Morphological Assessment of Cultivated and Wild Amaranth Species Diversity

Thapa, Ranjita; Blair, Matthew W.

doi:10.3390/agronomy8110272

Cited by 45 publications

(37 citation statements)

References 32 publications

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“…Thus, selection for such traits can easily be done. This agrees with the report of [16] that high heritability of characters is an indication that superior genotypes could be reliably selected on the basis of phenotypic performance.…”

Section: Discussionsupporting

confidence: 92%

Agromophological Characterisation of Amaranth Accessions from Malawi

Nyasulu¹,

Sefasi²,

Chimzinga³

et al. 2021

AJPS

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Five amaranth (Amaranthus spp.) accessions from central and southern region of Malawi were characterised at Lilongwe University of Agriculture and Natural Resources using agro-morphological traits. A total of thirteen descriptors, defined by Plant Genetic Resources Institute (IPGRI), were used to characterise the amaranth accessions under study. Field experiments were carried out for two seasons in August to November, 2018 and January to March, 2019. The experiments were laid out in a Randomised Complete Block Design (RCBD), which was replicated four times. The qualitative (plant growth habit, leaf colour, inflorescence colour, stem colour, inflorescence spininess, seed colour) and quantitative traits (plant height, stem girth, leaf length, leaf width, inflorescence length, days to 80% flowering, grain yield, leaf yield, and days to 80% maturity) evaluated were significant in defining the uniqueness of different amaranth accessions evaluated. Significant differences (P < 0.05) obtained from analysis of variance were observed in all the parameters studied. Correlation analysis was conducted using Genstat statistical package version 18 while cluster analysis was done using R statistical software. The agro-morphological characterisation results showed a wide range of variation for most of the qualitative characters. Wide variability was present in all the qualitative characters except for plant growth habit where all the accessions exhibited erect plant growth habit. These results point to high possibility of genetic diversity of amaranth accessions in Malawi, it could be exploited in future breeding purposes and deserving conservation.

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Section: Discussionsupporting

confidence: 92%

Agromophological Characterisation of Amaranth Accessions from Malawi

Nyasulu¹,

Sefasi²,

Chimzinga³

et al. 2021

AJPS

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“…Comparing species in the vegetative state when plants form the root system and stems with leaves it is determined that A. cruentus passes this period faster by 8-16 days which is a good indicator for temperate climatic conditions of the experiment. These results are compatible with those reported by investigators (Thapa & Blair, 2018;Saratovsky et al, 2018). The same pattern was observed during flowering when the same species A. cruentus bloomed 6-17 days earlier compared to other species that made it possible to grow A. cruentus for grain in these conditions for three years of experiment.…”

Section: Resultssupporting

confidence: 92%

Comparative study of amaranth species (Amaranthus spp.) in the temperate continental climate of Russian Federation

DMITRIEVA

IVANOV

2020

Acta Agric. Slov.

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Comparative study of amaranth species (Amaranthus spp.) in the temperate continental climate of Russian FederationAbstract: Field experiments were carried out in the Chuvash Republic, which is located in the center of the European part of Russia on the banks of the Volga River and has a moderately continental climate with warm summers, cold winters, well-defined transitional seasons and average annual rainfall of 500 mm. There are many cultural and wild species of amaranth in nature, differing in morphological and biological features. The objects of research were four common species of amaranth (Amaranthus spp.): A. cruentus L., A. caudatus L., A. hybridus L., A. spinosus L.. Particular attention in the experiment was paid to the morphological and biological characteristics of plants according to the growth stages during growing season and the formation of the yield of green mass and grain during 3 years of research. As a result of the experiment, the possibility of cultivating a heat-loving amaranth culture in the climatic conditions of the Chuvash Republic was proved and adaptive species for growing green mass (A.cruentus and A.caudatus) and for grain (A.cruentus) were identified. Primerjalna raziskava vrst ščira (Amaranthus spp.) v zmernem kontinentalnem podnebju Ruske FederacijeIzvleček: Poljski poskus je bil izveden v Čuvaški republiki, v osrednem delu evropskega dela Rusije, na bregovih Volge, ki ima zmerno kontinentalno podnebje s toplimi poletji, mrzlimi zimami, z dobro izraženimi prehodnimi obdobji in s povprečno letno količino padavin 500 mm. Na območju uspeva več gojenih in podivjanih vrst ščira z različnimi morfološkimi in biološkimi lastnostmi. Predmet raziskave so bile štiri pogoste vrste ščira: A. cruentus L., A. caudatus L., A. hybridus L., A. spinosus L.. Posebna pozornost je bila posvečena morfološkim in biološkim lastnostim rastlin glede na fazo v rastni sezoni, tvorbi biomase in zrnja v 3 letih raziskav. Kot rezultat poskusa je bila dokazana možnost gojitve toploljubnih ščirov v klimatski razmerah Čuvaške republike, za zeleno biomaso vrsti A.cruentus and A.caudatus in za zrnje vrsto A.cruentus.

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“…Tailoring higher expression of branching genes could reduce excessive production of lower branches (tillering) by mimicking domestication alleles of teosinte branched 1 (tb1) from maize (93), and larger seeds could result from recreating beneficial alleles of known grain size genes (94,95). Similarly, quinoa and its relative amaranth are pseudocereal orphan crops from the Americas that carry large, heavy inflorescences (96,97). Mutations in the florigen or GA systems could be used to reduce height and support broader geographical distribution.…”

Section: Expanding Agricultural Horizons: Feeding Humans Not Their Livestockmentioning

confidence: 99%

Revolutions in agriculture chart a course for targeted breeding of old and new crops

Eshed

Lippman

2019

Science

218

153

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The dominance of the major crops that feed humans and their livestock arose from agricultural revolutions that increased productivity and adapted plants to large-scale farming practices. Two hormone systems that universally control flowering and plant architecture, florigen and gibberellin, were the source of multiple revolutions that modified reproductive transitions and proportional growth among plant parts. Although step changes based on serendipitous mutations in these hormone systems laid the foundation, genetic and agronomic tuning were required for broad agricultural benefits. We propose that generating targeted genetic variation in core components of both systems would elicit a wider range of phenotypic variation. Incorporating this enhanced diversity into breeding programs of conventional and underutilized crops could help to meet the future needs of the human diet and promote sustainable agriculture.

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Morphological Assessment of Cultivated and Wild Amaranth Species Diversity

Cited by 45 publications

References 32 publications

Agromophological Characterisation of Amaranth Accessions from Malawi

Agromophological Characterisation of Amaranth Accessions from Malawi

Comparative study of amaranth species (Amaranthus spp.) in the temperate continental climate of Russian Federation

Revolutions in agriculture chart a course for targeted breeding of old and new crops

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