Growth and yield of white lupin (Lupinus albus) under Mediterranean conditions: effect of sowing date

SUMMARYThe effects of varying the sowing date (early September-late October) and plant density (14–70 seeds/m2) on the establishment, overwinter survival, structure and yield of an autumn-sown, florallydeterminate line (CH304/70) of the white lupin (Lupinus albus) were examined in three contrasting growing seasons between 1991 and 1994. Crops established well when sown in early September and were sufficiently cold-hardy to survive prolonged and extremely severe early winter frosts, but crops sown in late October either lost many plants or were destroyed completely. There was a strong interaction between sowing date and autumn weather on crop structure and yield. Late sowing and cold autumn weather restricted the number of mainstem leaves and first-order lateral branches on the plant, and decreased plant height and yield potential.Despite considerable differences between years in the weather during the summer and autumn, all crops were harvested in early September. Grain yields ranged from 0·3 to 4·5 t/ha depending on season, sowing date and plant density. Yields were strongly correlated with the number of podbearing axes and pods per m2 and, although actual yields differed depending on growing conditions, the same number of pod-bearing axes (100/m2) was required in each year to achieve maximum yield. The effects of sowing date and autumn weather on plant structure were well predicted by a simple developmental model that related vernalization and leaf development to post-sowing temperature.

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Quantitative Control of Early Flowering in White Lupin (Lupinus albus L.)

International Journal of Molecular Sciences ◽

10.3390/ijms22083856 ◽

2021 ◽

Vol 22 (8) ◽

pp. 3856

Author(s):

Sandra Rychel-Bielska ◽

Anna Surma ◽

Wojciech Bielski ◽

Bartosz Kozak ◽

Renata Galek ◽

...

Keyword(s):

Flowering Time ◽

Association Studies ◽

Lupinus Albus ◽

Genotypic Diversity ◽

Early Flowering ◽

White Lupin ◽

Genome Wide Association Studies ◽

Interacting Protein ◽

Major Qtls ◽

Lupinus Albus L

White lupin (Lupinus albus L.) is a pulse annual plant cultivated from the tropics to temperate regions for its high-protein grain as well as a cover crop or green manure. Wild populations are typically late flowering and have high vernalization requirements. Nevertheless, some early flowering and thermoneutral accessions were found in the Mediterranean basin. Recently, quantitative trait loci (QTLs) explaining flowering time variance were identified in bi-parental population mapping, however, phenotypic and genotypic diversity in the world collection has not been addressed yet. In this study, a diverse set of white lupin accessions (n = 160) was phenotyped for time to flowering in a controlled environment and genotyped with PCR-based markers (n = 50) tagging major QTLs and selected homologs of photoperiod and vernalization pathway genes. This survey highlighted quantitative control of flowering time in white lupin, providing statistically significant associations for all major QTLs and numerous regulatory genes, including white lupin homologs of CONSTANS, FLOWERING LOCUS T, FY, MOTHER OF FT AND TFL1, PHYTOCHROME INTERACTING FACTOR 4, SKI-INTERACTING PROTEIN 1, and VERNALIZATION INDEPENDENCE 3. This revealed the complexity of flowering control in white lupin, dispersed among numerous loci localized on several chromosomes, provided economic justification for future genome-wide association studies or genomic selection rather than relying on simple marker-assisted selection.

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Preliminary Evaluation of White Lupin (Lupinus albus L.) as a Forage Crop in the Mid-Atlantic Region of the United States of America

Journal of Agricultural Science ◽

10.5539/jas.v2n4p13 ◽

2010 ◽

Vol 2 (4) ◽

Cited By ~ 1

Author(s):

Harbans L. Bhardwaj ◽

David E. Starner ◽

Edzard Van Santen

Keyword(s):

United States ◽

United States Of America ◽

Lupinus Albus ◽

The United States ◽

White Lupin ◽

Preliminary Evaluation ◽

Atlantic Region ◽

Forage Crop ◽

Lupinus Albus L

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Effect of a diet containing white lupin hulls (Lupinus albus cv. Amiga) on total tract apparent digestibility of nutrients and growth performance of rabbits

World Rabbit Science ◽

10.4995/wrs.2013.1191 ◽

2013 ◽

Vol 21 (1) ◽

Cited By ~ 5

Author(s):

Zdeněk Volek ◽

Lenka Volková ◽

Milan Marounek

Keyword(s):

Growth Performance ◽

Lupinus Albus ◽

White Lupin ◽

Apparent Digestibility

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LaPT2 Gene Encodes a Flavonoid Prenyltransferase in White Lupin

Frontiers in Plant Science ◽

10.3389/fpls.2021.673337 ◽

2021 ◽

Vol 12 ◽

Author(s):

Jinyue Liu ◽

Yaying Xia ◽

Wenbo Jiang ◽

Guoan Shen ◽

Yongzhen Pang

Keyword(s):

