不同供氮量对二月兰产量、土壤无机氮残留及氮平衡的影响

研究华北冬绿肥二月兰对不同供氮水平的响应特征,确定实现绿肥高产高效的土壤适宜供氮量,可为华北集约化农田最大化发挥绿肥生态效应和优化春玉米/冬绿肥轮作体系氮素管理提供理论依据和技术参考.选取多年不施肥试验地设置供氮梯度试验,研究了不同供氮水平对冬绿肥二月兰翻压前地上部生物量累积、氮素吸收、土壤无机氮残留和冬绿肥季土壤氮素平衡的影响.结果表明: 在土壤无机氮含量较低(0～90 cm土层15 kg·hm^-2)条件下,施氮显著提高二月兰生物量和吸氮量.其中,施氮90 kg·hm^-2处理表现最高,绿肥生物量(干质量)和吸氮量分别为2031.0和42.0 kg·hm^-2;土壤无机氮残留量随施氮量增加而增加,且在施氮量高于60 kg·hm^-2后呈现快速增加趋势;随施氮量增加二月兰生长季的表观氮平衡表现出由亏缺到盈余的变化特征,在施氮量为60～90 kg·hm^-2条件下氮收支基本平衡.土壤供氮量(绿肥播前0～90 cm土壤无机氮含量与施氮量之和)与二月兰生物量、吸氮量和绿肥翻压前土壤无机氮含量的关系可以分别用二次、线性加平台和指数方程进行模拟,依据模型计算二月兰生物量最高值(2010 kg·hm^-2)时的播前土壤供氮量和绿肥翻压前土壤无机氮残留量分别是136和78 kg·hm^-2;而在二月兰吸氮量最高值40 kg·hm^-2时,二月兰生物量为1919 kg·hm^-2,相当于最高生物量的95%,绿肥翻压前土壤残留无机氮降低至57 kg·hm^-2,与之对应的播前土壤供氮量为105 kg·hm^-2,该值与目前华北地区优化施氮下玉米收获后土壤残留无机氮推荐含量(100 kg·hm^-2)基本相当.综合考虑绿肥的农学和环境效应,春玉米/冬绿肥轮作体系中二月兰播前土壤供氮量应控制在100～105 kg·hm^-2.     

Effects of nitrogen dioxide and nitrate nutrition on nodulation, nitrogenase activity, growth, and nitrogen content of bean

The influence of nutrient nitrate level (0-20 millimolar) on the effects of NO₂ (0-0.5 parts per million) on nodulation and in vivo acetylene reduction activity of the roots and on growth and nitrate and Kjeldahl N concentration in shoots was studied in bean (Phaseolus vulgaris L. cv Kinghorn Wax) plants. Exposing 8-day old seedlings for 6 hours each day, for 15 days, to 0.02 to 0.5 parts per million NO₂ decreased total nodule weight at 0 and 1 millimolar nitrate, and nitrogenase (acetylene reduction) activity at all concentrations of nitrate. The pollutant had little effect on root fresh or dry weights. Shoot growth was inhibited by NO₂. The NO₂ exposure increased nitrate concentration in roots only at 20 millimolar nutrient nitrate. Exposure to NO₂ markedly increased Kjeldahl N concentration in roots but generally decreased that in shoots. The experiments demonstrated that nutrient N level and NO₂ concentration act jointly in affecting nodulation and N fixing capability, plant growth and composition, and root/shoot relationships of bean plants.     

氮锌硒肥配合施用对白三叶的固氮作用与氮转移的影响

在湖北省宜昌县百里荒草场山地黄棕壤上配合施用氮锌硒肥,研究其对混播白三叶,混播黑麦草及单播黑麦草的干重及混播白三叶的固氮作用和氮转移的影响,试验结果表明：（1）氮锌硒肥配合施用,混播黑麦草的干重均高于相应处理的单播黑麦草,混播牧草和单播黑麦草重最高的处理都是N46Zn0Se5,其干重辚25．38 g／盆和19．93g/盆。（2）施氮对混播白三叶,混播黑麦草及单播黑麦草的生长有明显的促进作用,施锌,硒对混播白三叶,混播黑麦草及单播黑麦草的生长作用不明显。（3）混播白三叶氮素的主要来源是固氮作用,占全氮产量的57．6000％－77．258％。（4）混播白三叶固定氮的转移量只占混播黑麦草的全氮产量的0．316％－12．251％,通过正交方差分析发现,适量氮肥（N30mg/kg)促进固定氮的转移,高量氮肥（N46mg/kg)抑制固定氮的转移。     

