Screening for low grain cadmium phenotypes in sunflower, durum wheat and flax   总被引：10，自引：0，他引：10  

Yin-Ming Li  Rufus L. Chaney  Albert A. Schneiter  Jerry F. Miller  Elias M. Elias  James J. Hammond 《Euphytica》1997,94(1):23-30

Cadmium (Cd) level in nonoilseed sunflower (Helianthus annuus L.), flax (Linum usitatissimum L.), and durum wheat (Triticum turgidum L. var. durum) grown on uncontaminated, alkaline soils has exceeded limits established in Northern Europe. Separate field experiments were conducted to investigate variability of grain Cd levels among sunflower, durum wheat and flax germplasm, and to seek an efficient screening method for future breeding. There were large variations in leaf Cd concentration among 200 sunflower lines. These lines performed more consistently for Cd uptake at the R5 stage than at the V8 stage across 4 locations with markedly differing soils. Cd concentration in V8 leaves was not related to Cd in grain. The positive correlation between R5 leaf Cd and kernel Cd level was obtained from nonoilseed hybrid (Sigco 954) (R²; = 0.74**), and 200 lines (R² = 0.44**) tested over 4 locations in 2 field trials, respectively. This indicates that an efficient and low cost screening method can be developed for genotype selection, but plants must be grown to the R5 stage. A preliminary evaluation of 30 durum wheat and 74 flax lines indicated large variations in grain Cd level of durum wheat and flax. Grain Cd concentration ranged from 0.11 to 0.34 mg Cd kg^-1 DW for durum wheat, and 0.14 to 1.37 mg Cd kg^-1 DW for flax, respectively. This variability indicates that breeding for low grain Cd in durum wheat and flax should be feasible. This revised version was published online in July 2006 with corrections to the Cover Date.  相似文献   

调理剂与耕作栽培措施修复镉污染麦田土壤效果研究     

周芬  刘源  李中阳  李宝贵  李乐乐  陶甄 《中国农学通报》2022,38(13):120-126

为筛选出适合华北地区推广的中轻度Cd污染麦田土壤的原位修复措施,对比7种调理剂和3种耕作栽培措施的修复效果。以河南省北部某地区因污水灌溉导致Cd污染的麦田土壤为研究对象,选用不同调理剂（钙肥、硅肥、过磷酸钙、钙镁磷肥、生物质炭、骨炭）、叶面肥和不同耕作栽培措施（深耕、深松和密植）,在小麦季进行大田修复试验。结果表明,与对照相比,过磷酸钙对土壤pH的增加作用以及土壤有效态Cd含量、根系和籽粒中Cd含量的降低作用最显著。钙肥对土壤有效态Cd和籽粒中Cd含量的降低效果仅次于过磷酸钙,但其降低茎叶中Cd含量的作用最显著。硅肥有效地抑制了Cd从根系向地上部的转运。钙镁磷肥增产效果最显著,深耕处理对20~40 cm土壤总根长增加作用最显著。生物质炭和深耕处理对土壤有效态Cd和植株不同部位Cd均有一定的降低作用。骨炭和叶面肥处理虽然未降低根系中Cd含量,却降低了茎叶和籽粒中Cd含量。深松和密植处理的修复效果不明显,且密植处理增加了土壤有效态Cd含量。与籽粒Cd含量相关度最高的因素是茎叶Cd含量和土壤pH。综合修复效果和修复成本,施用过磷酸钙是华北地区轻度Cd污染麦田土壤修复的选择之一。  相似文献   

Genotypic variation of cadmium accumulation and distribution in rice   总被引：2，自引：0，他引：2  

Yong-Feng Yan  Doug-Hwan Choi  Do-Soon Kim  Byun-Woo Lee 《Journal of Crop Science and Biotechnology》2010,13(2):69-73

