Populations of oriental white-backed vulture (Gyps bengalensis), long-billed vulture (Gyps indicus) and slender-billed vulture (Gyps tenuirostris) crashed during the mid-1990s throughout the Indian subcontinent. Surveys in India, initially conducted in 1991–1993 and repeated in 2000, 2002, 2003 and 2007, revealed that the population of Gyps bengalensis had fallen by 2007 to 0.1% of its numbers in the early 1990s, with the population of Gyps indicus and G. tenuirostris combined having fallen to 3.2% of its earlier level. A survey of G. bengalensis in western Nepal indicated that the size of the population in 2009 was 25% of that in 2002. In this paper, repeat surveys conducted in 2011 were analysed to estimate recent population trends. Populations of all three species of vulture remained at a low level, but the decline had slowed and may even have reversed for G. bengalensis, both in India and Nepal. However, estimates of the most recent population trends are imprecise, so it is possible that declines may be continuing, though at a significantly slower rate. The degree to which the decline of G. bengalensis in India has slowed is consistent with the expected effects on population trend of a measured change in the level of contamination of ungulate carcasses with the drug diclofenac, which is toxic to vultures, following a ban on its veterinary use in 2006. The most recent available information indicates that the elimination of diclofenac from the vultures’ food supply is incomplete, so further efforts are required to fully implement the ban.
Cisplatin is the most effective cytotoxic agent against many cancers. Its usage, however, is limited due to inefficient uptake by the target cells. A liposomal formulation of cisplatin is reported to partly overcome this limitation. Physicochemical characteristics of the liposome-cisplatin preparation, including its size, stability, encapsulation efficiency, and cytoplasmic internalization efficiency, play a significant role in an effective usage of liposomal formulations. We have used atomic force microscopy (AFM) to determine physicochemical characteristics of cisplatin-encapsulated liposomes, AFM and fluorescence microscopy to examine their cytoplasmic internalization, and Live/Dead assay to examine their cell toxicity. Nonencapsulated cisplatin is globular and 10-50 nm in size. AFM force-dissection and stiffness measurements show that cisplatin-encapsulated liposomes are significantly stiffer ( approximately 100%) and more stable than liposomes without encapsulated cisplatin. Cisplatin-encapsulated liposomes of approximately 250 nm diameter (nanoliposomes) are most efficiently internalized and induce cell toxicity in a time-dependent manner. Liposomes without cisplatin of similar dimensions, although internalized in the cell cytoplasm, do not induce cell toxicity.
Use of the veterinary drug diclofenac is responsible for bringing three species of Gyps vultures endemic to South Asia to the brink of extinction, and the Government of India banned veterinary use of the drug in May 2006. To evaluate the effectiveness of the ban we undertook surveys of > 250 veterinary and general pharmacies in 11 Indian states from November 2007 to June 2010. Twelve different classes of non-steroidal anti-inflammatory drugs (NSAIDs) were purchased from 176 pharmacies. Other than meloxicam (of negligible toxicity to vultures at likely concentrations in their food), diclofenac and ketoprofen (both toxic to vultures), little is known of the safety or toxicity of the remaining nine NSAIDs on sale. Meloxicam was the most commonly encountered drug, sold in 70% of pharmacies, but 50% of the meloxicam brands sold had paracetamol (acetaminophen) as a second ingredient. Diclofenac and ketoprofen were recorded in 36 and 29% of pharmacies, respectively, with states in western and central India having the highest prevalence of diclofenac (44–45%). Although the large number of manufacturers and availability of meloxicam is encouraging, the wide range of untested NSAIDs and continued availability of diclofenac is a major source of concern. Circumvention of the 2006 diclofenac ban is being achieved by illegally selling forms of diclofenac manufactured for human use for veterinary purposes. To provide a safer environment for vultures in South Asia we recommend reducing the size of vials of diclofenac meant for human use, to increase the costs of illegal veterinary use, and taking action against pharmaceutical manufacturers and pharmacies flouting the diclofenac ban.
According to Food and Agriculture Organization 2015 report, post-harvest agricultural loss accounts for 20-50% annually; on the other hand, reports about preservatives toxicity are also increasing. Hence, preservative release with response to fruit requirement is desired. In this study, acid synthesized in the overripe fruits was envisaged to cleave acid labile hydrazone to release preservative salicylaldehyde from graphene oxide (GO). To maximize loading and to overcome the challenge of GO reduction by hydrazine, two-step activation with ethylenediamine and 4-nitrophenyl chloroformate respectively, are followed. The final composite shows efficient preservative release with the stimuli of the overripe fruit juice and improves the fruit shelf life. The composite shows less toxicity as compared to the free preservative along with the additional scope to reuse. The composite was vacuum-filtered through a 0.4 μm filter paper, to prepare a robust wrapper for the fruit storage.
