm motility, vitality, and testosterone levels in male psoriasis patients after adalimumab therapy. These findings suggest that beyond its role in controlling psoriatic skin lesions, adalimumab may help mitigate the systemic inflammatory burden that contributes to sexual dysfunction and impaired spermatogenesis. Future long-term studies are essential to further explore the sustained impact of TNF-α inhibition on male fertility and reproductive outcomes.

Conservative therapy for lumbar disc herniation

Herniated discs are acommon cause of neurological symptoms that often lead to reduced quality of life. They affect around 20% of 45-56-year olds and, therefore, represent acorrespondingly major challenge for healthcare. Conservative therapy methods are usually used as the first treatment option; surgical interventions should only be considered in special symptom constellations. This study aims to evaluate the effectiveness of conservative therapy methods in the treatment of lumbar disc herniation and to demonstrate their influence on pain reduction and functional improvement. The current valid AWMF guideline was analyzed, and asystematic literature search was conducted to identify relevant information on the conservative treatment of herniated discs. The therapeutic approaches analyzed included physiotherapy, drug treatment, manual therapy and injection therapies. Inclusion criteria covered reviews and meta-analyses from 2019 to 2024. The analysis showed that conservative treatment methods led to asignificant reduction in pain and improvement in functional abilities in the majority of patients. Not all frequently clinical used forms of therapy have been well proven. The results of this study underline the importance of conservative treatment methods as an effective treatment option for herniated discs. In particular, the combination of different treatment approaches can improve treatment outcomes. However, further long-term studies are needed to determine the long-term effects and optimal treatment protocols.

Safety and Effectiveness of Percutaneous Ethanol Injection as a Treatment for Locally Recurrent Papillary Thyroid Carcinoma

Background: Reoperation for recurrent papillary thyroid cancer (PTC) is associated with a high risk of complications and limited success in achieving sustained remission. Percutaneous ethanol injection (PEI) presents a potential non-surgical alternative for managing locally recurrent PTC. Objectives: This study aimed to evaluate the safety and effectiveness of PEI in treating recurrent PTC. Methods: From October 2017 to September 2021, PEI was administered to 39 recurrent lesions (23 lateral and 16 central) in 17 patients with PTC. The median follow-up duration was 21.4 months (range, 4.1 - 37.9), with ethanol injections delivered every 3 months under ultrasound (US) guidance as needed. Results: Most patients tolerated the treatment well, experiencing only mild local pain, though one patient reported Horner syndrome following the procedure. In terms of treatment frequency, 31 lesions required 3 or fewer injections, while the remaining lesions required more. The mean initial volume of the lesions decreased from 0.12 mm³ (range: 0.06 - 0.34 mm³) to 0.03 mm³ (range: 0.0 - 0.14 mm³), representing an average reduction of 72.6% (range: 20.0 - 100.0%). Of the 39 lymph nodes treated in 17 patients, 21 lymph nodes (54%) were completely resolved. Seven lymph nodes remain under ongoing ethanol treatment, while 11 lymph nodes in 4 patients were addressed with alternative treatments, including surgery. Conclusions: Percutaneous ethanol injection appears to be a safe and effective treatment option for managing locally recurrent thyroid carcinomas in select patients. However, further comparative, prospective, long-term studies are needed to evaluate PEI’s impact on patient survival and recurrence rates.

The Impact of E-HRM Tools on Employee Engagement

The examination of the impact of digital innovations on employee motivation and engagement is crucial given the rapid technological advancements. This study focused on digital HRM practices, such as digital interaction platforms. The results indicated that respondents generally had positive to neutral views on these practices, with big data analytics receiving the highest rating for its potential to enhance organizational performance and employee engagement. The study revealed a moderately strong positive correlation between the use of digital platforms and big data analytics, suggesting a holistic approach to digital transformation in HRM. However, a weak correlation between digital innovations and engagement suggests that the direct impact of digital tools on employee engagement is limited by other factors. Larger companies tend to implement advanced digital HRM practices more due to their greater resources. The study’s limitations include a restricted sample from the Central and Eastern European region and reliance on self-assessed data. Future studies should include more diverse regions and long-term studies, combining quantitative data with qualitative insights. Digital innovations in HRM offer promises for process improvement and data-driven decision-making, but their impact on employee engagement is complex and requires an integrated approach of technological and managerial practices.

