Genetic studies of yield contributing traits in Amaranthus

Summary Genetical studies on grain yield and its contributing traits were made in a six parent complete diallel in the F₁ and F₂ generations of one of the most widely grown grain species of grain amaranths (Amaranthus hypochondriacus L.). Graphical analysis indicated that epistasis exists for 1,000-grain weight in the F₁. Grain weight/panicle, yield/plant and harvest index indicated absence of non-allelic gene interaction. The harvest index in the F₁ and F₂ and grain weight/ panicle, 1,000-grain weight, yield/plant in the F₂ appeared to be controlled by overdominance effects. Higher grain yield appeared to be associated with dominant genes. Both additive and non-additive gene effects were responsible for the genetic variation in the diallel population. However, dominance variance was more important than additive variance in grain yield/ plant and harvest index in the F₁ and F₂. For 1,000-grain weight additive genetic variance was more important in the F₁ and non-additive in F₂. There was overdominance of a consistent nature in the two analyses for harvest index in the F₁ and F₂, grain weight/ panicle, 1,000-grain weight and yield/plant in the F₂ and partial dominance for 1,000-grain weight in the F₁.     

In situ immunofluorescent localization of ribulose-1,5-bisphosphate carboxylase/oxygenase in mesophyll of C4 dicotyledonous plants

The location of ribulose-1,5-bisphosphate carboxylase/oxygenase (RuBPCO) in the leaf mesophyll of some dicotyledonous C4 plants was confirmed by immunofluorescent labelling. The anti-RuBPCO immune serum was obtained by inoculating a rabbit with commercially obtained RuBPCO. Specificity of these antibodies was tested by immunodiffusion, immunoelectrophoresis, and Western blotting. Fresh hand-cuts of leaves from dicotyledonous C4 plants, Amaranthus caudatus, A. dubius, Gomphrena globosa, and Portulaca oleracea, were incubated with the conjugated anti-RuBPCO immune serum and then with a commercial FITC-anti-rabbit IgG conjugate. Nerium oleander was used a control C3 plant pattern and Zea mays as a C4 plant pattern. The immunofluorescent label was distributed in both mesophyll and bundle sheath in all the C4 plants tested. It is an unequivocal proof that in the C4 dicotyledonous plants the RuBPCO is not only located in the chloroplasts of the bundle sheath cells but also in the chloroplasts of the mesophyll cells. In these plants therefore, the C4 pathway cannot exclusively be viewed as an intercellular level concentration mechanism. In the mesophyll cytoplasm, phosphoenolpyruvate carboxylase traps CO2, while in the mesophyll chloroplasts, RuBPCO operates with atmospheric CO2 and CO2 from the C4 decarboxylation step at an intracellular level, which could mean a significant energetic economy. The CO2 from photorespiration could be saved and reincorporated. Location of RuBPCO in the mesophyll and/or bundle sheath chloroplasts is a matter of inter- and intracellular compartmentation which makes another variation of C4 photosynthetic pathway possible. This revised version was published online in September 2006 with corrections to the Cover Date.     

Agrobacterium-mediated transformation of Amaranthus hypochondriacus: light- and tissue-specific expression of a pea chlorophyll a/b-binding protein promoter

Mature embryos of Amaranthus hypochondriacus (amaranth) were used to develop an in vitro culture system for plant regeneration and genetic transformation. Plants were regenerated from embryo-derived callus cultivated on Murashige and Skoog medium supplemented with 10 μM 2,4-dichlorophenoxyacetic acid or 3,6-dichloro-2-methoxybenzoic acid and 10% coconut liquid endosperm. Transgenic plants were obtained by inoculation of mature embryo explants with a disarmed Agrobacterium strain containing the plasmid pGV2260(pEsc4), which carried the genes encoding neomycin phosphotransferase type II and β-glucuronidase. The presence of transgenes in the genome of transformed amaranth plants and their progeny was demonstrated by Southern blot hybridization. Tissue specific and light-inducible expression directed by a pea chlorophyll a/b-binding protein promoter was observed in transgenic amaranth plants and their progeny. Received: 30 December 1996 / Revision received: 14 May 1997 / Accepted: 3 June 1997     