Growth, nutrition, and nitrogen fixation in grey alder at varied rate of nitrogen addition

Seedlings of grey alder (Alnus incana Moench), nodulated or unnodulated, were investigated at varied relative addition rate of nitrogen. Nitrogen fixation alone, without addition of mineral nitrogen, resulted in an almost optimum nitrogen status but only about half the maximum relative growth rate, probably mainly because of energy costs of nodulation and fixation. The growth deficit due to nodulation was much more than can be explained by the theoretical energy requirement for the amount of nitrogen fixed. Thus, the nitrogen fixation process was not very efficiently used. The nitrogen fixation rate was strongly stimulated by increasing nitrogen addition rate up to high levels. The fixation rate decreased rapidly close to optimum (maximum relative growth rate) and was negligible at maximum growth. A feed-back of mineral nitrogen on photosynthesis increased fixation rate with time, and the relative importance of fixation over mineral nitrogen nutrition increased. However, nitrogen fixation, also at maximum rate, supplied only a small proportion of the nitrogen amount required for maximum growth. The optimum nutrient solutions contained comparatively high nitrogen concentrations to secure free access to nitrogen. The nodules were damaged by this treatment, and it is concluded that the nitrogen additions must be adjusted to the current consumption of the plants to avoid an increased external nitrogen concentration. Strong linear regressions were found between relative growth rate, nitrogen status expressed as percentage content of fresh weight, and relative growth rate in unnodulated seedlings. There was a greater variability in nodulated seedlings than in unnodulated ones, because of the nitrogen fixation. The reactions of unnodulated grey alder were largely the same as previously reported for birch seedlings, but the maximum growth capacity was lower in grey alder. During an initial period of change in the internal nitrogen status, deficiency symptoms appeared, especially in unnodulated seedlings. As in birch, the leaves turned green again at stable nitrogen status, independent of level. The results are in sharp contrast to data from the literature where the external nitrogen concentration was used as the driving variable for the internal nitrogen status. The measured fixation rates for grey alder are much higher than those previously reported. Still, the maximum fixation rate observed is small compared to the total nitrogen uptake rate required for maximum growth, in contrast to reported relationships. These comparisons indicate that increased external nitrogen concentration obscures the real relations between mineral and fixed nitrogen, on one hand because of rapid inhibition of nitrogen fixation and, on the other hand, because of failure to obtain stable optimum nutrition and maximum growth by means of this treatment variable.     

施用氮肥对油用牡丹叶片氮素吸收积累与籽粒品质的影响

利用田间栽培试验,研究0 (对照)、18、24和30 g N·m^-2 4个氮肥用量对油用牡丹“凤丹”叶片氮素吸收转运以及籽粒产量和品质的影响.结果表明: 施用氮肥处理牡丹株高、冠幅、花径和花干质量与对照相比均显著增加,其中,24和30 g·m^-2氮肥处理株高比对照分别增加14.7%和15.2%.施用氮肥提高了牡丹籽粒的相关指标,24和30 g·m^-2氮肥处理籽粒产量达到最大,分别比对照增加15.2%和15.4%.施用氮肥明显增加了叶片氮素积累量、叶片氮素转移量和籽粒氮素积累量.其中,24 g·m^-2氮肥处理叶片氮素对籽粒贡献率最大.与对照相比,施用氮肥明显提高了籽粒蛋白氮、总氨基酸,以及部分饱和脂肪酸和不饱和脂肪酸的含量.在本试验条件下,施氮量为24 g N·m^-2时,叶片积累氮素向籽粒的转移量、转移率和贡献率均达到较高水平,籽粒产量较高,并且蛋白氮、氨基酸含量和不饱和脂肪酸含量也相对较高.     