Cadmium (Cd) is absorbed by rice root and transferred into the other rice organs including grain. A solution-culture experiment was conducted to investigate the absorption and distribution of Cd supplied at different growth stages of rice. Two rice cultivars, a japonica ‘Chucheong’ and a tongil-type ‘Milyang23’ that exhibit high and low ability of Cd absorption by root and accumulation in grain were grown in culture solution and subjected to 2 ppm CdCl2 treatment for 2 weeks at four different growth stages: before panicle initiation stage (BPI), after panicle initiation stage (API), early ripening stage (ER), and mid-ripening stage (MR). Cd concentration and accumulation in rice organs were measured at harvest. The two rice cultivars accumulated two to three times greater amounts of Cd in grain in the two Cd treatments before heading (BPI and API treatments) than in the Cd treatment after heading (ER and MR treatment). The higher grain Cd accumulation in BPI and API treatments was not attributed to the higher Cd uptake but to the higher translocation from root to shoot and the higher redistribution from shoot to grain than ER and MR treatments These results imply that the remobilization of Cd through phloem during leaf senescence is the major process for Cd accumulation in rice grain rather than direct transport of absorbed Cd through the xylem-phloem transfer to grain. ‘Milyang23’ absorbed significantly smaller amount of Cd than ‘Chucheong’. However, ‘Milyang23’ accumulated more than a three times larger amount of Cd in grain compared to ‘Chucheong’ as the former exhibited the higher root-shoot translocation and shoot-grain remobilization as well. It indicates that the greater Cd translocation from root to shoot and subsequent higher Cd remobilization from shoot to grain, not the higher absorption ability, have led to the higher Cd accumulation and concentration in grain of ‘Milyang23’.  相似文献   

Evaluation of Grain Filling Rate and Duration in Bread and Durum Wheat, under Heat Stress after Anthesis   总被引：1，自引：0，他引：1  

A. S. Dias  & F. C. Lidon 《Journal of Agronomy and Crop Science》2009,195(2):137-147

Bread and durum wheat genotypes were submitted to heat stress during the grain filling period, and relationships between grain weight and accumulated time from anthesis until maturity, using days after anthesis and growing degree days, were described by cubic polynomials. Maximum grain weight and the duration and rate of grain filling were estimated from the fitted curves. It was found that bread and durum wheat exposure to high temperatures significantly decreased grain weight and hastens physiological maturity (shortening the grain filling period). High temperatures significantly affected the rate (on a growing degree day basis) and duration (on Julian day units) of grain filling. The grain filling rate, on a thermal time basis, was positively associated with the final grain weight and the estimated maximum grain weight. The duration of grain filling does not appear to be a limiting factor for genotype grain weight stability, being mainly fixed by temperature. Grain weight of the controlled plants was positively correlated with the final and maximum grain weight of heat stressed plants. It was concluded that a high grain filling rate and a high potential grain weight are major traits that can be useful to improve heat tolerance of Triticum under Mediterranean environments.  相似文献   

Morphological attributes associated with early-season drought tolerance in spring durum wheat in a mediterranean environment   总被引：6，自引：0，他引：6  

R. El Hafid  Dan H. Smith  M. Karrou  K. Samir 《Euphytica》1998,101(3):273-282

Impacts of drought during the reproductive development phase of wheat have been thoroughly investigated, while studies of the early-season drought effects are lacking. Field experiments were conducted to study the effect of duration of drought stress during the period from emergence to the end of tillering on the growth and performance of different wheat cultivars, and to identify traits that could be associated with the resistance to early season drought. Experiments were conducted on a Vertic Calcixerol soil in the semiarid cereal-growing region of Morocco in 1995 and 1996. Six spring durum wheat (Triticum durum Desf.) cultivars selected on the basis of variation in morphology, phenology, and zone of adaptation were subjected to four water regimes, including a well-irrigated control. The three water stress treatments were imposed by withholding water during the period from emergence to either the onset, middle, or the end of tillering. Subsequent irrigations provided adequate soil moisture for the remainder of the growing season. Results from both years were generally consistent. The differential responses of the six cultivars was mainly due to differences in numbers of kernels produced. High yields under early-season drought were attributed to high leaf area index under stress and, upon recovery, and to high tiller survival rate. The consistency observed over years in the relationships between grain yield and those traits that proved to be most associated with the resistance to early-season drought, would suggest the usefulness of these traits as selection criteria for breeding for improved drought resistance in a Mediterranean climate type of North Africa. This revised version was published online in July 2006 with corrections to the Cover Date.  相似文献   