Effects of low and elevated CO2 on C3 and C4 annuals

Abutilon theophrasti (C₃) and Amaranthus retroflexus (C₄), were grown from seed at four partial pressures of CO₂: 15 Pa (below Pleistocene minimum), 27 Pa (pre-industrial), 35 Pa (current), and 70 Pa (future) in the Duke Phytotron under high light, high nutrient, and wellwatered conditions to evaluate their photosynthetic response to historic and future levels of CO₂. Net photosynthesis at growth CO₂ partial pressures increased with increasing CO₂ for C₃ plants, but not C₄ plants. Net photosynthesis of Abutilon at 15 Pa CO₂ was 70% less than that of plants grown at 35 Pa CO₂, due to greater stomatal and biochemical limitations at 15 Pa CO₂. Relative stomatal limitation (RSL) of Abutilon at 15 Pa CO₂ was nearly 3 times greater than at 35 Pa CO₂. A photosynthesis model was used to estimate ribulose-1,5-bisphosphate carboxylase (rubisco) activity (Vc_max), electron transport mediated RuBP regeneration capacity (J _max), and phosphate regeneration capacity (PiRC) in Abutilon from net photosynthesis versus intercellular CO₂ (A–C _i) curves. All three component processes decreased by approximately 25% in Abutilon grown at 15 Pa compared with 35 Pa CO₂. Abutilon grown at 15 Pa CO₂ had significant reductions in total rubisco activity (25%), rubisco content (30%), activation state (29%), chlorophyll content (39%), N content (32%), and starch content (68%) compared with plants grown at 35 Pa CO₂. Greater allocation to rubisco relative to light reaction components and concomitant decreases in J _max and PiRC suggest co-regulation of biochemical processes occurred in Abutilon grown at 15 Pa CO₂. There were no significant differences in photosynthesis or leaf properties in Abutilon grown at 27 Pa CO₂ compared with 35 Pa CO₂, suggesting that the rise in CO₂ since the beginning of the industrial age has had little effect on the photosynthetic performance of Abutilon. For Amaranthus, limitations of photosynthesis were balanced between stomatal and biochemical factors such that net photosynthesis was similar in all CO₂ treatments. Differences in photosynthetic response to growth over a wide range of CO₂ partial pressures suggest changes in the relative performance of C₃ and C₄ annuals as atmospheric CO₂ has fluctuated over geologic time.     

不同水分条件下混种密度对芦苇和反枝苋种间竞争的影响

与本地植物的种间竞争是影响外来植物能否成功入侵的关键因素之一,该研究通过受控模拟试验研究了本地植物芦苇(Phragmites australis)和外来入侵植物反枝苋(Amaranthus retroflexus)在淹水和干旱两种水分条件下混种密度(6∶2、4∶4和2∶6)对其种间竞争的影响。结果表明:(1)芦苇和反枝苋的相对产量与相对产量总和均小于1,即两种植物存在种间竞争。(2)种间竞争使芦苇和反枝苋的生长均受到了不同程度的抑制,表现在两者的株高和生物量均随着竞争者密度的增加而降低。(3)植株地上部分和地下部分的氮浓度表现出与株高和生物量相同的趋势,且在不同水分条件下存在差异。(4)芦苇和反枝苋分别在淹水和干旱环境下具有较强竞争力,但在各自较高混种密度下亦具有较强竞争力。可见,芦苇和反枝苋的种间竞争受到了水分和混种密度的影响。因此,在有反枝苋分布的湿地中,植物生长初期可通过增加土壤水分和/或增加芦苇等本地植物的种群密度以降低反枝苋的种群密度来限制其竞争能力,防止反枝苋在湿地中生长建群和扩散入侵。     

Ultrastructural alterations to chloroplasts in triazine-resistant weed biotypes

Ultrastructural, morphometric and physiological techniques were used to determine the consistent chloroplast differences between triazine-resistant (R) and triazine-susceptible (S) biotypes of Amaranthus hybridus L., Chenopodium album L., and Brassica campestris L. All R biotypes had a larger proportion of the chloroplast volume as grana lamellae and a lower proportion of starch and stroma lamellae than S biotypes. In the R biotypes, a greater percentage of grana contain larger numbers of thylakoids per granum. A greater proportion of chlorophyll associated with the light-harvesting chlorophyll alb protein and a lower chlorophyll alb ratio, traits associated with an increase in grana lamellae, were noted in R biotypes. Chloroplasts of S biotypes could be modified to ultrastructural phenocopies of those in R biotypes by treatment with sublethal levels of the PSII inhibiting herbicides, bentazon, diuron, atrazine and prometon. Despite the structural similarities to R biotypes, the modified S biotypes were not resistant to atrazine as determined by fluorescence measurements. Thus, the structural alterations observed are apparently secondary effects of impaired photosynthetic electron transport in R biotypes, and are not the cause of triazine resistance.     

