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1.
DALE  J. E. 《Annals of botany》1972,36(5):967-979
Using Proctor barley grown in sand under controlled-environmentconditions it was shown that when application of nitrogen, asnitrate, was delayed beyond day 4, at which time the first leafwas beginning to unfold, absolute and relative growth-ratesof seedlings were reduced so that the young plants were significantlysmaller. Delay in nitrate application led to reduction in length,breadth, area, and dry weight of the first leaf, and also toa lower photosynthetic activity on day 8, as measured by infra-redgas analysis. Measurement of the uptake of 14CO2 by first leaves showed thatapplication of nitrate on days 2 or 4 led to high rates of fixationof carbon over the period days 8–12, whereas applicationon days 6 or 8 led to a substantially lower maximum rate offixation which was maintained for a shorter period. When nitratewas applied on day 8 total fixation of carbon over the perioddays 7–14 was only 60 per cent of that for leaves on plantsfor which nitrate was supplied on day 2. When amounts of carbon fixed were compared on a leaf dry-weightbasis, maximum values were found to be similar for all treatments,suggesting that the differences in fixation per leaf resultmainly from the effect of treatment on leaf area. For all treatmentsit was confirmed that a decline in photosynthetic activity occurredby day 14. This was not correlated with photosynthetic activityin the second leaf, nor with emergence of the third leaf. Analysis of different parts of the lamina of the first leafshowed all to be affected by the timing of the supply, bothin growth and in photosynthetic activity. Leaf dry weight didnot increase after day 8 for any treatment, yet when nitratewas applied on day 8 plants showed a fourfold increase in photosyntheticrate. The significance of this in relation to carboxylationand other resistances in photosynthesis is discussed.  相似文献   

2.
To test whether different nitrogen form (nitrate or ammonium) in substrate can alter the response to elevated partial pressure of CO2 (pCO2) plants of perennial ryegrass (Lolium perenne cv. Bastion) were grown from seeds in growth chambers under pCO2 of either 35 Pa (ambient, CA) or 70 Pa (elevated, CE) in a hydroponic system (with nutrient and pH control) for 24 d. Nitrogen was supplied as ammonium, nitrate or an equimolar mixture of both N forms. Under CE plants grew faster than their counterparts under CA during the first 14 d but after 23 d of cultivation stimulation disappeared. Despite the strong positive effect of mixed forms of N on plant growth, the beneficial effect of CE was similar to that in the other two N treatments. However, the almost alike final growth response to CE had different underlying mechanisms in different N treatments. Plants supplied with nitrate as a sole source of nitrogen had lower leaf mass ratio but much higher specific leaf area compared to plants supplied with ammonium. The decrease in the content of leaf organic N (per unit of structural dry mass) under CE was found only in leaves of plants supplied with ammonium on day 14. Nevertheless, the available form of N evidently contributes to changes of leaf N content under CE. The high levels of N and non-structural saccharides in plants supplied with ammonium at CE suggest that the CO2 response of these plants was controlled by factors other than amount of available carbon and nitrogen.  相似文献   

3.
The effects of 10 mM nitrate on the growth and nitrogenous componentsof Zea mays L. var. W64A wild type (normal) were compared tothose on its opaque-2 (high lysine) mutant during the first10 d of seedling growth at a constant temperature of 26 °Cand with a 16 h photoperiod. Nitrate supply had no effect onthe growth of embryonic axes in both lines till day 6. Growthof both lines was enhanced slightly after that time, however.Increases in 80% (v/v) ethanolsoluble and protein nitrogen werealso observed only after day 4 when the supply of nitrogen fromthe storage proteins in the endosperm was limiting. Nitratehad no effect on the synthesis of chlorophyll during leaf developmentbut it did increase the total chlorophyll in mature and senescingprimary leaves. The increase in nitrogenous components or chlorophyllin opaque-2 was more pronounced than in the normal type. Itmight be related to the lower proline or higher lysine in themutant.  相似文献   