Photosynthesis, photorespiration and nitrogen metabolism

Abstract. The ATP and reduced ferredoxin generated in photosynthetic reactions in the chloroplast are utilized for a large number of reactions other than CO₂-fixation. Quantitatively the most important reaction is the reassimilation of ammonia liberated during photorespiration in C₃ plants via the glutamate synthase cycle. Chloroplasts are also able to reduce nitrite to ammonia, sulphate to sulphide, and synthesize a number of amino acids. The amino acids essential for human nutrition are all synthesized in the chloroplast and evidence is presented to suggest that they may be the sole site of such biosynthetic reactions.     

Seasonal flooding,nitrogen mineralization and nitrogen utilization in a prairie marsh

Flooding can be an important control of nitrogen (N) biogeochemistry in wetland ecosystems. In North American prairie marshes, spring flooding is a dominant feature of the physical environment that increases emergent plant production and could influence N cycling. I investigated how spring flooding affects N availability and plant N utilization in whitetop (Scolochloa festucacea) marshes in Manitoba, Canada by comparing experimentally spring-flooded marsh inside an impoundment with adjacent nonflooded marsh. The spring-flooded marsh had net N mineralization rates up to 4 times greater than nonflooded marsh. Total growing season net N mineralization was 124 kg N ha^–1 in the spring-flooded marsh compared with 62 kg N ha^–1 in the nonflooded marsh. Summer water level drawdown in the spring-flooded marsh decreased net N mineralization rates. Net nitrification rates increased in the nonflooded marsh following a lowering of the water table during mid summer. Growing season net nitrification was 33 kg N ha^–1 in the nonflooded marsh but < 1 kg N ha^–1 in the spring-flooded marsh. Added NO₃ ^–1 induced nitrate reductase (NRA) activity in whitetop grown in pot culture. Field-collected plants showed higher NRA in the nonflooded marsh. Nitrate comprised 40% of total plant N uptake in the nonflooded marsh but <1% of total N uptake in the spring-flooded marsh. Higher plant N demand caused by higher whitetop production in the spring-flooded marsh approximately balanced greater net N mineralization. A close association between the presence of spring flooding and net N mineralization and net nitrification rates indicated that modifications to prairie marshes that change the pattern of spring inundation will lead to rapid and significant changes in marsh N cycling patterns.     

Relationships among nitrogen accumulation, nitrogen assimilation and plant growth in chrysanthemums

Relationships among growth, N accumulation and assimilation were investigated in Chrysanthemum morifolium Ramat cv. Fiesta in experiments testing the effects of varying levels of NO^–3₃supply and of increasing NH⁺₄ added to a constant level of NO^–3₃ Flowing solution culture systems were used to provide NO^?₃at concentrations of 0.03 to 5.0 mol m^–3 and NH⁺₄ levels from 0.05 to 0.3 mmol m^–3 added to 0.1 mol m^–3NO^?₃. Rates of growth, N absorption, accumulation, distribution and utilization were estimated by regression analysis of data obtained from sequential plant harvests, and rates of NO^?₃ and NH^?₄ net uptake were estimated from solution depletion. A sustained ambient NO^?₃ concentration of 0.03 mol m^–3 was evidently adequate to support growth, since relative growth rates were not affected by increasing NO^?₃ supply from 0.03 to 1.0 mol m^–3, nor from 0.25 to 5.0 mol m^–3, in separate experiments. Shoot growth rates were stimulated by NH₄ added to NO^?₃ one experiment, but not when the experiment was repeated under ambient conditions less favorable to growth. Relative accumulation rates for total N increased with increasing NO^?₃ and with NH⁺₄added to NO^?₃ A constant proportion of NO^?₃ taken up was reduced when NO^?₃ alone was supplied. Both the proportion of total N taken up as NO^?₃ and the proportion of NO^?₃ reduced decreased with increasing NH⁺₃ added to NO^?₃ NH⁺₄ uptake apparently must exceed a threshold of about 30% of the total uptake to inhibit NO^?₃ uptake. Utilization of N in chrysanthemum was apparently limited by redistribution since relative accumulation rates for total N were equal to or greater than relative growth rates, in contrast to results reported for several other species. Results of this study and other information support the postulate that NH⁺₄ added to NO^?₃might stimulate growth by increasing transport of reduced N from roots to shoots, thus increasing the supply of reduced N available to support growth of shoot meristems.     