NO donors mimic and NO inhibitors inhibit cytokinin action in betalaineaccumulation in Amaranthus caudatus

A classical biotest for cytokinin is based on the accumulation of betalainesin Amaranthus species. We have shown that inhibitorsof nitric oxide synthase from animals inhibit this response and that chemicaldonors of nitric oxide (NO) stimulate betalaine biosynthesis in Amaranthuscaudatus. NO could be an intermediate in cytokinin signalling.     

Efficacy of Trematophoma lignicola Petrak as a Biological Control Agent for Amaranthus retroflexus L.

The pathogenicity of Trematophoma lignicola on Amaranthus retroflexus was increased when its conidia were formulated in oilseed rape emulsion. However, this formulation did not reduce the dew period required to allow conidial germination and infection of the host, nor did it protect the conidia from desiccation before the onset of dew. The fungus gave effective control of A. retroflexus plants up to the 4-true-leaf stage. Plants with 5 to 6-true-leaves were infected and their dry weight reduced, but plants with more than 6-true-leaves were unaffected. Plants grown in warm conditions (18-21°C/12-15°C, day/night) were more likely to be successfully controlled than those grown in the cold (10-12°C/7-8°C; day/night). Significant dry weight loss of A. retroflexus plants were achieved at application volumes down to 100 l ha -1 at 5 ×10 6 conidia ml -1 . More effective control was achieved by application of conidia of T. lignicola than mycelial or pycnidial applications.     

N availability does not modify plant-mediated responses of Trichoplusia ni to elevated CO2

Aims Elevated CO₂ and increased N availability can alter a variety of plant physiological processes leading to changes in the nutritional quality of leaf tissue for herbivores. Numerous experiments have examined the responses of herbivores to environmental change; however the potential effects of simultaneous change in multiple factors on leaf-chewing insect herbivores are less well understood. The plant-mediated effects of elevated CO₂ and high N on the performance of a generalist leaf-chewing insect herbivore, Trichoplusia ni, were investigated.Methods Newly hatched T. ni larvae were introduced to Amaranthus viridis and Polygonum persicaria plants grown under ambient and elevated CO₂ and low and high N conditions. Insect performance was assessed by measuring larvae weight after ten days of feeding. Plant photosynthesis, biomass, leaf area and specific leaf weight were measured to determine the effects of elevated CO₂, N and insect feeding on plant performance.Important findings Elevated CO₂ did not have strong effects on plant or insect performance, only affecting a few responses under low or high N conditions, but not both. Growth under high nitrogen improved almost all measures of plant performance. Trichoplusia ni performed significantly better on Amaranthus viridis (C 4) compared to Polygonum persicaria (C 3), despite similar leaf C:N ratios in both species. The performance of T. ni caterpillars was only improved by the high nitrogen treatment when they were feeding on P. persicaria, the host they performed poorly on. The only interactions between N and CO₂ affecting plant performance were seen for leaf photosynthesis of P. persicaria and leaf area of A. viridis. Contrary to the predictions, there were no significant CO₂ by N interactions affecting T. ni performance.     

Domestication,phylogeny and taxonomic delimitation in underutilized grain Amaranthus (Amaranthaceae) – a status review

Many neglected, underutilized species are extremely important for food production especially in Low Income Food Deficient Countries (LIFDCs). Grain amaranth is one of such crops originated and domesticated in different parts of American continent. Lack of knowledge on taxonomy and phylogenetic relationship with other related crops, analysis of the extent and distribution of genetic diversity together with work on local and traditional knowledge, are the main constrains for genetic improvement of neglected, underutilized and crop related wild species. The phylogenetic relationship and taxonomic delimitation in genus Amaranthus are still not resolved with extreme clarity. But classification of the genus Amaranthus into three subgenera viz., Acnida, Amaranthus and Albersia, based on morphological parameters is quite acceptable. Phylogenetic analysis revealed clear separation of vegetable and grain amaranths. The derivation of grain and vegetable amaranths represent two lines of descent from weed progenitor. Amaranthus hybridus L. along with grain amaranths supposed to have formed a complex in which taxonomic problems are far from being clarified, especially because of apparent common hybridization and misapplication of nomenclature. (© 2014 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)