Absorption,translocation, and remobilization of cadmium supplied at different growth stages of rice     

Yong-Feng Yan  Doug-Hwan Choi  Do-Soon Kim  Byun-Woo Lee 《Journal of Crop Science and Biotechnology》2010,13(2):113-119

Cadmium (Cd) is absorbed by rice root and transferred into the other rice organs including grain. A solution-culture experiment was conducted to investigate the absorption and distribution of Cd supplied at different growth stages of rice. Two rice cultivars, a japonica ‘Chucheong’ and a tongil-type ‘Milyang23’ that exhibit high and low ability of Cd absorption by root and accumulation in grain were grown in culture solution and subjected to 2 ppm CdCl2 treatment for 2 weeks at four different growth stages: before panicle initiation stage (BPI), after panicle initiation stage (API), early ripening stage (ER), and mid-ripening stage (MR). Cd concentration and accumulation in rice organs were measured at harvest. The two rice cultivars accumulated two to three times greater amounts of Cd in grain in the two Cd treatments before heading (BPI and API treatments) than in the Cd treatment after heading (ER and MR treatment). The higher grain Cd accumulation in BPI and API treatments was not attributed to the higher Cd uptake but to the higher translocation from root to shoot and the higher redistribution from shoot to grain than ER and MR treatments These results imply that the remobilization of Cd through phloem during leaf senescence is the major process for Cd accumulation in rice grain rather than direct transport of absorbed Cd through the xylem-phloem transfer to grain. ‘Milyang23’ absorbed significantly smaller amount of Cd than ‘Chucheong’. However, ‘Milyang23’ accumulated more than a three times larger amount of Cd in grain compared to ‘Chucheong’ as the former exhibited the higher root-shoot translocation and shoot-grain remobilization as well. It indicates that the greater Cd translocation from root to shoot and subsequent higher Cd remobilization from shoot to grain, not the higher absorption ability, have led to the higher Cd accumulation and concentration in grain of ‘Milyang23’.  相似文献   

Drought and heat stress reduce yield and alter carbon rhizodeposition of different wheat genotypes     

Shiva Bakhshandeh  Paola E. Corneo  Liming Yin  Feike A. Dijkstra 《Journal of Agronomy and Crop Science》2019,205(2):157-167

Drought and high temperature are major environmental stress factors threatening wheat production during grain filling stage resulting in substantial yield losses. Four wheat genotypes (Suntop, IAW2013, Scout and 249) were planted under two temperature levels (25 and 30°C) and two water levels (15% and 25% soil moisture content). Wheat yield, leaf δ¹³C, plant rhizodeposition, shoot biomass and root traits were examined. Low moisture (drought stress) and high temperature (heat stress) decreased the grain yield of all wheat genotypes, in particular 249, while combined drought and temperature stresses had the most pronounced negative effect on plant biomass and grain yield. Decreasing soil water availability decreased the allocation of plant‐derived C to soil organic carbon (SOC) and to microbial biomass through rhizodeposition. Leaf δ¹³C decreased with increased yield, suggesting that higher yielding genotypes were less water stressed and allocated less C to SOC and microbial biomass through rhizodeposition. Wheat genotypes with lower root/shoot ratios and thinner roots were more efficient at assimilating C to the grain, while genotypes with higher root/shoot ratios and thicker roots allocated more C belowground through rhizodeposition at the expense of producing higher yield. Therefore, improving these traits for enhanced C allocation to wheat grain under variable environmental conditions needs to be considered.  相似文献   