Astaxanthin is a ketocarotenoid, super antioxidant molecule. It has higher antioxidant activity than a range of carotenoids, thus has applications in cosmetics, aquaculture, nutraceuticals, therapeutics, and pharmaceuticals.Naturally, it is derived from Haematococcus pluvialis via a one-stage process or two-stage process. Natural astaxanthin significantly reduces oxidative and free-radical stress as compared to synthetic astaxanthin. The present review summarizes all the aspects of astaxanthin, including its structure, chemistry, bioavailability, and current production technology. Also, this paper gives a detailed mechanism for the potential role of astaxanthin as nutraceuticals for cardiovascular disease prevention, skin protection, antidiabetic and anticancer, cosmetic ingredient, natural food colorant, and feed supplement in poultry and aquaculture. Astaxanthin is one of the high-valued microalgae products of the future. However, due to some risks involved or not having adequate research in terms of long-term consumption, it is still yet to be explored by food industries. Although the cost of naturally derived astaxanthin is high, it accounts for only a 1% share in total astaxanthin available in the global market. Therefore, scientists are looking for ways to cut down the cost of natural astaxanthin to be made available to consumers.
This work is the first report of the cryopreservation of conifer cotyledons without cryoprotectants and their subsequent shoot regeneration and successful establishment of a field trial. Multiple genotypes of radiata pine (Pinus radiata D. Don) embryo cotyledons were stored in liquid nitrogen following a desiccation treatment. Cotyledons that had been stored in liquid nitrogen for 7, 14, and 28 days were compared with noncryopreserved cotyledons for adventitious shoot production, root formation on the shoots, and plant growth after 2 years in the field. Of the 72 genotypes tested, 79%-87% of them produced shoots on at least one treatment and 59% of them produced shoots on all treatments. Rooting rates of shoots were not affected by treatment, with the cryopreserved treatments rooting as well as the noncryopreserved controls. Height growth of plants in the nursery was similar across all treatments after 2 years but was influenced by setting date. The higher genotype capture possible with adventitious methodologies, compared with that of somatic embryogenesis, and the preservation of juvenile characteristics while material is stored in liquid nitrogen make adventitious methods worthy of intensive study for possible commercial application.Résumé : Cet article est le premier à rapporter la cryoconservation de cotylédons de conifères sans l'utilisation de cryoprotecteurs, la régénération subséquente de pousses et la réussite de leur établissement dans un test au champ. Plusieurs génotypes d'embryons de cotylédons de Pinus radiata D. Don ont été entreposés dans l'azote liquide après un traitement de dessiccation. Les cotylédons qui avaient été entreposés dans l'azote liquide pendant 7, 14 et 28 jours ont été comparés à des cotylédons non cryoconservés pour la production de pousses adventives, la formation de racines sur les pousses et la croissance des plants après deux ans au champ. Des 72 génotypes testés, 79-87 % de ceux-ci ont produit des pousses dans au moins un traitement et 59 % dans tous les traitements. Le taux d'enracinement des pousses n'était pas affecté par les traitements; l'enracinement était le même que les tissus aient été cryoconservés ou non. La croissance en hauteur des plants en pépinière était similaire dans tous les traitements après deux ans mais était influencée par la date de mise en terre. La conservation de plus de génotypes qui est rendue possible grâce aux métho-des utilisant des tissus adventifs, comparativement à l'embryogenèse somatique, et la préservation des caractères juvéniles pendant que le matériel est conservé dans l'azote liquide justifient l'étude plus poussée de ces méthodes qui pourraient avoir une application commerciale.[Traduit par la Rédaction] Hargreaves et al. 608
Indian spinach (Basella spp. L.) is an underutilized and underexploited indigenous leafy vegetable which has high nutritional and medicinal value and extensively used in the sub-continent. Landrace germplasm is endowed with rich genetic variability for various yield and quality traits. A total of six accessions collected through an exploration during 2010 were pre-bred by selfing during the October-January cropping season in 2011. These landraces were evaluated in a randomized block design with four replications in June-September, 2012 at Vegetable Research Station, Dr. Y. S. R. Horticultural University, Rajendranagar to assess the genetic diversity, variability, heritability and genetic advance for yield and its components in the material. Multivariate analysis following Ward's minimum variance-method revealed distinct clustering pattern. Analysis of variance revealed highly significant differences among all genotypes for all the studied traits indicating considerable variability among ecotypes for most of the measured parameters. There was significant variability for genetic potential of all genotypes for different traits under study. The highest variability at genotypic level was observed for stalk yield (73.95%) followed by leaf-stalk ratio (46.70%) and weight of tender shoot (41.25%). Low to high estimates of broad sense heritability were found in different traits. High estimates of heritability (>60%) coupled with high genetic advance as percent of mean (>20%) for petiole length, internodal length, weight of tender shoot, stalk yield, leaf-stalk ratio and harvest index revealed that most likely the heritability is due to additive gene effects and selection may be effective.
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