scholarly journals Genomics Associated Interventions for Heat Stress Tolerance in Cool Season Adapted Grain Legumes

2021 ◽  
Vol 23 (1) ◽  
pp. 399
Author(s):  
Jitendra Kumar ◽  
Reyazul Rouf Mir ◽  
Safoora Shafi ◽  
Debjyoti Sen Gupta ◽  
Ivica Djalovic ◽  
...  
Keyword(s):  
Heat Stress ◽  
Grain Legumes ◽  
Cool Season ◽  
Important Place ◽  
Nutrition Security ◽  
Sequencing Technologies ◽  
Faba Beans ◽  
Current Scenario ◽  
New Generation ◽  
Traditional Breeding

Cool season grain legumes occupy an important place among the agricultural crops and essentially provide multiple benefits including food supply, nutrition security, soil fertility improvement and revenue for farmers all over the world. However, owing to climate change, the average temperature is steadily rising, which negatively affects crop performance and limits their yield. Terminal heat stress that mainly occurred during grain development phases severely harms grain quality and weight in legumes adapted to the cool season, such as lentils, faba beans, chickpeas, field peas, etc. Although, traditional breeding approaches with advanced screening procedures have been employed to identify heat tolerant legume cultivars. Unfortunately, traditional breeding pipelines alone are no longer enough to meet global demands. Genomics-assisted interventions including new-generation sequencing technologies and genotyping platforms have facilitated the development of high-resolution molecular maps, QTL/gene discovery and marker-assisted introgression, thereby improving the efficiency in legumes breeding to develop stress-resilient varieties. Based on the current scenario, we attempted to review the intervention of genomics to decipher different components of tolerance to heat stress and future possibilities of using newly developed genomics-based interventions in cool season adapted grain legumes.

Pea and soybean performance in Newfoundland

2001 ◽  
Vol 81 (4) ◽  
pp. 723-726 ◽  
Author(s):  
D. Spaner ◽  
A. G. Todd ◽  
D. B. McKenzie
Keyword(s):  
Glycine Max ◽  
Pisum Sativum ◽  
Grain Legumes ◽  
Yield Potential ◽  
Nodule Formation ◽  
Soil Temperatures ◽  
Faba Beans ◽  
Glycine Max L ◽  
Livestock Farmers ◽  
Near Future

Newfoundland livestock farmers import all feed grain legumes. Our objective was to compare field pea (Pisum sativum L.) and soybean [Glycine max (L.) Merr.] nodule formation, plant growth, grain and protein yield potential in Newfoundland. Two-year experimental mean pea yield was high (≈0.3 t grain ha–1), although lodging was severe. Vision soybean yielded around 400 kg grain protein ha–1 when seeds were inoculated, even with soil temperatures below 20°C. Despite reasonable yield potentials, agronomic adaptation problems mitigate against the local production of all common feed grain legumes in the near future. Key words: Pisum sativum; Glycine max; lupins; faba beans; inoculant

scholarly journals Stricture recanalisation of the distal urether with various endoprothesis

2010 ◽  
Vol 57 (2) ◽  
pp. 61-64 ◽  
Author(s):  
A. Mladenovic ◽  
K. Davidovic ◽  
B. Markovic ◽  
P. Anojcic ◽  
M. Stojadinovic ◽  
...  
Keyword(s):  
Percutaneous Nephrostomy ◽  
Covered Stent ◽  
Metallic Stents ◽  
Metal Stents ◽  
Covered Stents ◽  
Important Place ◽  
Distal Ureter ◽  
Number Of Patients ◽  
Study Results ◽  
New Generation