二倍体、四倍体小麦成熟胚组织培养研究初报   总被引：2，自引：0，他引：2  

毕瑞明  王洪刚 《分子植物育种》2007,5(4):480-484

以栽培二粒小麦(Triticum dicoccum Schuble)、硬粒小麦(Triticum durum Desf.)以及普通六倍体小麦祖先种野生二粒小麦(Triticum dicoccoides Kom.)、野生一粒小麦(Triticum aegilopides Bal.)4个基因型麦属植物成熟胚(MEs)为外植体,对成熟胚愈伤组织诱导、分化及植株再生的组织培养效果做了初步研究,筛选出适合于非六倍体小麦成熟胚组织培养的基因型.结果表明,不同基因型成熟胚愈伤组织的诱导、分化及植株再生差异显著,具有很强的基因型效应和基因型依赖性.其中栽培二粒小麦的成熟胚表现出较好的组织培养特性,它的愈伤组织诱导率、分化率、成苗率以及组培效率分别为95.00%、90.00%、32.40%、27.70%,显著高于其它基因型.二倍体、四倍体小麦成熟胚组织培养特性的研究以及组织培养基因型的筛选,为遗传转化体系的建立、小麦功能基因的分离和克隆,以及小麦分子育种工作奠定了基础.  相似文献   

Endosperm peroxidase electrophoresis patterns to distinguish tetraploid from hexaploid wheats     

M. J. Asins  C. Benito  M. Perez de la Vega 《Euphytica》1981,30(2):389-392

Summary A simple method is proposed to distinguish hexaploid (Triticum aestivum L.) from tetraploid (Triticum turgidum L., durum wheat) cultivated wheats on the basis of peroxidase isozymes coded by genome D. It can also be used as a first step to detect possible contamination by tetraploid genotype mixtures. The peroxidase patterns of endosperm and of embryo plus scutellum found among 349 entries of a durum wheat world basis collection are shown.  相似文献   

Nitrogen Use Efficiency of Spring Wheat Genotypes under Field and Lysimeter Conditions     

Ch. Noulas  P. Stamp  A. Soldati  M. Liedgens 《Journal of Agronomy and Crop Science》2004,190(2):111-118

Lysimeters and neighbouring fields were used from 1998 to 2000 to assess parameters of N use efficiency of three Swiss spring wheat (Triticum aestivum L.) genotypes. An old (Albis), a new (Toronit) and an experimental genotype (L94491) were compared with no and ample (250 kg N ha^?1) N fertilizer supply. N fertilization increased biomass, grain yield and grain N concentration of all genotypes in all years and in both testing systems (field, lysimeters) but only a few genotype × N interactions were observed. Generally, Toronit was superior in producing biomass and grain yield and L94491 in accumulating N in the grain resulting in identical N biomass yields. Albis showed the lowest and Toronit the highest fertilizer recovery, irrespective of the method of calculation (¹⁵N or difference method). The medium yielding L94491 recovered similar amounts of fertilizer N as Toronit, mainly due to the high N concentration in the biomass. The ranking of the genotypes for the investigated traits was similar in both testing systems and results comparable with those reported in the literature, indicating that the lysimeter facility is suitable for investigations of agronomic traits on soil–plant relationships, where a constant recording of the soil properties is required.  相似文献   

Assessing diversity in Triticum durum cultivars and breeding lines for high versus low cadmium content in seeds using the CAPS marker usw47     

Simone Zimmerl  Julia Lafferty  Hermann Buerstmayr 《Plant Breeding》2014,133(6):712-717

Cadmium (Cd) is a toxic heavy metal that occurs naturally in soils. Durum wheat is known to accumulate generally more Cd than other cereal crops. The uptake of Cd in durum wheat is governed by the gene Cdu1, which co‐segregates with several DNA markers, such as the co‐dominant marker usw47 and the dominant marker ScOPC20. A panel of 314 durum wheat cultivars or lines originating from 16 countries or regions were assessed with usw47. The plant material was mainly comprised of cultivars and modern breeding lines. From this set, 165 durum wheat lines were classified as low‐Cd accumulators, 144 high‐Cd accumulators and five were heterogeneous. A smaller subset of 16 cultivars had previously been evaluated for Cd accumulation in replicated field trials. Lines with the high‐Cd allele showed a 2.4‐fold higher Cd content in the seeds than lines with the low‐Cd allele. We also compared the utility of markers usw47 and ScOPC20 as selection tools. Marker‐assisted selection appears as a robust and practicable tool for breeding durum cultivars with low‐Cd content.  相似文献   

