Vulnerability of European wheat to extreme heat and drought around flowering under future climate

Identifying the future threats to crop yields from climate change is vital to underpin the continuous production increases needed for global food security. In the present study, the vulnerability of European wheat yield to heat and drought stresses around flowering under climate change was assessed by estimating the 95-percentiles of two indices at flowering under rain-fed conditions: the heat stress index (HSI95) and the drought stress index (DSI95). These two indices represent the relative yield losses due heat stress or drought stress around flowering that could be expected to occur once every 20 years on average. The Sirius wheat model was run under the predicted 2050-climate at 13 selected sites, representing the major wheat-growing regions in Europe. A total of 19 global climate models (GCMs) from the CMIP5 ensemble were used to construct local-scale climate scenarios for 2050 (RCP8.5) by downscaling GCMs climate projections with the LARS-WG weather generator. The mean DSI95 due to extreme drought around flowering under the baseline climate (1981–2010) was large over Europe (DSI95 ∼ 0.28), with wide site variation (DSI95 ∼ 0.0–0.51). A reduction of 12% in the DSI95 was predicted under the 2050-climate; however, vulnerability due to extreme drought around flowering would remain a major constraint to wheat yield (DSI95 ∼ 0–0.57). In contrast, HSI95 under the baseline climate was very small over Europe (HSI95 ∼ 0.0–0.11), but was predicted to increase by 79% (HSI95 ∼ 0.0–0.23) under the 2050-climate, categorising extreme heat stress around flowering as an emergent threat to European wheat production. The development of wheat varieties that are tolerant to drought and heat stresses around flowering, is required, if climate change is not to result in a reduction of wheat yield potential under the future climate in Europe

Socio-demographic profile of copper-T beneficiaries in the family planning out-patient department of a teaching hospital: a record-based descriptive study

Background: Intra uterine contraceptive devices (IUCD) used as a spacing method is one of the main strategies of the family welfare programme, as they are among the safest and most effective, affordable and convenient reversible contraceptives available. The objectives of the study were to study the socio-demographic details of beneficiaries accepting Cu-T in the family planning OPD of the medical college, relation of IUCD insertion time with respect to menses or delivery and its outcome.Methods: After IEC approval, a descriptive, complete enumeration study of recorded data from IUD register from 2006 to 2015 (n=1141) was carried out from the IUCD registers of the family planning out-patient department (OPD) of a medical college.Results: Beneficiaries had a significantly lower literacy rate (p<0.05) and a lower employment rate (p<0.01) than their husbands. 447 (39.4%) women accepted IUCD before 1 year from their last delivery. In 20 women, IUCDs were expelled, while in 32 (2.8%), they were wasted. The difference between the couples having no male children and those having at least 1 male child opting for IUCD was statistically highly significant (p<0.01).Conclusions: Cu-T is being well utilised as a spacing method in the Family Welfare Component of the Reproductive and Child Health Programme. Evidence of Preference for a male child can be seen in this study

Study of perinatal outcome of labour complicated with meconium stained liquor

Background: Meconium stained amniotic fluid occurs in 9 to 20% of deliveries. It has long been implicated as a factor influencing foetal wellbeing during the intrapartum and postpartum period. Many authors have suggested that the type and the time of passage of meconium are most significant factors affecting foetal outcome. This study was carried out to find out the effect of meconium stained liquor during labour and its perinatal outcome.Methods: This prospective cross sectional and comparative study was carried out in a tertiary care hospital over a period of 1 year. The study group comprised of 118 women having MSAF during labour and the comparative group of 118 women with clear amniotic fluid which were randomly selected. The demographic data, obstetrical history, intrapartum findings and Apgar score were documented on predesigned proforma. Data collected was analysed using student t-test, chi square test, Z test for comparison of proportions and coefficient of variation for comparison of consistency of distributions.Results: Out of 1192 cases studied 118 cases showed presence of meconium stained liquor (9.89%). Caesarean section was performed in 41.52% cases with meconium stained liquor versus 31.35% in clear liquor group. Apgar score at 1 minute was significantly lower in meconium stained liquor (p0.05).Conclusions: Meconium staining is a commonly observed phenomenon. labour complicated with thick meconium stained liquor should ideally be categorised in to high risk obstetrics and managed in tertiary care with consultant obstetrician, consultant neonatologist and NICU in order to improve the perinatal outcome

Ultrasonic techniques for repair of aircraft structures with bonded composite patches

This is a paper on a research and development project to demonstrate a novel ultrasonic process for the field application of boron/epoxy (B/Ep) patches for repair of aircraft structures. The first phase of the project was on process optimization and testing to develop the most practical ultrasonic processing techniques. Accelerated testing and aging behavior of precured B/Ep patches, which were ultrasonically bonded to simulated B-52 wing panel assemblies, were performed by conducting flight-by-flight spectrum loading fatigue tests. The spectrum represented 2340 missions/flights or 30 years of service. The effects of steady-state applied temperature and prior exposure of the B/Ep composite patches were evaluated. Representative experimental results of this phase of the project are presented

Large genetic yield potential and genetic yield gap estimated for wheat in Europe