4.
The nitrogen economy of barley plants growing in a range ofirradiances from full shade (less than 0·5 W m–2)to 119 W m–2 has been examined by analysing levels oftotal, organic and nitrate nitrogen, and by determining nitratereductase activity in leaf extracts. It has been confirmed thatroot growth is reduced in low irradiances which are also associatedwith a lower level of total nitrogen in the plant, and hencewith a lower uptake of nitrate. In all parts of the plant thelevel of organic nitrogen is higher in high light intensitybut nitrate-nitrogen as a proportion of the total is greatestin low irradiances. In the first leaf accumulation of free nitrateis substantially greater in low irradiances. The data indicate a higher level of nitrate assimilation inhigh irradiances and nitrate reductase activity in leaf extractsis higher in such conditions. When the first leaf is shadednitrate reductase activity falls to undetectable levels afterabout 4 days, but in the case of the second leaf, where thisis shaded, some reductase activity is always found, althoughthis is substantially less than that in unshaded conditions. It is concluded that in vitro rates of nitrate reduction mayover-estimate nitrate assimilation determined as increase inorganic nitrogen.  相似文献   

5.
Nodulated winged bean [Psophocarpus tetragonolobus (L.) DC., cv. UPS 122] were grown under constant environmental conditions and supplied with mineral nutrient solution in which nitrogen was absent or was present as nitrate (12 mg N week-1 plant-1). Nitrate treatment dramatically promoted plant growth, increased fruit weight 1.6 fold, was necessary for tuberisation and enhanced nodulation. The in vitro accumulation of 14C into asparagine and aspartate components of excised nodules supplied with exogenous 14CO2 and [14C]-D-glucose was greater for nitrate-treated plants, whilst accumulation into ureides was reduced by nitrate treatment. Levels of amino acids in xylem sap were greater for plants supplied with a complete nutrient solution, than those grown without applied nitrate, particularly for asparagine, glutamine and proline. Xylem ureide levels were greater for plants grown in the absence of supplementary nitrate. Nitrogen accumulated in leaf, stem and petiole, and root nodule tissues for utilisation during fruit development; peak nitrogen levels and time of anthesis were retarded for plants grown without applied nitrate. The shoot ureide content increased during fruiting, coincident with decreases in the total nitrogen content, indicating that ureide pools are not utilised during the early reproductive phase. However ureide reserves, particularly allantoin, were utilised during the later stages of pod fill. Enzyme activity which metabolised asparagine was found throughout the plant and was identified as K+-dependent asparaginase (EC 3.5.1.1) and an aminotransferase. Apart from temporal differences in developmental profiles of enzyme activity, the activity of these enzymes and of allantoinase (EC 3.5.2.5) in developing tissues were similar for both treatments. The main differences were greater asparaginase and asparagine:pyruvate aminotransferase activities in root tissues and fruit of nitrate-supplied plants; allantoinase activity in the primary roots of plants grown without nitrate decreased during development, whilst activity in developing tubers (nitrate-supplied plants) increased.  相似文献   

6.
Eggplants (Solanum melongena L. cv. Bonica) were grown in a glasshouse during summer under natural light with one unbranched shoot or one shoot with 3 to 4 branches and with or without fruit in quartz sand buffered and not buffered with 0.5% CaCO3 (w : v), respectively. Nutrient solutions supplied contained nitrate or ammonium as the sole nitrogen source. Compared with nutrient solutions containing nitrate (10 mM), solutions containing ammonium (10 mM) caused a decrease in net photosynthesis of eggplants during early stages of vegetative growth when grown in quartz sand not buffered with CaCO3. The decrease was not observed before leaves showed interveinal chlorosis. In contrast, net photosynthesis after bloom at first increased more rapidly in eggplants supplied with ammonium than with nitrate nitrogen. However, even in this case, net photosynthesis decreased four weeks later when ammonium nutrition was continued. The decrease was accompanied by epinasty and interveinal chlorosis on the lower leaves and later by severe wilting, leaf drop, stem lesions, and hampered growth of stems, roots, and fruits. These symptoms appeared later on plants not bearing fruits than on plants bearing fruits. If nutrient solutions containing increasing concentrations of ammonium (0.5–30 mM) were supplied after the time of first fruit ripening, shoot growth and set of later flowers and fruits were promoted. In contrast, vegetative growth and reproduction was only slightly affected by increasing the concentration of nitrate in the nutrient solutions. In quartz sand buffered with CaCO3 ammonium nutrition caused deleterious effects only under low light conditions (shade) and on young plants during rapid fruit growth. If eggplants were supplied with ammonium nitrogen before bloom, vegetative growth was promoted, and set of flowers and fruit occurred earlier than on plants supplied with nitrate. Furthermore, the number of flowers and fruit yield increased. These effects of ammonium nutrition were more pronounced when plants were grown with branched shoots than with unbranched shoots. The results indicate that vegetative and reproductive growth of eggplants may be manipulated without causing injury to the plants by supplying ammonium nitrogen as long as the age of the plants, carbohydrate reserves of the roots, quantity of ammonium nitrogen supplied, and pH of the growth medium are favourable. T W Rufty Section editor  相似文献   