Differential tolerance to Fe and Zn deficiencies in wheat germplasm   总被引：3，自引：0，他引：3  

Z. Rengel  V. Römheld 《Euphytica》2000,113(3):219-225

Tolerance to Fe deficiency of wheat genotypes exhibiting differential tolerance to Zn deficiency is not known, even though the relationship between Fe nutrition and differential tolerance of wheat genotypes to Zn deficiency has been hypothesised frequently. In the present experiment, eight Triticum aestivum and two T. turigidum L. conv. durum cultivars were grown in nutrient solution deficient in either Znor Fe. Three indices of tolerance to nutrient deficiency were compared: relative [(-nutrient/+nutrient) × 100] shoot growth, shoot dry weight under nutrient deficiency and relative shoot/root dry weight ratio. Genotypes Aroona, Excalibur, Stilleto and Trident were classified as tolerant to both Zn and Fe deficiency, while durum wheats Durati and Yallaroi were sensitive to Zn deficiency and moderate to sensitive to Fe deficiency. Genotypes Excalibur, Stilleto and Trident come from the same breeding programme and have the common parent (line MEC3 =Sonora64//TZPP/YAQUI54) that could have been the donor of the genes for tolerance to Zn deficiency. When Fe-deficient, all wheat genotypes were severely chlorotic but kept producing shoot and root dry matter at a relatively high rate, making the relationship between the relative shoot growth and the relative leaf chlorophyll content poor. This is the first report of wheat genotypes exhibiting multiple tolerance to Zn and Fe deficiencies. This revised version was published online in July 2006 with corrections to the Cover Date.  相似文献   

Influence of High Shoot and Root-Zone Temperatures on Growth of Three Wheat Genotypes during Early Vegetative Stages   总被引：1，自引：0，他引：1  

I. S. A. Tahir  N. Nakata  T. Yamaguchi  J. Nakano  & A. M. Ali 《Journal of Agronomy and Crop Science》2008,194(2):141-151

High temperatures, whether of shoot or root, are reported to affect shoot and root growth of various plant species. The scanty information available on the differential response of wheat genotypes to high shoot and root‐zone temperatures triggered this investigation to study the response and adaptation of shoot and root growth of three wheat genotypes to high shoot and root‐zone temperatures during early growth stages. Three wheat genotypes; Fang (heat tolerant), Siete Cerros (heat sensitive) and Imam (recent cultivar adapted to a hot irrigated environment) were grown in soil and hydroponically. Three shoot/root‐zone temperatures (23/23, 23/35 and 35/35 °C for the soil experiment and 22/22, 22/38 and 38/38 °C for the hydroponic experiment) were applied at three‐leaf growth stage. High root‐zone temperature alone or combined with high shoot temperature reduced xylem sap flow rate, root dry weight, root length and root/shoot ratio. Unexpectedly, shoot fresh and dry weights and relative growth rate (RGR) were not significantly affected by the high root‐zone temperature except for the susceptible genotype, Siete Cerros, after prolonged exposure in the hydroponic experiment. In contrast, high shoot/root‐zone temperature significantly reduced shoot fresh and dry weights from as early as the first week of the hydroponic experiment. The 38/38 °C treatment also caused significant reduction in RGR and net assimilation rate during the first 2 weeks, but no significant differences were found during the last 2 weeks compared with 22/22 °C. Interesting responses were observed among genotypes in terms of shoot and root dry weights and root/shoot ratio at 38/38 °C treatment. The heat‐sensitive Siete Cerros showed the least reduction in these traits during the first 2 weeks while the heat‐tolerant Fang and Imam responded by greatly reducing their shoot and root weights. The situation was almost reversed with the duration of treatments such that Siete Cerros became the most affected genotype while Fang and Imam were better adapted to high shoot/root‐zone temperature. Specific root weight was the exceptional trait that increased under high temperature treatments. Results indicate that despite the reduction in root length and weight observed under high root‐zone temperature, shoot growth was not much affected suggesting that the use of suitable cultivar coupled with proper management could alleviate most of high root‐zone temperature effects during early growth stages.  相似文献   