Improving yield potential and closing the yield gap are important to achieve global food security. Europe is the largest wheat producer, delivering about 35% of wheat globally, but European wheat’s yield potential from genetic improvements is as yet unknown. We estimated wheat ‘genetic yield potential’, i.e. the yield of optimal or ideal genotypes in a target environment, across major wheat growing regions in Europe by designing in silico ideotypes. These ideotypes were optimised for current climatic conditions and based on optimal physiology, constrained by available genetic variation in target traits. A ‘genetic yield gap’ in a location was estimated as the difference between the yield potential of the optimal ideotype compared with a current, well-adapted cultivar. A large mean genetic yield potential (11-13 t ha-1) and genetic yield gap (3.5-5.2 t ha-1) were estimated under rainfed conditions in Europe. In other words, despite intensive wheat breeding efforts, current local cultivars were found to be far from their optimum, meaning that a large genetic yield gap still exists in European wheat. Heat and drought tolerance around flowering, optimal canopy structure and phenology, improved root water uptake and reduced leaf senescence under drought were identified as key traits for improvement. Closing this unexploited genetic yield gap in Europe through crop improvements and genetic adaptations could contribute towards global food security

Assessing yield gap in high productive countries by designing wheat ideotypes

Designing crop ideotypes in silico is a powerful tool to explore the crop yield potential and yield gap.We defined yield gap as the difference between yield potential of a crop ideotype optimized under local environment and yield of an existing cultivar under optimal management. Wheat ideotypes were designed for the current climate using the Sirius model for both water-limited and irrigated conditions in two high wheat-productive countries viz. the United Kingdom (UK) and New Zealand (NZ) with the objective of estimating yield gap. The mean ideotype yields of 15.0–19.0 t ha−1 were achieved in water limited conditions in the UK and NZ, whereas 15.6–19.5 t ha−1 under irrigated conditions. Substantial yield gaps were found in both water-limited, 28–31% (4–6 t ha−1), and irrigated conditions, 30–32% (5–6 t ha−1) in the UK and NZ. Both yield potential (25–27%) and yield gap (32–38%) were greater in NZ than the UK. Ideotype design is generic and could apply globally for estimating yield gap. Despite wheat breeding efforts, the considerable yield gap still potentially exists in high productive countries such as the UK and NZ. To accelerate breeding, wheat ideotypes can provide the key traits for wheat improvement and closing the yield gap

Arabidopsis CAM7 and HY5 physically interact and directly bind to the HY5 promoter to regulate its expression and thereby promote photomorphogenesis

Arabidopsis thaliana CALMODULIN7 (CAM7), a unique member of the calmodulin gene family, plays a crucial role as a transcriptional regulator in seedling development. The elongated HYPOCOTYL5 (HY5) bZIP protein, an integrator of multiple signaling pathways, also plays an important role in photomorphogenic growth and light-regulated gene expression. CAM7 acts synergistically with HY5 to promote photomorphogenesis at various wavelengths of light. Although the genetic relationships between CAM7 and HY5 in light-mediated seedling development have been demonstrated, the molecular connectivity between CAM7 and HY5 is unknown. Furthermore, whereas HY5-mediated gene regulation has been fairly well investigated, the transcriptional regulation of HY5 is largely unknown. Here, we report that HY5 expression is regulated by HY5 and CAM7 at various wavelengths of light and also at various stages of development. In vitro and in vivo DNA–protein interaction studies suggest that HY5 and CAM7 bind to closely located T/G- and E-box cis-acting elements present in the HY5 promoter, respectively. Furthermore, CAM7 and HY5 physically interact and regulate the expression of HY5 in a concerted manner. Taken together, these results demonstrate that CAM7 and HY5 directly interact with the HY5 promoter to mediate the transcriptional activity of HY5 during Arabidopsis seedling development

Clear cell adenocarcinoma of the uterine cervix with malignant pleural effusion in a 29-year old female- A case report

Primary adenocarcinoma of cervix constitute about 7-15% of all cervical cancer. Clear cell carcinoma, a form of cervical adenocarcinoma is a very rare tumor constituting only 4% of cervical carcinoma. Risk factor and pathogenesis of this disease are not exactly revealed. Intrauterine exposure to diethylstilbestrol and associated non-steroidal estrogen during pregnancy before 18 weeks is the only risk factor. Here we report an unusual case of clear cell carcinoma of cervix presented with bilateral pleural effusion, cytology of which shows adenocarcinoma. This is a rare case since patient had no history of diethylstilbestrol exposure and presented with bilateral pleural effusion. This is the first described case report of clear cell carcinoma of cervix with upfront malignant pleural effusion

Substantial increase in yield predicted by wheat ideotypes for Europe under future climate

A substantial increase in food production is needed for global food security. Europe is the largest wheat producer, delivering 35% of wheat globally, but its future genetic yield potential is yet unknown. We estimated the genetic yield potential of wheat in Europe under 2050 climate by designing in silico wheat ideotypes based on genetic variation in wheat germplasm. To evaluate the importance of heat and drought stresses around flowering, a critical stage in wheat development, sensitive and tolerant ideotypes were designed. Ideotype yields ranged from 9 to 17 t ha−1 across major wheat growing regions in Europe under 2050 climate. Both ideotypes showed a substantial increase in yield of 66−89% compared to current local cultivars under future climate. Key traits for wheat improvements under future climate were identified. Ideotype design is a powerful tool for estimating crop genetic yield potential in a target environment, along with the potential to accelerate breeding by providing target traits for improvements

Metal-assisted red light-induced efficient DNA cleavage by dipyridoquinoxaline-copper(II) complex

Complete cleavage of double stranded pUC19 DNA by the complex [Cu(dpq)2(H2O)](ClO4)2 (dpq, dipyridoquinoxaline) has been observed on irradiation at 694 nm from a pulsed ruby laser, assisted by the metal d-band transition as well as the quinoxaline triplet states in the absence of any external additives