Integrated nitrogen,carbon, and water relations of a xylem-tapping mistletoe following nitrogen fertilization of the host

Xylem-tapping mistletoes transpire large volumes of water (E) while conducting photosynthesis (A) at low rates, thus maintaining low instantaneous wateruse efficiency (A/E). These gas-exchange characteristics have been interpreted as a means of facilitating assimilation of nitrogen dissolved at low concentration in host xylem water; however, low A/E also results in substantial heterotrophic carbon gain. In this study, host trees (Juniperus osteosperma) were fertilized and gas exchange of mistletoe (Phoradendron juniperinum) and host were monitored to determine whether mistletoe A/E would approach that of the host if mistletoes were supplied with abundant nitrogen. Fertilization significantly increased foliar N concentrations (N), net assimilation rates, and A/E in both mistletoe and host. However, at any given N concentration, mistletoes maintained lower A and lower A/E than their hosts. On the other hand, when instantaneous water-use efficiency and A/N were calculated to include heterotrophic assimilation of carbon dissolved in the xylem sap of the host, both water-use efficiency and A/N converged on host values. A simple model of Phoradendron carbon and nitrogen budgets was constructed to analyze the relative benefits of nitrogen- and carbonparasitism. The model assumes constant E and includes feedbacks of tissue nitrogen concentration on photosyn-thesis. These results, combined with our earlier observation that net assimilation rates of mistletoes and their hosts are approximately matched (Marshall et al. 1994), support part of the nitrogen-parasitism hypothesis: that high rates of transpiration benefit the mistletoe primarily through nitrogen gain. However, the low ratio of A/E is interpreted not as a means of acquiring nitrogen, but as an inevitable consequence of an imbalance in C and N assimilation.This research was supported by the National Science Foundation (grants BSR-8706772 and 8847942).     

水氮供应对夏棉产量、水氮利用及土壤硝态氮累积的影响

通过田间试验,研究了黄淮地区水氮供应对夏棉生长、产量及水氮利用效率的影响,探索在保证产量的同时提高水氮利用效率、减少农田水氮排放的管理模式.试验设置5个氮素水平(0、60、120、180、240 kg·hm^-2,分别记为N₀、N₁、N₂、N₃、N₄)和3个灌水水平(滴灌,灌水定额30、22.5、15 mm,分别记为I₁、I₂、I₃),使用裂区设计,主区为氮用量,裂区为灌水水平,共15个处理,3次重复.结果表明: 氮素和水分施用对夏棉生长和产量都有明显促进作用,但氮素影响更显著,是该地区调控夏棉生长和籽棉产量的主要因素.随着施氮量和灌水量的增加,花铃期生殖器官积累量、地上部干物质积累量和籽棉产量在开始阶段都逐步增加,当施氮量超过180 kg·hm^-2时,进一步增施氮肥会导致生殖器官积累量、地上部干物质积累量和籽棉产量减小.籽棉产量在N₃I₁处理达到最大,为4016 kg·hm^-2.增加施氮量能显著提高地上部总吸氮量和茎叶含氮量,但会降低氮肥偏生产力.灌溉水利用效率和田间水分利用效率分别在N₃I₃和N₃I₁处理最大,分别为5.40和1.24 kg·m^-3.随着施氮量的增加,土壤硝态氮含量明显增加,且硝态氮累积区域有下移趋势.综合考虑对地上部干物质积累、产量、水氮吸收利用及土壤硝态氮累积等的影响,N₃I₁处理可作为试验区夏季棉花生产的最优水氮管理方案.     