Introduction: Application of the metallic stents in the interventional uroradioligy is the result of continuous development of the new generation methods percutaneous nephrostomy (PCN), ballon catheter dilatation (BCD), methal and covered stent application. Application of metal stents in the renal canal system was attempted in order to eliminate BCD and PCN - related limitations as well as poor therapeutic results of these methods in a number of etiopathogenic groups of urinary stasis. Years - long application of interventional uroradiology methods, until the development of metallic stengts had shown the following therapeutics facts: PCN is incapable to resolve the cause of urinary obstruction. Permanent good therapeutic BCD results mostly depend on pathohistological aspect of the stricture, metallic stents are most frequently the last choice in therapeutics approch to urinary tract obstructions and their application is directly dependent on previous therapeutics results accomplished by PCN and BCD. In therapeutical sequences new generation of covered stents have important place as method of selection in patients of irreversible uroopstruction of distal ureter. Objective: The main goal of this study was to analyze therapeutics results, advanteges and shortages of insercion plastics and opened metallic endoprothesis, and to analyze results of covered methal applications on the contrary of using older interventional uroradiology methods. Method: Sixthytwo patients with distal urether strictures threated in the Deparment of interventional uroradiology Institute of Radiology Clinical centre of Serbia in Belgrade, participated in the study. Results were analyzed with Person's 2- test, Fisher test and Student T-test. Results: In our study we had highly significant differences in comparison with number of patients and type of stents during the time after recanalization was reached. Also it was highly significant differences according the type of used interventional uroradiology method that treated proliferation and the success of recanalization. Conclusion: Application of covered temporary uretheral stents have number advantages against using generation older permanent methal endoprothesis.

scholarly journals LeafGo: Leaf to Genome, a quick workflow to produce high-quality De novo genomes with Third Generation Sequencing technology

2021 ◽  
Author(s):  
Patrick Driguez ◽  
Salim Bougouffa ◽  
Karen Carty ◽  
Alexander Putra ◽  
Kamel Jabbari ◽  
...  
Keyword(s):  
De Novo ◽  
Rapid Development ◽  
Plant Genome ◽  
Plant Genomics ◽  
High Quality ◽  
High Molecular Weight Dna ◽  
Tissue Samples ◽  
Sequencing Technologies ◽  
The Cost ◽  
New Generation

AbstractRecent years have witnessed a rapid development of sequencing technologies. Fundamental differences and limitations among various platforms impact the time, the cost and the accuracy for sequencing whole genomes. Here we designed a complete de novo plant genome generation workflow that starts from plant tissue samples and produces high-quality draft genomes with relatively modest laboratory and bioinformatic resources within seven days. To optimize our workflow we selected different species of plants which were used to extract high molecular weight DNA, to make PacBio and ONT libraries for sequencing with the Sequel I, Sequel II and GridION platforms. We assembled high-quality draft genomes of two different Eucalyptus species E. rudis, and E. camaldulensis to chromosome level without using additional scaffolding technologies. For the rapid production of de novo genome assembly of plant species we showed that our DNA extraction protocol followed by PacBio high fidelity sequencing, and assembly with new generation assemblers such as hifiasm produce excellent results. Our findings will be a valuable benchmark for groups planning wet- and dry-lab plant genomics research and for high throughput plant genomics initiatives.

Response of cool-season grain legumes to waterlogging at flowering

2016 ◽  
Author(s):  
Silvia Pampana ◽  
Alessandro Masoni ◽  
Iduna Arduini
Keyword(s):  
Grain Legumes ◽  
Cool Season

scholarly journals Emotions and 21st Century Communication

2018 ◽  
Vol 7 (4.5) ◽  
pp. 5
Author(s):  
Mehta Niket ◽  
Dutta Suparna
Keyword(s):  
Digital Media ◽  
21St Century ◽  
Smart Phones ◽  
Telecommunication Services ◽  
Current Scenario ◽  
Access Information ◽  
Educated Person ◽  
Audio Video ◽  
New Generation ◽  
Text Images

Electronic Media is no more a buzz word now. Almost every educated and semi-educated person all over the world is a part of digital media and access information electronically. Affordable smart phones, electronic gadgets and telecommunication services have made communication fast and multimedia-rich containing text, images, audio-video and animation messages. In this 21st century, digital media has given a democratic opportunity to all of us to become a broadcaster. People discuss online about issues of considerable importance and as well as trivial matters. This online platform has brought out many changes in personality and thoughts of its users and especially of the coming generation. Sharing confidential information and being accessible 24X7 has brought out changes in behavior and manner- ism of new generation. New generation has become more expressive and communicate more than earlier generation. They are connected to more and diverse set of people all at once and every time. Communication which is always based on emotions has changed in current scenario which is the theme of this paper.  