The Impact of COVID-19 on Fertility Rates in China: An Empirical Analysis Using ARIMA Modeling

Abstract: This paper conducts an in-depth empirical analysis of the impact of COVID-19 on fertility rates in China using ARIMA modeling and forecasting techniques. The study reveals a significant and fundamental decline in birth rates throughout the pandemic, indicating that the long-term downward trend is more pronounced than ever. This unprecedented drop underscores the severity and uniqueness of the COVID-19 crisis's influence on reproductive behavior. The findings align with prior research on the global economic and health challenges' effects, but the scale and speed of changes during the pandemic remain unparalleled. These dynamics highlight the necessity to reassess and strengthen population management strategies and healthcare systems, particularly in reproductive health and family planning services. Despite utilizing a comprehensive dataset, limitations regarding data scope and sample size persist. Future research should broaden data scope and sample size, analyze regional differences, undertake long-term longitudinal studies, and incorporate multivariable analysis to better understand the pandemic's impact on fertility decisions.

Aggregative responses of marine predators to a pulsed resource.

Pulsed resources resulting from animal migrations represent important, transient influxes of high resource availability into recipient communities. The ability of predators to respond and exploit these large increases in background resource availability, however, may be constrained when the timing and magnitude of the resource pulse vary across years. In coastal Newfoundland, Canada, we studied aggregative responses of multiple seabird predators to the annual inshore pulse of a key forage fish species, capelin (Mallotus villosus). Seabird aggregative responses to fish biomass were quantified from weekly hydroacoustic and seabird surveys during July-August within an annually persistent foraging area (10 km2) associated with a cluster of capelin spawning sites across 10 years (2009-2010, 2012, 2014-2020). Seabird predators included breeding members of the families Alcidae (Common Murres Uria aalge, Razorbills Alca torda, Atlantic Puffins Fratercula arctica) and Laridae (Great Black-backed Gulls Larus marinus, American Herring Gulls L. argentatus smithsonianus) and Northern Gannets Morus bassanus, along with non-breeding, moulting members of the Family Procellariidae (Sooty Shearwaters Ardenna griseus, Great Shearwaters A. gravis). The inshore migration of spawning capelin resulted in 5-619 times (mean ± SE, 146 ± 59 times) increase in coastal fish biomass along with a shift towards more, larger and denser fish shoals. Within years, seabird abundance did not increase with inshore fish biomass but rather peaked near the first day of spawning, suggesting that seabirds primarily respond to the seasonal resource influx rather than short-term variation in fish biomass. Across years, the magnitude of the seabird aggregative response was lower during low-magnitude resource pulse years, suggesting that predators are unable to perceive low-magnitude pulses, avoid foraging under high competitor densities, and/or shift dietary reliance away from capelin under these conditions. The seabird response magnitude, however, was higher when the resource pulse was delayed relative to the long-term average, suggesting that predators increase exploitation during years of minimal overlap between the resource pulse and energetically demanding periods (e.g. breeding, moulting). This long-term study quantifying responses of multiple predators to a pulsed resource illustrates the ability of natural systems to tolerate natural and human-induced disturbance events.

Sesame Stalk Compost in Soil Revitalization and Long-term Sustainable Crop Productivity in Organic Sesame (Sesamum indicum L.)

