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Leguminous Crops (leguminous + crop)

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Life Sciences60%

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Purification, identification and preliminary crystallographic studies of a 2S albumin seed protein from Lens culinaris

ACTA CRYSTALLOGRAPHICA SECTION F (ELECTRONIC), Issue 8 2008
Pankaj Gupta
Lens culinaris (lentil) is a widely consumed high-protein-content leguminous crop. A 2S albumin protein (26.5,kDa) has been identified using NH2 -terminal sequencing from a 90% ammonium sulfate saturation fraction of total L. culinaris seed protein extract. The NH2 -terminal sequence shows very high homology to PA2, an allergy-related protein from Pisum sativum. The 2S albumin protein was purified using a combination of size-exclusion and ion-exchange chromatography. Crystals of the 2S seed albumin obtained using the hanging-drop vapour-diffusion method diffracted to 2.5,Å resolution and were indexed in space group P41 (or P43), with unit-cell parameters a = b = 78.6, c = 135.2,Å. [source]

Can oil palm plantations be made more hospitable for forest butterflies and birds?

JOURNAL OF APPLIED ECOLOGY, Issue 4 2008
Lian Pin Koh
Summary 1Rising global demand for palm oil is likely to exacerbate deforestation rates in oil palm-producing countries. This will lead to a net reduction in biodiversity unless measures can be taken to improve the value of oil palm plantations. 2Here, I investigate whether the biodiversity of oil palm plantations can be increased by determining how forest-dwelling butterflies and birds in these plantations are affected by vegetation characteristics at the local level (e.g. epiphyte prevalence) and by natural forest cover at the landscape level (e.g. old-growth forests surrounding oil palm estates). 3Across transects, vegetation variables explained 0,1·2% of the variation in butterfly species richness and 0,7% of that in bird species richness. The most important predictors of species richness across transects were percentage ground cover of weeds for butterflies; and epiphyte prevalence and presence of leguminous crops for birds. Across estates, natural forest cover explained 1·2,12·9% of the variation in butterfly species richness and 0·6,53·3% of variation in bird species richness. The most important predictors of species richness across estates were percentage cover of old-growth forests surrounding an estate for butterflies; and percentage cover of young secondary forests surrounding an estate for birds. 4Synthesis and applications. In order to maximize biodiversity in oil palm plantations, oil palm companies and local governments should work together to preserve as much of the remaining natural forests as possible by, for example, creating forested buffer zones around oil palm estates or protecting remnant forest patches in the landscape. [source]

Leaf volatiles as attractants for neonate Helicoverpa armigera Hbn. (Lep., Noctuidae) larvae

JOURNAL OF APPLIED ENTOMOLOGY, Issue 1 2002
A. K. Singh
The 1st instar Helicoverpa armigera larvae were bioassayed in the laboratory to study their orientational responses towards leaf volatiles of four leguminous crops: chickpea, Cicer arietinum L.; pigeonpea, Cajanus cajan Millsp.; blackgram, Vigna mungo L.; and cowpea, Vigna unguiculata L. (Walp.). The gram podborer larvae showed positive orientational responses towards leaves of all four test plants. Whole leaves of chickpea, pigeonpea and blackgram were more attractive for gram podborer larvae than cowpea whole leaves. Larval attraction for crushed (damaged) leaves of chickpea, blackgram and cowpea was significantly higher than the attraction for pigeonpea crushed leaves. The orientational responses of gram podborer larvae for crushed leaves of cowpea were significantly higher compared to whole leaves. However, the whole pigeonpea leaves elicited higher orientational responses than the crushed leaves. Maceration was not observed to affect the attractancy of chickpea and blackgram leaves. Further, the leaves were extracted in n-hexane and methanol. It was observed that the crude extracts of all the test leaves elicited positive orientational responses of larvae. In no-choice tests, the orientational preference of the larvae for the hexane extracts of all the test leaves was statistically equal. Similarly, the methanol extracts of leaves of all the test plants also attracted a greater percentage of larvae in no-choice tests. However, under two-choice bioassays, hexane foliage extract of all the test plants elicited higher orientational responses of larvae compared to the methanolic extracts of same leaves. The results of these bioassays clearly indicate that all the test leaves emit kairomones for gram podborer larvae. Moreover, kairomonal components of these leaves are, at least in part, extractable in hexane and methanol, which are higher in hexane than methanol. [source]

