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Breeding for Enhanced Nutrition and Bio-Active Compounds in Food Legumes (2021)

Gupta, Debjyoti Sen. [editor.] ; Gupta, Sanjeev. [editor.] ; Kumar, Jitendra. [editor.]

Cham :Springer International Publishing :

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Keywords: Agriculture. ; Plant biotechnology. ; Nutrition . ; Agriculture. ; Plant Biotechnology. ; Nutrition.

Description / Table of Contents: Breeding for enhanced nutritional status: Retrospect and Prospect -- Quality improvement in chickpea -- Breeding for quality improvement in pigeon pea -- Bio-fortification in lentil -- Breeding for low phytates and oligosaccharides in mung bean and black gram -- Common bean quality improvement -- Breeding for reduced trypsin inhibitor in peas -- Breeding for low ODAP content in Lathyrus -- Breeding for high protein content in cowpea -- Role of animal models in nutrition resource in food legumes -- Pulses for improved milling and baking -- Bio-actives and nutraceuticals in lentil.

Abstract: More than 20 million childhood deaths occur every year due to the micronutrient deficiency and diet-related non-communicable diseases (cardiovascular diseases, cancers, chronic respiratory diseases and diabetes). The United Nations (UN) recently announced that the increase in chronic, non-communicable diseases has resulted in 36 million deaths around the world annually, claiming more lives than all other causes combined. These chronic diseases are not isolated to developed countries and are even more pronounced in the developing world. Such chronic illnesses have caused far more deaths than infectious diseases throughout the world (except Africa) in recent years. Therefore, enrichment of micronutrients in staple food crops is of paramount importance for the nutritional security in our world. Biofortiﬁcation is the development of micronutrient- and/or vitamin-rich crops using traditional crop improvement practices as well as modern biotechnology tools. It is a more sustainable and cost effective method than food supplementation, fortification and diet diversification. This work consolidates available information on the different aspects of breeding for improved nutrition of pulses. An overview of entire pulses based on their nutritional profile is given so that audience can find the desired information easily. Food legumes are the active ingredients in many gluten-free food products and there is a continuous rise of the use of pulses flour in milling and baking processes. Our book sheds light on recent efforts and the underlying constraints of meeting the public demand. We believe this work provides the basic information for anyone interested in biofortification and stimulate further research to meet this unique challenge.

Type of Medium: Online Resource

Pages: VIII, 267 p. 10 illus., 6 illus. in color. , online resource.

Edition: 1st ed. 2021.

ISBN: 9783030592158

URL: https://doi.org/10.1007/978-3-030-59215-8

DOI: 10.1007/978-3-030-59215-8

DDC: 630

Language: English

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Fluvial to Lacustrine Facies Transitions in Gale Crater, Mars (2015)

Sumner, Dawn Y. ; Kah, Linda C. ; Oehler, Dorothy Z. ; [et al.]

In: CASI

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Publication Date: 2019-07-19

Description: NASA's Curiosity rover has documented predominantly fluvial sedimentary rocks along its path from the landing site to the toe of the Peace Vallis alluvial fan (0.5 km to the east) and then along its 8 km traverse across Aeolis Palus to the base of Aeolis Mons (Mount Sharp). Lacustrine facies have been identified at the toe of the Peace Vallis fan and in the lowermost geological unit exposed on Aeolis Mons. These two depositional systems provide end members for martian fluvial/alluvial-lacustrine facies models. The Peace Vallis system consisted of an 80 square kilometers alluvial fan with decimeter-thick, laterally continuous fluvial sandstones with few sedimentary structures. The thin lacustrine unit associated with the fan is interpreted as deposited in a small lake associated with fan runoff. In contrast, fluvial facies exposed over most of Curiosity's traverse to Aeolis Mons consist of sandstones with common dune-scale cross stratification (including trough cross stratification), interbedded conglomerates, and rare paleochannels. Along the southwest portion of the traverse, sandstone facies include south-dipping meter-scale clinoforms that are interbedded with finer-grained mudstone facies, interpreted as lacustrine. Sedimentary structures in these deposits are consistent with deltaic deposits. Deltaic deposition is also suggested by the scale of fluvial to lacustrine facies transitions, which occur over greater than 100 m laterally and greater than 10 m vertically. The large scale of the transitions and the predicted thickness of lacustrine deposits based on orbital mapping require deposition in a substantial river-lake system over an extended interval of time. Thus, the lowermost, and oldest, sedimentary rocks in Gale Crater suggest the presence of substantial fluvial flow into a long-lived lake. In contrast, the Peace Vallis alluvial fan onlaps these older deposits and overlies a major unconformity. It is one of the youngest deposits in the crater, and requires only short-lived, transient flows.