Combined Effect of Zinc and Cadmium Levels on Root Antioxidative Responses in Three Different Zinc‐Efficient Wheat Genotypes     

A. Sanaeiostovar  A. H. Khoshgoftarmanesh  H. Shariatmadari  M. Afyuni  R. Schulin 《Journal of Agronomy and Crop Science》2012,198(4):276-285

This work was undertaken to investigate the effect of zinc (Zn) nutrition on root antioxidative responses to cadmium (Cd) toxicity of three wheat genotypes differing in Zn efficiency. A hydroponic experiment was carried out in which two bread wheat genotypes (Triticum aestivum L. cvs. ‘Rushan’ and ‘Cross’) and one durum wheat genotype (Triticum durum L. cv. Durum) were exposed to three Zn²⁺ (10^?11.11, 10^?9.11 and 10^?8.81 μm ) and two Cd²⁺ (10^?11.21 and 10^?10.2 μm ) activity levels. ‘Durum’ showed the highest root sulfhydryl (‐SH) groups content and activity of catalase (CAT), ascorbate peroxidase (APX), and superoxide dismutase (SOD) and the lowest root membrane permeability among the studied wheat genotypes. In ‘Durum’, Zn nutrition increased root ‐SH groups concentration of seedlings in Cd‐free nutrient solution. In ‘Cross’, as Zn²⁺ activity increased from 10^?11.11 to 10^?9.11 μm , root ‐SH groups concentration was increased while decreased with increasing Zn²⁺ to 10^?8.81 μm . Cadmium increased root membrane permeability at both 10^?11.11 and 10^?9.11 μm Zn²⁺ levels. Activity of CAT and APX increased in roots of ‘Durum’ plants exposed to Cd at Zn²⁺ = 10^?9.11 μm and thereafter decreased with increasing Zn²⁺ activity. In contrast, CAT and APX activity in roots of ‘Cross’ and ‘Rushan’ genotypes exposed to Cd decreased by increasing Zn activity to 10^?9.11 μm and then increased at Zn²⁺ = 10^?8.81μm . The results showed an increase in activities of antioxidative enzymes in Cd‐treated plants, although this increase was dependent on the crop genotype and Zn levels in the media.  相似文献   

Agronomical Performance Among Farro Species and Durum Wheat in a Drought-Flat Land Environment of Southern Italy     

A. Troccoli  P. Codianni  G. Ronga  A. Gallo  N. di  Fonzo 《Journal of Agronomy and Crop Science》1997,178(4):211-217

The aim of this study was to evaluate the agronomical performance of old unhuUed wheat species (farro) in comparison with an old cultivar of durum wheat, selected for morphological and rusticity characteristics similar to farro, in a drought-flat land environment of southern Italy. The trials were carried out during the 1992/93 and 1993/94 growing seasons. Agronomical responses concerned the behaviour of the different species to weeding treatment (diclofop-methyl, 568 g a.i, ha⁻¹) and to three (0%, 50%, 100%) artificial weed levels with Avenafatua and Phalaris arundinacea with respect to grain yield and its components, plant morphological aspects and two qualitative characters. In all of the species the weeding treatment increased the mean values of almost all the parameters analysed except for days to head and grain protein content which remained constant. The effect of weed treatment on the characters considered was a general decrease of mean values when weed level was increased. The grain protein content showed an opposite trend. As far as the grain yield alone is concerned, yielding differential in medium and large farro decreased by 3% whereas in small farro it increased by 4.3% vs, durum wheat when no weeding and weeding treatments were compared. Small and large farro resulted more susceptible than medium farro and durum wheat to weed treatment. In fact, these latter showed, at the maximum weed level, the same grain yield loss as small and large farro at the 50% weed level. Small farro was the most susceptible species, while Triticum dicoccum showed similar affinity and behaviour to durum wheat.  相似文献   