Fodder production and soil health with conjunctive use of saline and good quality water in ustipsamments of a semi-arid region

LAND DEGRADATION AND DEVELOPMENT, Issue 2 2007
R. K. Yadav
Abstract Food and fodder shortage in arid and semi-arid regions force farmers to use marginal quality water for meeting the water requirement of crops which result in low quality, reduced production and an adverse impact on soil properties. A field study on loamy-sand (Hyperthermic Typic Ustipsamments) saline soil was conducted during 1999,2001 at Central Institute for Research on Buffaloes, Hisar. This involved assessment of effects of conjunctive use of saline water, EC,=,4·6,7·4,dSm,1, SAR,=,14,22 ((mmol,1)½ with good quality water on five fodder crop rotations: oat-sorghum (Avena sativa- ,Sorghum bicolor), rye grass,sorghum (Loleum rigidum,Sorghum bicolor), Egyptian clover,sorghum (Trifoleum alexandrinum,Sorghum bicolor), Persian clover,sorghum (Trifoleum resupinatum,Sorghum bicolor) and Indian clover,sorghum (Melilotus indica,Sorghum bicolor) and certain soil properties associated with it. Leguminous winter fodder crops were more sensitive to poor quality water use. Reductions in fodder yield with use of saline water alone throughout season were 85, 68, 54, 42, 36 and 26 per,cent in Indian clover, Egyptian clover, Persian clover, oat, rye grass and sorghum respectively as compared to good quality water. Leguminous fodder crops produced protein rich (12,14 per,cent) and low fibre (18,20 per,cent) fodder as compared to poor quality grassy fodder under good quality water irrigation but their quality deteriorated when saline water was used. These leguminous crops accumulated proportionately higher Na+ (1·58 per,cent) resulting in adverse impact on their growth as compared to grassy fodder crops. Higher soil salinity (12·2,dSm,1), SAR,=,20 (mmol,1)½ was recorded with saline water irrigation; and slight adverse impact was noticed on infiltration rate and contents of water dispersible clay. Alternate cyclic use of canal and saline water could be an option for fodder production under such conditions. Copyright © 2006 John Wiley & Sons, Ltd. [source]

Somatic Embryogenesis in Leguminous Plants

PLANT BIOLOGY, Issue 2 2000
P. Lakshmanan
Abstract: This review examines recent advances in the induction and development of somatic embryos in leguminous plants. Emphasis has been given to identify the current trends and successful strategies for the establishment of somatic embryogenic systems, particularly in the economically important species. It appears that, in legumes, somatic embryogenesis can be realized relatively easily especially in young meristematic tissues such as immature embryos and developing leaves. In the majority of the species examined, chlorophenoxyacetic acids remained the most active inductive compounds; however, the new generation growth regulators such as thidiazuron are emerging as successful alternatives for high-frequency direct regeneration of somatic embryos, even from well differentiated explant tissues. Low-frequency embryo production, poor germination and conversion of somatic embryos into plantlets and somaclonal variation are the major impediments limiting the utility of somatic embryogenesis for biotechnological applications in legumes. These limitations, however, may be considerably reduced in the near future, as more newly developed growth regulators with specific morphogenic targets become available for experimentation. From the published data, it is apparent that more effort should be given to develop repetitive embryogenic systems with high frequency of germination and regeneration, since such systems will find immediate application in mass propagation and other crop improvement programmes. As our understanding of various morphogenic processes, including growth and differentiation of zygotic embryos, is fast expanding, it is conceivable that development of highly efficient somatic embryogenic systems with practical application can be anticipated, at least for the important leguminous crops, in the foreseeable future. [source]