7.
Isolates of Verticillium albo-atrum, V. dahliae and V. nigrescens grown on media adequately supplied with sodium nitrate induced wilt rather more rapidly in antirrhinum plants growing in soils with a normal and an excessive amount of nitrogen than in plants in nitrogen-deficient soil, though plants became diseased in all soils. Similarly treated isolates of V. nubilum and V. tricorpus induced a greater incidence of wilt in plants in soil supplied with heavy dressings of organic nitrogenous fertilizer than in plants in soil deficient in nitrogen, although V. tricorpus from a medium containing much sodium nitrate, in contrast to V. nubilum , was pathogenic to plants in such deficient soil. The ability of the nitrogen-starved isolates to penetrate the host plant was significantly diminished, and even when wound-inoculated into stems their effect upon the host was much reduced.  相似文献   

8.
Seedlings of Ricinus communis L. were cultivated in quartz sandand supplied with media which contained either different concentrationsof nitrate or ammonium nitrogen and were treated with a lowsalt stress. The concentration of ABA was determined in tissuesand in xylem and phloem saps. Between 41 and 51 day after sowing,abscisic acid (ABA) flows between roots and shoots were modelled.Long-distance transport of ABA was not stimulated under conditionsof nitrate deficiency (0.2 mol m–3). However, when ammoniumwas given as the only N source (1.0 mol m–3), ABA transportin both xylem and phloem was increased significantly. Mild saltstress (40 mol m–3 NaCl) increased ABA transport in nitrate-fedplants, but not in ammonium-fed plants. The leaf conductancewas lowered by salt treatment with both nitrogen sources, butit was always lower in ammonium-fed compared to nitrate-fedplants. A negative correlation of leaf conductance to ABA levelsin leaves or flow in xylem was found only in comparison of ammonium-fedto nitrate-fed plants. Key words: Abscisic acid, ammonium, Ricinus communis, phloem, xylem, transport, nitrate, nitrogen nutrition  相似文献   

9.
Ammonium and nitrate as different forms of nitrogen nutrients impact differently on some physiological and biochemical processes in higher plants. Compared to nitrate, ammonium results in small root and small leaf area, which may contribute to a low carbon gain, and an inhibition on growth. On the other hand, due to (photo)energy saving, a higher CO (2) assimilation rate per leaf area was observed frequently in plants supplied with ammonium than in those supplied with nitrate. These results were dependent not only on higher Rubisco content and/or activity, but also on RuBP regeneration rate. The difference in morphology such as chloroplast volume and specific leaf weight might be the reason why the CO (2) concentration in the carboxylation site and hence the photorespiration rate differs in plants supplied with the two nitrogen forms. The effect of nitrogen form on water uptake and transportation in plants is dependent both on leaf area or shoot parameter, and on the root activity (i.e., root hydraulic conductivity, aquaporin activity).  相似文献   

10.
The contribution of nitrogen reserves to regrowth following defoliation was studied in white clover plants (Trifolium repens cv. Huia). This was found to be closely linked to the morphological pattern of development of the aerial parts during the same period. Low temperature (6 degrees C) and short day exposure (8 h photoperiod) were used to induce dwarf development, i.e. to increase branching rate and to enhance new sites of leaf production during a period of regrowth. Treated plants exhibited a large reduction in leaf area and a large increase in leaf pool size for the first 10 d of a subsequent regrowth under standard culture conditions (16 h daylight; 22/18 degrees C day/night). The contribution of nitrogen from storage compounds in organs remaining after defoliation (sources) to regrowing tissues (sinks) was assessed by 15N pulse-chase labelling during regrowth following shoot removal. The mobilization of nitrogen reserves from storage tissues of regrowing clover was closely linked to the pattern of differentiation of the newly developed organs. It appeared that regrowth was supported less by endogenous N for the first 10 d after defoliation in treated plants, compared with control plants grown continuously in standard conditions. It is assumed that dwarf plants exhibit a lower dependence upon the mobilization of soluble proteins previously accumulated in roots and uncut stolons. The relationship between leaf development rate and N-uptake recovery following defoliation is discussed.  相似文献   