不同基因型小麦对低氮胁迫的生物学响应   总被引：3，自引：0，他引：3  

张定一  张永清  杨武德  苗果园 《小麦研究》2006,27(1):1-9

采用溶液培养的方法,研究了不同基因型春小麦(加春1、2、4号)根系对低氮胁迫的生物学响应、小麦苗期氮素吸收、分配的基因型差异以及与根系形态之间的相关关系,结果表明,⑴低氮胁迫下小麦的根重、根长、根条数、根系总吸收面积与活跃吸收面积、根系SOD及POD活性、根系活力均明显降低,但不同基因型间的差异明显。低氮胁迫下加春2号小麦根系具有较好的形态学与生理学性状,并向地上部分配了较大比例的氮素,地上部氮累积量占总氮量的百分率比其它两种基因型分别高7.6%和8.2%,氮的利用率也比其它两种基因型高8.0%和9.9%。加春2号比其它两个基因型更能适应低氮环境胁迫。⑵在低氮胁迫下,春小麦根重、根总长度、根系活力、根系总吸收面积及活性吸收面积与总吸氮量呈显著线性相关,而在高氮水平下无相关关系,表明在氮素胁迫条件下,根系形态对氮吸收率起重要作用。  相似文献   

Environmental correlations among grain yield and other important traits of wheat in drylands     

A. Hadjichristodoulou 《Euphytica》1989,44(1-2):143-150

Summary Environmental correlation coefficients were computed among all pairs of five traits, namely grain yield, heading date, number of tillers per m², plant height and 1000-grain weight (grain size) using 30 Triticum durum and 30 Triticum aestivum varieties grown in 18 environments. Grain yield was significantly correlated with the other four traits in almost all of the varieties. The mean correlation coefficient over all varieties ranged from 0.58 to –0.83 for durum wheat and 0.66 to 0.88 for aestivum wheat. The correlation coefficients between heading date and the other traits were also significant, ranging from –0.45 to –0.79 in durum wheat and –0.61 to –0.85 in aestivum wheat. The correlation coefficient between number of tillers with plant height and 1000-grain weight were the smallest, 0.19–0.32 in durum wheat and 0.39–0.60 in aestivum wheat. It was concluded that agronomic practices favouring early and good stand establishment in the dry regions will favour the yield components and important adaptive traits, which contribute towards larger yields. Significant differences were found among genotypes in the environmental correlation coefficients and the associated changes in one trait as a result of changes in other traits.  相似文献   

Wheat Cellular Membrane Thermotolerance Under Heat Stress     

A. S. Dias  M. G. Barreiro  P. S. Campos  J. C. Ramalho  F. C. Lidon 《Journal of Agronomy and Crop Science》2010,196(2):100-108

Four genotypes of Triticum aestivum L. and Triticum turgidum subsp. durum chosen according to their genetic background diversity were subjected to heat stress after anthesis. Membrane permeability, lipid peroxidation and fatty acids (C14:0, C16:0, C16:1c, C16:1t, C18:0, C18:1, C18:2 and C18:3) were quantified. The estimation of the quantum yield of non‐cyclic photosynthetic electron transport was used as well as a test system to further evaluate the implications on thylakoid functioning. It was found differences within bread and durum wheat species concerning the capability to cope with high temperatures at the stage of grain filling. The genotype Sever showed high thermal sensitivity concerning membrane lipid peroxidation and membrane permeability, as evaluated by the increased production of ethylene and MDA, as well as by the impact on TFA (at the middle term of grain filling). In the durum wheat genotypes, differences were also found, with TE 9306 displaying high membrane stability, with no increases on membrane permeability, MDA and ethylene content. In this way, the observed changes on TFA in this genotype might have constituted a mechanism to allow qualitative lipid changes, reflected in lower unsaturation level of membrane FAs which is a positive trait under high temperatures.  相似文献   