Heat stress in grain legumes during reproductive and grain-filling phases

2017 ◽  
Vol 68 (11) ◽  
pp. 985 ◽  
Author(s):  
Muhammad Farooq ◽  
Faisal Nadeem ◽  
Nirmali Gogoi ◽  
Aman Ullah ◽  
Salem S. Alghamdi ◽  
...  
Keyword(s):  
Heat Stress ◽  
High Temperature ◽  
Grain Yield ◽  
Leaf Senescence ◽  
Management Strategies ◽  
Substantial Reduction ◽  
Grain Filling ◽  
Grain Legumes ◽  
Grain Legume ◽  
The Impact

Thermal stress during reproductive development and grain-filling phases is a serious threat to the quality and productivity of grain legumes. The optimum temperature range for grain legume crops is 10−36°C, above which severe losses in grain yield can occur. Various climatic models have simulated that the temperature near the earth’s surface will increase (by up to 4°C) by the end of this century, which will intensify the chances of heat stress in crop plants. The magnitude of damage or injury posed by a high-temperature stress mainly depends on the defence response of the crop and the specific growth stage of the crop at the time of exposure to the high temperature. Heat stress affects grain development in grain legumes because it disintegrates the tapetum layer, which reduces nutrient supply to microspores leading to premature anther dehiscence; hampers the synthesis and distribution of carbohydrates to grain, curtailing the grain-filling duration leading to low grain weight; induces poor pod development and fractured embryos; all of which ultimately reduce grain yield. The most prominent effects of heat stress include a substantial reduction in net photosynthetic rate, disintegration of photosynthetic apparatus and increased leaf senescence. To curb the catastrophic effect of heat stress, it is important to improve heat tolerance in grain legumes through improved breeding and genetic engineering tools and crop management strategies. In this review, we discuss the impact of heat stress on leaf senescence, photosynthetic machinery, assimilate translocation, water relations, grain quality and development processes. Furthermore, innovative breeding, genetic, molecular and management strategies are discussed to improve the tolerance against heat stress in grain legumes.

Differential growth and physiological responses to heat stress between two annual and two perennial cool-season turfgrasses

2014 ◽  
Vol 170 ◽  
pp. 75-81 ◽  
Author(s):  
Zhimin Yang ◽  
Yuchun Miao ◽  
Jingjin Yu ◽  
Jun Liu ◽  
Bingru Huang
Keyword(s):  
Heat Stress ◽  
Physiological Responses ◽  
Cool Season ◽  
Differential Growth

Pulse production in Australia past, present and future

1997 ◽  
Vol 37 (1) ◽  
pp. 103 ◽  
Author(s):  
K. H. M. Siddique ◽  
J. Sykes
Keyword(s):  
Stock Prices ◽  
Warm Season ◽  
Farming Systems ◽  
Grain Legumes ◽  
Export Demand ◽  
Cool Season ◽  
Management Options ◽  
Pulse Crops ◽  
The Past ◽  
Pulse Production

Summary. Several cool- and warm-season pulse crops (grain legumes) are grown in rotation with cereals and pasture forming sustainable farming systems in Australia. Australian pulse production has increased rapidly over the past 25 years to about 2 x 106 t/year, mainly because of the increase in the area and yield of lupin production for stockfeed purposes. Pulses currently comprise only 10% of the cropping areas of Australia and this could be expanded to 16% as there are large areas of soil types suitable for a range of pulse crops and new better-adapted pulse varieties are becoming available. Cool-season pulses will continue to dominate pulse production in Australia and the majority of the expansion will probably come from chickpea and faba bean industries. There appears to be no major constraint to pulse production in Australia that cannot be addressed by breeders, agronomists and farmers. Of the current major pulse crops, field pea faces the most number of difficulties, in particular the lack of disease management options. A recent strategic plan of the Australian pulse industry predicts the production of 4 x 106 t/year by 2005 but this will largely depend upon export demand and pulse prices. It is predicted that the growth in pulse production will come from increased productivity in the existing areas, from 1.0 to 1.4 t/ha, through improvements in crop management and the development of superior varieties. The area of pulse production will also expand by an additional 1.2 x 106 ha probably yielding 1.0 t/ha. If trends in grazing stock prices continue, the increased area under pulse production will mostly come at the expense of those areas under unimproved pasture and continuous cereal cropping.

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