11.
The relative rates of ammonium and nitrate-N uptake and assimilation by creeping bent ( Agrostis stolonifera ), were investigated for plants grown in soil and supplied with three different ratios of ammonium and nitrate-N. Following two preliminary defoliations, plants were supplied with the equivalent of 150 kg N ha−1, given as 15N-(differentially) labelled NH4+ and NO3-N in three different ratios (20:80, 50:50 and 80:20), followed by sequential destructive harvests of shoots and roots at four points during a 35-d regrowth period. Maximum use of labelled nitrogen and 'exhaustion' of soil mineral nitrogen reserves occurred much earlier when plants were supplied with half or more of their nitrogen as ammonium, than occurred when they were supplied predominately with nitrate-N. The lack of consistency in the patterns of ammonium and nitrate-N absorption, however, implied that the plants had no specific preference for either nitrogen form. Supplying plants with different combinations of ammonium and nitrate produced distinctive differences in plant morphology. In the high nitrate treatment, plants preferentially partitioned resources into shoot and stolon formation, whereas in the high ammonium treatment, resources were preferentially partitioned into root production. These changes in plant morphology might be adaptations to aid species survival in environments associated with a predominance of either nitrogen form.  相似文献   

12.
大麦无菌苗的苗高。苗干重和单位长度、叶片切段的干重均依胚培养时所带胚乳的增多而递增。但叶片切段培养时的愈伤组织诱导率和再分化率并不与胚乳多少正相关。成熟胚培养时蔗糖的供应明显影响叶片切段培养时的愈伤组织诱导率。培养带1/2胚乳的胚,用萌发率高的新鲜种子培养无菌苗时,以不供给蔗糖的有较高的叶段愈伤组织诱导率,用萌发率显著降低的陈种子时,则以育苗时供给6%蔗糖为好。  相似文献   

13.
Under poor light conditions, as normally used during winter production of greenhouse vegetables, the nitrate concentration in the shoot of spinach ( Spinacia oleracea L. cv. Vroeg Reuzenblad) showed a diurnal rhythm. This rhythm was mainly caused by a decrease during the day, followed by an increase during the night in the leaf blade nitrate concentration. Nitrate was mainly located in the vacuoles of the leaf blades. A strong correlation was found between net uptake of nitrate by the roots and the nitrate concentration in the leaf blade vacuoles. The nitrate concentration in the leaf blades increased during the initial hours of the night. This increase was caused by a marked increase in the net uptake rate of nitrate by the roots during the first hours of the dark period. During the second part of the night both net uptake rate of nitrate by the roots and the vacuolar nitrate concentration in the leaf blades remained constant.
We conclude that nitrate is taken up for osmotic purposes when light conditions are poor because of a lack of organic solutes. During the night, nitrate influx into the vacuole is needed for replacement of organic solutes, which are metabolized during the night, and possibly also for leaf elongation growth. During the day, vacuolar nitrate may be exchanged for newly synthesized organic solutes and be metabolized in the cytoplasm. A strong diurnal rhythm in nitrate reductase (NR; EC 1.6.6.1.) activity was absent, due to the poor light conditions, and in vitro NR activity was not correlated with nitrate flux from the roots. In vivo NR activity also lacked a strong diurnal rhythm, but it was calculated that in situ nitrate reduction was much lower during the night, so that the major nitrate assimilation took place during the day.  相似文献   

14.
Nitrate reductase activity and protein concentration of two populas clones   总被引:1,自引:0,他引:1  
Nitrate reductase activity and protein percentage of various tree parts of two Populus clones were determined in relation to nitrate ion activity. Nitrogen was supplied as NH(4)NO(3) in a nutriculture system. Wisconsin-5 had significantly greater nitrate reductase activity than Tristis No. 1. Protein percentages of leaf plastochron index 10 leaves (tenth leaf below first leaf lamina exceeding 20 mm in length), bottom leaves, and roots in relation to nitrate ion activity were not appreciably different between clones. The nitrate reductase activity and protein percentage of Tristis No. 1 apex started to level off at the same nitrate ion activity, about 0.09 mm. In Wisconsin-5 apex protein percentage continued to increase at nitrate ion activities where nitrate reductase activity decreases sharply, suggesting that protein nitrogen was being supplied by ammonium ion. The difference in nitrate reductase activity between clones was probably due to genetically determined ability to synthesize nitrate reductase in response to nitrate ion. The expression of nitrate reductase activity was not an index of nitrogen assimilation ability but may be a useful index of growth potential when nitrate ion does not limit nitrate reductase synthesis.  相似文献   