Plant Defense ◽

Human Health ◽

Fluorescent Protein ◽

Lupinus Albus ◽

Yeast Cells ◽

White Lupin ◽

In Planta ◽

Strong Activity ◽

Prenylated Flavonoids ◽

Flavonoid Compounds

Legume plants are rich in prenylated flavonoid compounds, which play an important role in plant defense and human health. In the present study, we identified a prenyltransferase (PT) gene, named LaPT2, in white lupin (Lupinus albus), which shows a high identity and close relationship with the other known PT genes involved in flavonoid prenylation in planta. The recombinant LaPT2 protein expressed in yeast cells exhibited a relatively strong activity toward several flavonols (e.g., kaempferol, quercetin, and myricetin) and a relatively weak activity toward flavanone (naringenin). In addition, the recombinant LaPT2 protein was also active toward several other types of flavonoids, including galangin, morin, 5-deoxyquercetin, 4'-O-methylkaempferol, taxifolin, and aromadendrin, with distinct enzymatic affinities. The LaPT2 gene was preferentially expressed in the roots, which is consistent with the presence of prenylated flavonoid kaempferol in the roots. Moreover, we found that the expression level of LaPT2 paralleled with those of LaF3H1 and LaFLS2 genes that were relatively higher in roots and lower in leaves, suggesting that they were essential for the accumulation of prenylated flavonoid kaempferol in roots. The deduced full-length LaPT2 protein and its signal peptide fused with a green fluorescent protein (GFP) are targeted to plastids in the Arabidopsis thaliana protoplast. Our study demonstrated that LaPT2 from white lupin is responsible for the biosynthesis of prenylated flavonoids, in particular flavonols, which could be utilized as phytoalexin for plant defense and bioactive flavonoid compounds for human health.

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The impact of sowingdate and production area on the yield of white lupin (Lupinus albus L.) on Nyírség brown forest soil

Acta Agraria Debreceniensis ◽

10.34101/actaagrar/56/1949 ◽

2014 ◽

pp. 133-137

Author(s):

Gabriella Tóth ◽

Ferenc Borbély

Keyword(s):

Yield Components ◽

Crop Yields ◽

Lupinus Albus ◽

Meteorological Conditions ◽

White Lupin ◽

Seed Number ◽

Brown Forest Soil ◽

Production Area ◽

The Impact ◽

Lupinus Albus L

The lupine is very sensitive to the different ecological conditions. The examinations of lupine was started in 2003 and our aim is determine yield components which directly affecting crop yields (flower, pod and seed number per plants) in different sowing times (3 times, two weeks apart) and growing area area (240, 480, 720 cm2) combinations. According to our results the sowing times, the growing area and the meteorological conditions are influence on yield significantly. Our data suggest that the early sowing and large growing area combination is favourable to rate of fertilized plants and to development of yield. Later sowing reduces the seed yield depending on the cropyear. In our experiment, the decrease of yield was in the unfavourable year (2003) 20–96%, and in the most favourable meteorological conditions (2004) 10–79%, and in rich rainfall year (2005) 15–88%.

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Nodulated White Lupin Plants Growing in Contaminated Soils Accumulate Unusually High Mercury Concentrations in Their Nodules, Roots and Especially Cluster Roots

Horticulturae ◽

10.3390/horticulturae7090302 ◽

2021 ◽

Vol 7 (9) ◽

pp. 302

Author(s):

Miguel A. Quiñones ◽

Susana Fajardo ◽

Mercedes Fernández-Pascual ◽

M. Mercedes Lucas ◽

José J. Pueyo

Keyword(s):

Contaminated Soils ◽

Lupinus Albus ◽

White Lupin ◽

Cluster Roots ◽

Cluster Root ◽

Bioaccumulation Factors ◽

Aerial Parts ◽

High Mercury ◽

Lupinus Albus L ◽

Hg Accumulation

Two white lupin (Lupinus albus L.) cultivars were tested for their capacity to accumulate mercury when grown in Hg-contaminated soils. Plants inoculated with a Bradyrhizobium canariense Hg-tolerant strain or non-inoculated were grown in two highly Hg-contaminated soils. All plants were nodulated and presented a large number of cluster roots. They accumulated up to 600 μg Hg g−1 DW in nodules, 1400 μg Hg g−1 DW in roots and 2550 μg Hg g−1 DW in cluster roots. Soil, and not cultivar or inoculation, was accountable for statistically significant differences. No Hg translocation to leaves or seeds took place. Inoculated L. albus cv. G1 plants were grown hydroponically under cluster root-promoting conditions in the presence of Hg. They accumulated about 500 μg Hg g−1 DW in nodules and roots and up to 1300 μg Hg g−1 DW in cluster roots. No translocation to the aerial parts occurred. Bioaccumulation factors were also extremely high, especially in soils and particularly in cluster roots. To our knowledge, Hg accumulation in cluster roots has not been reported to date. Our results suggest that inoculated white lupin might represent a powerful phytoremediation tool through rhizosequestration of Hg in contaminated soils. Potential uptake and immobilization mechanisms are discussed.

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