ABSTRACT Resource depletion is one of the primary concerns of modern agriculture farmers, which needs to be considered for long term sustainability. To assess the effect of sesame stalk compost on the growth, yield, and quality of sesame under organic cultivation, long-term (four years) field experiments were conducted for eight seasons consecutively from 2020 to 2023. The inoculated composts collected after 90 days of composting contain N (1.45–1.50%), P (0.22–25%), K (0.23–0.25%), Fe (510–514 ppm), Zn (150–154 ppm), Cu (286–288 ppm), and Mn (540–542 ppm), which was higher than the uninoculated sesame stalk. Similarly, the humic acid content (122 mg/g of compost), fulvic acid (23–24 mg/g of compost), total humic substances (145–146 mg/g of compost), and CO2–C evolution (186–188 mg/100 g of compost) were significantly higher with microbial inoculated composts than uninoculated compost. The results of the long-term field experiment indicated that application of sesame stalk compost @ 5 t/ha significantly increased the soil organic carbon (6.30 g/kg), soil organic carbon (SOC) stock (11.8 mg/ha), raised the pH to neutralize the acidic pH in red lateritic soil (6.8 to 7.2), reduced the soil bulk density (1.38 to 1.34), penetration resistance (720 kpa to 630 kpa), and available N, P, and K. As a result, the sesame grain yield obtained with application of sesame stalk compost @ 5 t/ha (778–782 kg/ha) was comparable with recommended doses of chemical fertilizers (794 kg/ha). Significant improvement in grain quality (24.2% of protein, 418–422 ppm of Ca, 12.4–12.6 ppm of Zn, 9.6 ppm of Fe and 2.6 ppm of Cu) and oil yield (364.1–367.5 kg/ha) was also observed due to the application of microbial inoculated sesame stalk compost.

Climate Change and Urban Flooding: Assessing Remote Sensing Data and Flood Modeling Techniques: A Comprehensive Review

This review critically examines the current understanding of climate change impacts on urban flooding, synthesizing recent findings to provide a comprehensive overview of how rising temperatures, sea-level rise, and increased extreme weather events influence urban floods. Additionally, it discusses various flood modeling techniques, outlining their advantages and disadvantages. Covering a broad spectrum of studies published between 2007 and 2024, selected for their relevance and methodology, this review highlights several key findings. Climate change significantly exacerbates urban flood disasters, with remote sensing emerging as an indispensable tool for climate change and flood monitoring and prediction. Despite these advancements, notable gaps remain in the literature. There is a conspicuous lack of long-term impact studies and limited discourse on the efficacy of existing mitigation strategies. Additionally, the review underscores the deficiency of real-time flood monitoring systems specifically designed for urban areas. These gaps highlight an urgent need for targeted research and the development of adaptive management practices to enhance flood prediction and management in urban settings. Future research must focus on advancing real-time monitoring systems, integrating remote sensing technologies more effectively, and developing comprehensive flood models. The review also emphasizes the importance of interdisciplinary approaches that merge hydrology, climatology, urban planning, and technology. By consolidating existing research, this review serves as a valuable resource for researchers and policymakers. It underscores the critical need for innovative flood modeling techniques and adaptive management strategies to tackle the challenges posed by climate change. This synthesis not only enriches the current body of knowledge, but also provides clear directions for future investigations, emphasizing the imperative for improved prediction, preparedness, and response mechanisms in urban flood management.

Impact of Gut Microbiome Interventions on Glucose and Lipid Metabolism in Metabolic Diseases: A Systematic Review and Meta-Analysis