15.
Catasetum fimbriatum is an epiphytic orchid from South America that has been used for 15 years as a model plant for metabolic and developmental studies in our laboratory. In this work, C. fimbriatum plants were aseptically grown with 6 mol m(-3) of either glutamine or inorganic nitrogen forms (NO(3)(-):NH(4)(+) ratios). The highest biomass accumulation was found in plants supplied with glutamine; no significant difference was observed in plants incubated in the presence of inorganic nitrogen sources. Nitrogen assimilation was limited in the presence NO(3)(-) as a sole nitrogen source. C. fimbriatum did not accumulate NO(3)(-) and very low rates of in vivo nitrate reductase activity were observed. Most nitrate reductase activity (70%) was detected in the 2 cm apical roots. Nitrate-treated plants exhibited relatively lower amounts of free amino-N, chlorophyll and free NH(4)(+) contents and higher soluble sugar contents than the NH(4)(+)-treated plants. While shoot glutamine synthetase activity was only slightly affected by nitrogen sources, root glutamine synthetase activity was not modified by any nitrogen form. Glutamate dehydrogenase-NADH activity in shoot tissues was not influenced by any nitrogen source. However, the glutamate dehydrogenase-NADH activity in roots was enhanced when NH(4)(+) tissue contents was augmented by increasing NH(4)(+) in the medium and by the presence of glutamine. Our results strongly suggest that organic nitrogen and NH(4)(+) are probably the most important nitrogen sources to C. fimbriatum plants.  相似文献   

16.
WALLACE  W.; PATE  J. S. 《Annals of botany》1965,29(4):655-671
The extraction and assay of a soluble, NADH-requiring nitratereductase is described. Induction of the enzyme by nitrate isdemonstrated in the roots and shoot of young seedlings and inthe leaves of older, nodulated plants grown without inorganicnitrogen. Induction occurs most readily in actively growingtissues. Studies with sterile cultures of excised roots confirmthe presence of an endogenous enzyme system within the root. Assays of the enzyme in vitro are combined with analyses offree nitrate and organic compounds of nitrogen in the bleedingsap. Either the root or shoot may act as the main centre forreduction of incoming nitrate. The extent to which these organsfunction is apparently influenced by environmental factors,particularly the level of nitrate in the rooting medium. Thediurnal rhythm of export of nitrogenous substances from theroot is correlated with observations on daily fluctuations inthe level of extractable enzyme in root and leaves. The activity of the enzyme is studied in different ages of leafof plants grown on a constant supply of nitrate. Assays suggestthat the enzyme is most active just as a leaf is fully expanded.Thereafter enzyme activity falls sharply, although small amountsof active enzyme may be recovered until a leaf becomes senescent.  相似文献   

17.
Chlorate Toxicity and Nitrate Reductase Activity in Tomato Plants   总被引:3,自引:0,他引:3  
Chlorate damage was studied in tomato plants ( Lycopersicum esculentum cv. Moneymaker) that were supplied with a nitrogen-free nutrient solution or with a nutrient solution, containing either nitrate or ammonium as a nitrogen source. Damage was low in ammonium-fed plants and high in nitrate-fed plants and in nitrogen-less plants. Nitrate reductase activity could be detected in all treatments, although the activity was highest in the nitrate-fed plants.
The hypothesis that chlorate can be used as a substrate by the enzyme nitrate reductase in higher plants, was studied and proved to be true for the tomato plants, as was found earlier for Escherichia and Chlorella . The affinity of the enzyme for chlorate was lower than for nitrate, the K m being 4 m M and 0.15 m M respectively. Induction of the enzyme by chlorate could not be detected. The enzyme activity was lowered in leaf discs after a 7 h treatment with chlorate and the inhibition was proportional to the chlorate concentration of the medium.
The results were discussed in terms of competition between nitrate and chlorate at the uptake and the enzyme site and with regard to a possible influence of chlorate on synthesis and breakdown of the enzyme.  相似文献   