Elongation Rate of Wheat Root Axes     

R. B. Sharma  B. P. Ghildyal 《Journal of Agronomy and Crop Science》1987,159(5):329-334

The elongation rate of seminal root axes for two wheat ( Triticum aestivum L.) genotypes (one gene dwarf Sonalika RR-21 and three gene dwarf UP 301 ) grown in pots under three fluctuating soil water tension regimes of 0.3 to 0.8, 2.0 to 2.5 and 4.0 to 4.5 bars was measured throughout the growing period.
Two distinct peaks were observed for both genotypes. The first peak of highest elongation rate (25.0 to 35.5 mm day⁻¹) for both genotypes occurred during 22–28 days after planting which corresponds to the crown root initiation stage of the crop. The second lower peak (11.2 to 14.5 mm day⁻¹) occurred during 49–60 days after planting for Sonalika RR-21 but 60–72 days for UP 301. The time of occurrence of second peak corresponds to the stem elongation stage.
The elongation rate of root axes differed significantly for different stages and genotypes but when considered over the whole growing season, soil water tension regimes showed no effect. Over a period of 72 days from planting, average elongation rate ranged from 11.3 to 12.7 mm day⁻¹. The elongation rate of root axes bore no consistent relationship with either mean air or soil temperature at 5 and 15 cm depths that prevailed during crop growth period.  相似文献   

Does post‐anthesis heat stress affect plant phenology,physiology, grain yield and protein content of durum wheat in a semi‐arid Mediterranean environment?     

Salvatore L. Cosentino  Emanuele Sanzone  Giorgio Testa  Cristina Patan  Umberto Anastasi  Danilo Scordia 《Journal of Agronomy and Crop Science》2019,205(3):309-323

Increasing air temperature due to changing climate is projected to decrease the length of the growing season, hasten vegetative development and maturation, and ultimately affect yield of many C3 crops. Previous multilocation trials highlighted strong relationships between thermal trends in the interval “beginning of flowering‐end of grain filling” and grain yield, and protein content in durum wheat (Triticum turgidum subsp. durum (Desf.) Husn.). With the aim to confirm these relationships, nine durum wheat genotypes, including old (Capeiti 8, Senatore Cappelli and Trinakria) and modern (Amedeo, Arcangelo, Mongibello, Simeto, and Svevo) varieties and a Sicilian landrace (Russello) were grown at three different sites representing a climate gradient in Sicily, Italy. Moreover, the effect of post‐anthesis heat stress on these durum wheats was further investigated in two contrasting environments: open‐field (control—C) and greenhouse heat stress (HS). HS shortened the interval “beginning‐end of flowering” of 1.5 days across genotypes, and the “end of flowering‐beginning of grain filling” and maturation of 4.9 days, with a range of 1 day in Arcangelo to 11 days in Cappelli. Advances in main phenophases significantly decreased kernel weight (KW) and grain yield (GY), whereas grain protein content (PC) increased. As expected, a negative relationship was observed between GY and PC, while positive relationships were found for GY and grain‐filling duration (GFD), and GY and KW. Genotypes responded differently to heat stress, as evidenced by the net photosynthesis, transpiration rate, instantaneous water use efficiency and dry matter accumulation in kernels. Genotypes were ranked according to the heat susceptibility index (HSI): Amedeo, Arcangelo, Capeiti 8, Svevo and Trinakria resulted heat‐tolerant. These varieties were characterized by an early trigger of dry matter accumulation in kernels under HS (Amedeo, Arcangelo and Trinakria), or showed similar length of the GFD (Capeiti 8) between environments. The multilocation trial confirmed a negative relationship between maximum temperatures and grain yield, and a positive relationship between minimum temperatures and protein content during grain–filling periods. Research focusing on agronomic strategies, phenology and breeding for tolerance to heat stress is of strategic importance to cope with the detrimental effect of global warming in semi‐arid climates.  相似文献