Background: The gut microbiome is increasingly recognized as a key player in metabolic health, influencing glucose and lipid metabolism through various mechanisms. However, the efficacy of gut microbiota-targeted interventions, such as probiotics, prebiotics, fecal microbiota transplantation (FMT), and diet-based treatments, remains unclear for specific metabolic outcomes. In this study, the aim was to evaluate the impact of these interventions on the glucose and lipid parameters in individuals with metabolic diseases such as diabetes mellitus (DM), obesity, and metabolic syndrome. Methods: This systematic review and meta-analysis included 41 randomized controlled trials that investigated the effects of gut microbiota-targeted treatments on metabolic parameters such as fasting glucose, glycated hemoglobin (HbA1c), homeostatic model assessment for insulin resistance (HOMA-IR), total cholesterol, low-density lipoprotein cholesterol (LDL-C), high-density lipoprotein cholesterol (HDL-C), and triglycerides. A comprehensive search was conducted using databases like PubMed, Google Scholar, and Scopus, focusing on interventions targeting the gut microbiota. A meta-analysis was performed using random-effects models, with effect sizes calculated for each outcome. Risk of bias was assessed using the Cochrane Risk of Bias tool. Results: Gut microbiota-targeted interventions significantly reduced fasting glucose, HbA1c, HOMA-IR, total cholesterol, LDL-C, and triglycerides, with moderate heterogeneity observed across studies. The interventions also led to modest increases in HDL-C levels. Probiotic and synbiotic interventions showed the most consistent benefits in improving both glucose and lipid profiles, while FMT yielded mixed results. Short-term interventions showed rapid microbial shifts but less pronounced metabolic improvements, whereas longer-term interventions had more substantial metabolic benefits. Conclusions: In this study, it is demonstrated that gut microbiota-targeted interventions can improve key metabolic outcomes, offering a potential therapeutic strategy for managing metabolic diseases. However, the effectiveness of these interventions varies depending on the type, duration, and population characteristics, highlighting the need for further long-term studies to assess the sustained effects of microbiota modulation on metabolic health.

Soil test crop response nutrient prescription equations for improving soil health and yield sustainability—a long-term study under Alfisols of southern India

IntroductionEnhancing soil health and nutrient levels through fertilizers boosts agricultural productivity and global food security. However, careful fertilizer use is essential to prevent environmental damage and improve crop yields. The soil test crop response (STCR) is a scientific approach to fertilizer recommendation that ensures efficient use, supporting higher crop production while protecting the environment and preserving resources.MethodologyA long-term field experiment on the STCR approach was initiated in 2017 at the Zonal Agriculture Research Station, University of Agricultural Sciences, Bangalore, India. The experiment aimed to study the impact of STCR-based nutrient prescription along with farmyard manure (FYM) for a targeted yield of soybean (Glycine max), sunflower (Helianthus annuus), dry chili (Capsicum annuum), aerobic rice (Oryza sativa L.), foxtail millet (Setaria italica), okra (Abelmoschus esculentus), and kodo millet (Paspalum scrobiculatum) on yield and changes in soil health in comparison with other approaches of fertilizer recommendation.ResultsThe results showed a significant and positive impact of the integrated use of fertilizer with FYM based on the STCR approach on the productivity of all the crops and soil fertility. Significantly higher yields of soybean (23.91 q ha−1), sunflower (27.13 q ha−1), dry chili (16.67 q ha−1), aerobic rice (65.46 q ha−1), foxtail millet (14.07 q ha−1), okra (26.82 t ha−1), and kodo millet (17.10 q ha−1) were observed in the STCR NPK + FYM approach at yield level 1 compared to the general recommended dose and soil fertility rating approach. This approach outperformed the standard recommendations, enhancing nutrient uptake and efficiency across various crops. Utilizing the principal component analysis, the soil quality index effectively reflected the impact of nutrient management on soil properties, with the STCR NPK + FYM treatment at yield level 1 showing the highest correlation with improved soil physical and chemical parameters.DiscussionThe STCR approach led to improved yield, nutrient uptake, utilization efficiency, and soil health, thanks to a balanced fertilization strategy. This strategy was informed by soil tests and included factors like crop-induced nutrient depletion, baseline soil fertility, the efficiency of inherent and added nutrients through fertilizers and farmyard manure, and the success of yield-targeting techniques in meeting the nutritional needs of crops.