氮素营养对药用菊花氮代谢及产量品质的影响

采用盆栽试验,以药用菊花为供试材料,选用酰胺态氮[CO(NH_2)_2-N]、硝态氮(NO_3~--N)和铵态氮(NH_4~+-N)为供试氮肥,分别设定3个氮素水平,采用L9(34)正交设计,研究氮素营养对药用菊花氮代谢、产量和品质的影响。结果表明:氮素形态对药用菊花氮代谢、产量和品质的影响存在较大差异。酰胺态氮和硝态氮混合施用时药用菊花单株花序干重最大,铵态氮对菊花叶片NR活性、游离氨基酸、可溶性蛋白以及花序中绿原酸含量的影响较大,酰胺态氮对菊花叶片GS活性和花序中总黄酮含量的影响大于铵态氮和硝态氮,硝态氮对菊花花序木犀草苷含量的影响最大;处理5即施酰胺态氮1.5 g·pot~(-1)、铵态氮1.5 g·pot~(-1)、硝态氮3.0 g·pot~(-1)、总氮量6.0 g·pot~(-1)时,菊花花序中3,5-O-双咖啡酰基奎宁酸含量高于缺氮处理近1倍。可见,氮素营养可提高药用菊花氮代谢关键酶活性和氮代谢产物,提高药用菊花成分含量和单株花序干重。     

Carbon and nitrogen isotope ratios, nitrogen content and heterotrophy in New Zealand mistletoes

The carbon isotope ratio ('¹³C) of New Zealand mistletoes (-29.51ǂ.10‰) and their hosts (-28.89ǂ.12‰) is generally more negative, and shows less difference between mistletoes and their hosts, than found in previous studies. In 37% of the examined pairs, the '¹³C of mistletoes was less negative than that of their hosts. These reversals were not associated with the relative position (proximal or distal) of the host material with regard to the mistletoe. Differences between host and mistletoe tended to be greater on hosts with less negative '¹³C. Both nitrogen content and isotope ratio ('¹⁵N) of the mistletoe leaves were strongly correlated with those of their hosts. Nitrogen contents of mistletoe leaves were similar to those of their hosts at low nitrogen contents but proportionately less on hosts with a high nitrogen content, whereas '¹⁵N of mistletoes was consistently similar to that of their hosts. The '¹³C of mistletoes was related to both host nitrogen content and '¹⁵N, but '¹³C in host tissue was related to neither, suggesting that the mistletoes derived both nitrogen and carbon from their hosts. The '¹³C of both hosts and mistletoes were significantly related to leaf conductance and carbon dioxide concentration but relationships with transpiration and water use efficiency were not significant. In all cases there was no clear separation between the responses of hosts and mistletoes. This may be related to the similarity of stomatal conductance, transpiration and photosynthesis in the studied mistletoes and their hosts and is consistent with the small differences in '¹³C between mistletoes and hosts found in this study. Consequently, the estimation of mistletoe heterotrophy from carbon discrimination is confounded, as the small difference between host and mistletoe carbon discrimination could equally well result from either similarities in photosynthesis and water relations or heterotrophic assimilation of host-derived carbon. The differences between our study and previous studies (which are mostly from seasonally dry or semi-arid to arid environments) may be related to the temperate environment in which these mistletoes grow. Water is freely available so that the mistletoe is able to obtain sufficient water and dissolved nutrients without having to maintain the high transpiration rate and low water potentials that are needed to extract water from a water-stressed host. Similarly, mistletoe photosynthesis is less inhibited by water stress. The physiological similarities between mistletoe and hosts from a temperate environment are reflected in their similar '¹³C values.     

