Simulation models were designed to test whether territorial animals acquire larger territories by settling next to established settlers (a neighbor settlement rule) than by using other possible settlement rules. Results were consistent across a wide variety of situations: potential settlers always acquired larger territories when settling next to neighbors than when settling at random or when settling at some distance from previous arrivals. This was true even when there was a strong prior-residence advantage, whereby newcomers never usurped space belonging to previous territory owners. There was no apparent cost to the use of a neighbor rule, in terms of either the number of moves or the distance traveled when searching for a territory. One set of models assumed that early and late arrivals at a habitat could use different settlement rules. These models showed that latecomers acquired larger territory sizes by using a neighbor rule, regardless of the type of rule used by earlier settlers. More importantly, the settlement rules used by earlier settlers affected the territory sizes of late arrivals at the same habitat: when early arrivals used a neighbor rule, latecomers achieved larger territory sizes than when early arrivals used a random rule. Hence, a neighbor settlement rule would not only benefit the individual using it but also provide larger territories for subsequent settlers in that same habitat.
Millions of citrus products are wasted every year due to postharvest fungal infections. To minimize fungal infections, packhouses utilize aqueous applications of fungicides to prevent infections that occur during harvest. The most prominent fungal pathogens of citrus fruit are commonly treated with imazalil sulfate (IMZ) due to its efficacy for controlling these pathogens at low cost and ease of handling. However, little is known on how it alters the tissues in the citrus fruit physiology. In this study, a nuclear magnetic resonance (NMR)-based metabolomics study is utilized to investigate the role of IMZ treatment in the juice, albedo, and flavedo tissues of two citrus commodities (navels and clementines). The experimental design consists of (a) fresh fruits at harvest, (b) raw fruits stored at 4 °C for 10 days, and (c) raw fruits treated with IMZ and stored at 4 °C for 10 days. Twenty-seven metabolites were identified, and several changes of metabolite composition due to either cold storage or IMZ treatment for both the spatial (albedo, flavedo, or juice) and temporal levels (days and storage) were found. The results show a notable difference between metabolomics profiles across the types and tissues, particularly significant changes on the albedo tissues of clementine. Furthermore, the pathways derived from the metabolomics profiles of the cold storage and the IMZ treatment are complementary to each other. Thus, the utility of metabolomics as a quality control tool in the citrus industry has the potential for broader applications to understand fruit growth and development.
Fights are often observed when prospective territory owners settle in patches of vacant habitat, but the function of these fights in space acquisition is obscure. This study tests two hypotheses about the effect of fights on subsequent space use patterns: first, that settlers win space by winning fights and, second, that fights encourage the establishment of mutually exclusive home ranges between opponents (i.e., "fights make neighbors"). The behavior of juvenile Anolts aeneus lizards was recorded as they established territories in patches of habitat in the field. In support of the fights‐make‐neighbors hypothesis, opponents whose last aggressive interaction was a fight were six times more likely to have mutually exclusive home ranges at the end of the settlement period than were otherwise equivalent dyads whose last encounter was a chase. Contra the hypothesis that settlers win space by winning fights, most last fights ended in a draw, and there was no discernable relationship between the outcome of last fights and the subsequent space use of the contestants. These and previous analyses of settlement behavior in this species suggest that fights during the settlement period encourage the formation of symmetrical social and spatial relationships between neighboring settlers.
This paper discuss about a bridgeless CUK converter configuration which resolves the problem of power factor for Induction motor (IM). The current path is designed with two switches only which reduce the conduction losses. The topology is designed in discontinuous current mode to improve the power factor and to reduce current stress in input side. Since, IM motor is driving from a 3Φ AC voltage supply; a DC to AC converter is necessary. But this operation practically results in reduced output voltage. To avoid this problem, a quasi Z source-inverter is implemented with sinusoidal pulse width modulation method to improve the efficiency of overall system.
Encephalopathy of prematurity (EOP) is a complex form of cerebral injury that occurs in the setting of hypoxia-ischemia (HI) in premature infants. Using a rat model of EOP, we investigated whether neonatal HI of the brain may alter the expression of cystathionine β-synthase (CBS) and the components of the mammalian target of rapamycin (mTOR) signaling. We performed unilateral carotid ligation and induced HI (UCL/HI) in Long-Evans rats at P6 and found increased CBS expression in white matter (i.e. corpus callosum, cingulum bundle and external capsule) as early as 24 h (P7) postprocedure. CBS remained elevated through P21, and, to a lesser extent, at P40. The mTOR downstream target 70 kDa ribosomal protein S6 kinase (p70S6K and phospho-p70S6K) and 40S ribosomal protein S6 (S6 and phospho-S6) were also overexpressed at the same time points in the UCL/HI rats compared to healthy controls. Overexpression of mTOR components was not observed in rats treated with the mTOR inhibitor everolimus. Behavioral assays performed on young rats (postnatal day 35-37) following UCL/HI at P6 indicated impaired preference for social novelty, a behavior relevant to autism spectrum disorder, and hyperactivity. Everolimus restored behavioral patterns to those observed in healthy controls. A gait analysis has shown that motor deficits in the hind paws of UCL/HI rats were also significantly reduced by everolimus. Our results suggest that neonatal HI brain injury may inflict long-term damage by upregulation of CBS and mTOR signaling. We propose this cascade as a possible new molecular target for EOP-a still untreatable cause of autism, hyperactivity and cerebral palsy.
Abstract Quality control plays a crucial role in maintaining the reputation of agricultural organizations by ensuring that their products meet the expected standards and preventing any loss during the packaging process. A significant responsibility of quality control is conducting periodic product assessments. However, subjective interpretation during physical inspections of fruits can lead to variability in reporting. To counter this, assessing total soluble solids (Brix) and percent acidity (Acid) can provide a more objective approach. Nevertheless, it is essential to note that many fruit metabolites can impact these parameters. Nuclear magnetic resonance (NMR) spectroscopy, particularly 1 H-NMR, has become a popular tool for quality control in recent years due to its precision, sample preservation, and high throughput analysis. This manuscript investigates if the standard Brix/Acid tests are directly related to the levels of metabolites during cold storage. Using citrus as the model system, a metabolomics analysis was conducted to identify patterns in the cold storage metabolite profiles of the juice, albedo, and flavedo tissues. The results show that Brix (or total dissolved solids) correlates well with sucrose, glucose, and fructose levels and moderately with choline levels. Acid (percent acidity) levels displayed a negative correlation with both fructose and choline levels. Interestingly, the formate levels were susceptible to storage time and directly related to Acid measurements. This study suggests metabolomics could be a complementary technique to quality control of fruits in cold storage, especially with cost-effective desktop NMR spectrometers.