Keywords: Lunar and Planetary Science and Exploration

Type: JSC-CN-33088 , 2015 Joint Assembly; May 03, 2015 - May 07, 2015; Montreal, Canada; Canada

Format: application/pdf

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Influence of Fault-Controlled Topography on Fluvio-Deltaic Sedimentary Systems in Eberswalde Crater, Mars (2011)

Warner, Nicholas H. ; Rice, Melissa S. ; Bell, James F., III ; [et al.]

In: Other Sources

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Publication Date: 2019-08-26

Description: Eberswalde crater was selected as a candidate landing site for the Mars Science Laboratory (MSL) mission based on the presence of a fan-shaped sedimentary deposit interpreted as a delta. We have identified and mapped five other candidate fluvio -deltaic systems in the crater, using images and digital terrain models (DTMs) derived from the Mars Reconnaissance Orbiter (MRO) High Resolution Imaging Science Experiment (HiRISE) and Context Camera (CTX). All of these systems consist of the same three stratigraphic units: (1) an upper layered unit, conformable with (2) a subpolygonally fractured unit, unconformably overlying (3) a pitted unit. We have also mapped a system of NNE-trending scarps interpreted as dip-slip faults that pre-date the fluvial -lacustrine deposits. The post-impact regional faulting may have generated the large-scale topography within the crater, which consists of a Western Basin, an Eastern Basin, and a central high. This topography subsequently provided depositional sinks for sediment entering the crater and controlled the geomorphic pattern of delta development.

Keywords: Lunar and Planetary Science and Exploration

Type: Geophysical Research Letters; 38; L16203

Format: text

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Origin of the Two Scales of Wind Ripples on Mars (2016)

Fraeman, Abigail A. ; Fischer, Woodward W. ; Gupta, Sanjeev ; [et al.]

In: CASI

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Publication Date: 2019-07-19

Description: Earth's sandy deserts host two main types of bedforms - decimeter-scale ripples and larger dunes. Years of orbital observations on Mars also confirmed the existence of two modes of active eolian bedforms - meter-scale ripples, and dunes. By analogy to terrestrial ripples, which are thought to form from a grain mechanism, it was hypothesized that large martian ripples also formed from grain impacts, but spaced further apart due to elongated saltation trajectories from the lower martian gravity and different atmospheric properties. However, the Curiosity rover recently documented the coexistence of three scales of bedforms in Gale crater. Because a grain impact mechanism cannot readily explain two distinct and coeval ripple modes in similar sand sizes, a new mechanism seems to be required to explain one of the scales of ripples. Small ripples are most similar to Earth's impact ripples, with straight crests and subdued profiles. In contrast, large martian ripples are sinuous and asymmetric, with lee slopes dominated by grain flows and grainfall deposits. Thus, large martian ripples resemble current ripples formed underwater on Earth, suggesting that they may form from a fluid-drag mechanism. To test this hypothesis, we develop a scaling relation to predict the spacing of fluid-drag ripples from an extensive flume data compilation. The size of large martian ripples is predicted by our scaling relation when adjusted for martian atmospheric properties. Specifically, we propose that the wavelength of martian wind-drag ripples arises from the high kinematic viscosity of the low-density atmosphere. Because fluid density controls drag-ripple size, our scaling relation can help constrain paleoatmospheric density from wind-drag ripple stratification.

Keywords: Lunar and Planetary Science and Exploration

Type: JSC-CN-37386 , AGU Fall Meeting; Dec 12, 2016 - Dec 16, 2016; San Francisco, CA; United States

Format: application/pdf

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