光强和氮源及其浓度对缺刻缘绿藻生长、油脂和花生四烯酸积累的影响

对缺刻缘绿藻（Parietochloris incisa（Reisigl） S.Watanabe）在不同光强和氮源及其浓度条件下的生长状况及油脂和花生四烯酸（AA）的积累规律进行了研究。结果显示,缺刻缘绿藻在3种氮源条件下均能较好地生长。在高氮浓度条件下,增大光强能显著提高缺刻缘绿藻的生物量并促进油脂和AA的积累。缺刻缘绿藻在300 μmol·m^-2·s^-1光强、8.8 mmol·L^-1NaNO₃条件下生物量达到最大（4.17 g·L^-1）。油脂含量在100 μmol·m^-2·s^-1光强、1.0 mmol·L^-1氮浓度下达到最高,分别为41.17%（NaNO₃）、42.04%（NH₄HCO₃）和39.96%（CO（NH₂）₂）。AA绝对含量在300 μmol·m^-2·s^-1光强、2.9 mmol·L^-1 NaNO₃条件下达到最高,占细胞干重的16.44%。油脂和AA产率,在300 μmol·m^-2·s^-1光强、以NaNO₃为氮源的条件下达到最大,分别为134.6 mg·L^-1·d^-1（1.0 mmol·L^-1）和35.85 mg·L^-1·d^-1（2.9 mmol·L^-1）。综合考虑成本等因素,选择NH₄HCO₃（5.9 mmol·L^-1）和CO（NH₂）₂（2.9 mmol·L^-1）为氮源、在300 μmol·m^-2·s^-1高光强下培养缺刻缘绿藻进行AA的生产为最优方案。     

Global patterns of foliar nitrogen isotopes and their relationships with climate, mycorrhizal fungi, foliar nutrient concentrations, and nitrogen availability

Ratios of nitrogen (N) isotopes in leaves could elucidate underlying patterns of N cycling across ecological gradients. To better understand global-scale patterns of N cycling, we compiled data on foliar N isotope ratios (δ¹⁵N), foliar N concentrations, mycorrhizal type and climate for over 11 000 plants worldwide. Arbuscular mycorrhizal, ectomycorrhizal, and ericoid mycorrhizal plants were depleted in foliar δ¹⁵N by 2‰, 3.2‰, 5.9‰, respectively, relative to nonmycorrhizal plants. Foliar δ¹⁵N increased with decreasing mean annual precipitation and with increasing mean annual temperature (MAT) across sites with MAT ≥ −0.5°C, but was invariant with MAT across sites with MAT < −0.5°C. In independent landscape-level to regional-level studies, foliar δ¹⁵N increased with increasing N availability; at the global scale, foliar δ¹⁵N increased with increasing foliar N concentrations and decreasing foliar phosphorus (P) concentrations. Together, these results suggest that warm, dry ecosystems have the highest N availability, while plants with high N concentrations, on average, occupy sites with higher N availability than plants with low N concentrations. Global-scale comparisons of other components of the N cycle are still required for better mechanistic understanding of the determinants of variation in foliar δ¹⁵N and ultimately global patterns in N cycling.     

不同氮磷钾施肥方式对水稻碳、氮累积与分配的影响

基于我国南方双季稻区20年长期田间定位施肥试验,研究了不同氮磷钾施肥方式对水稻碳、氮积累与分配的影响.结果表明:偏施氮肥处理水稻籽实的碳、氮含量最高,分别达到433和18.9 g·kg-1.水稻植株的碳、氮储量以氮磷钾平衡施肥(NPK)及氮磷钾基础上有机物料循环施肥处理(NPKC)最高,其中NPKC和NPK处理籽实碳储量分别为2015和1960kg hm-2,茎叶碳储量分别为2048和2002 kg·hm-2;籽实氮储量分别为80.6和80.5kg·hm-2,茎叶氮储量则以NPK处理最高,为59.3 kg·hm-2.有机无机肥的配合施用显著增加了水稻植株体内碳和氮的累积;与偏施氮肥处理相比,氮磷钾的综合施用更利于水稻生长过程中碳、氮的累积与分配.     

施氮和肥料添加剂对水稻产量、氮素吸收转运及利用的影响

在苏南太湖地区开展田间试验,研究了施氮和肥料添加剂对水稻产量、氮素吸收转运及利用的影响.结果表明:施氮对水稻产量、各生育时期植株累积吸氮量、阶段氮累积量和花后氮素转运量具有显著的促进作用(P＜0.01),当施氮量高于200 kg·hm-2时,增施氮肥的增产效应不显著(P＞0.05);花后氮素转运率和氮肥利用率均随施氮量的增加而降低.施用肥料添加剂可进一步提高水稻产量、累积吸氮量、花后氮素转运量和氮肥利用率,且该效应在高施氮量( ≥200 kg·hm-2)条件下表现更明显.本试验条件下不施用肥料添加剂时,施氮150kg·hm-2可同时获得较高的产量和氮肥利用率.