18.
大麦胚和胚乳发育的相关性及贮藏营养物质的积累   总被引:4,自引:0,他引:4  
大麦(Hordeum vulgare L.)开花后1d,见合子及退化助细胞,游离核胚乳尚未形成;开花后2~3d,胚为5及10个细胞,胚乳为游离核期;开花后4及5、6d,胚为梨形及长梨形,胚乳达细胞化期;开花后8d,胚为胚芽鞘期,糊粉层原始细胞产生;开花后10d,胚具1叶,糊粉层1~2层;开花后13d胚为2叶胚,亚糊粉层发生;开花后17d,3叶胚形成,糊粉层多为3层并停止分裂,菱柱形及不规则胚乳细胞分化;开花后21~29d,胚为4叶胚,胚乳进一步分化;开花后33d,胚为5叶成熟胚,胚乳亦成熟。淀粉、蛋白质在胚中积累始于开花后13d。在盾片中由基向顶发生,在胚芽鞘及叶原基中,首先在顶端出现。成熟盾片顶端的淀粉消失。开花后6d,胚乳开始积累淀粉;开花后10d,糊粉层及胚乳细胞积累蛋白质。开花17d后胚乳的蛋白质体多聚集,29d后蛋白质体显著减少。开花后17d,在盾片及糊粉层细胞中检测到油脂。果长或果长与稃片长之比和盾片长可作为不同发育期胚和胚乳的形态指标。  相似文献   

19.
Summary Field trials carried out in 1963 and 1964 have confirmed the ammonia-acidity relationship in the grassSetaria sphacelata. The addition of nitrogenous fertilisers enhanced ammonia accumulation in the grass but not titratable acidity. Sand- and water-culture experiments confirmed the essentially acidic nature ofS. sphacelata and the presence of a relatively highly dissociated acid which was found to be oxalic acid. In these experiments ammonia accumulated inS. sphacelata even when nitrogen was supplied as nitrate alone. Darkening the plants for seven days during growth in the field led to a marked accumulation of ammonia inS. sphacelata particularly when covered during early growth.From the evidence obtained it is concluded thatS. sphacelata is essentially an acid grass and that ammonia accumulation is a consequence of this. The mechanism proposed is that part of the ammonia in the plant, whether derived from direct uptake, nitrate reduction or decomposition (following darkening) of organic nitrogenous compounds, is present as ammonium oxalate. Since plant protoplasts are relatively impermeable to ions ammonium accumulates in the grass. The subsequent decline in concentration in the plant, with increasing maturity, is ascribed to the increase in structural carbohydrates and lignin (a dilution effect) and possible slow utilisation of the ammonium.  相似文献   

20.
The cultivars Akka and Hiproly with high grain nitrogen andJulia and Foma with low grain nitrogen and Proctor containinghigh or low nitrogen were compared. The high nitrogen forms germinated more rapidly and by day 6had a higher axis dry weight than the low nitrogen types. Byday 6 dry weight of tops and roots was similar in the high nitrogencultivars but that of the tops was less in the low nitrogenforms. Analyses of the partition of nitrogen from endospermto axes confirmed that for all types this was maximal after48 h from planting and occurred at a similar relative rate sothat 50 per cent of the endosperm nitrogen was translocatedby 84–96 h from planting. Loss of endosperm dry weightwas much slower and here high nitrogen forms translocated drymatter at a significantly faster relative rate than the lownitrogen types. Nitrate supplied at planting or on day 2 increased the rateof endosperm depletion in the low nitrogen types and resultedin their achieving similar axis dry weights to high nitrogenforms which were largely unaffected by nitrate supply. Delayin nitrate application had progressively less effect on endospermbreakdown. There was a greater uptake of nitrate by the lownitrogen forms and rate of uptake was rapid. Uptake of nitrateby high nitrogen types was initially rapid but was followedby a much slower phase. The results indicate that endogenous and exogenous sources ofnitrogen are equally suitable for seedling growth. The significanceof grain nitrogen content in relation to endosperm breakdownis discussed as is the strategy of partition of endosperm reservesbetween root and shoot.  相似文献   

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