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1.
Estimation of soil organic carbon (SOC) pools and fluxes bears large uncertainties because SOC stocks vary greatly over geographical space and through time.Although development of the U.S.Soil Survey Geographic Database (SSURGO),currently the most detailed level with a map scale ranging from 1:12 000 to 1:63 360,has involved substantial government funds and coordinated network efforts,very few studies have utilized it for soil carbon assessment at the large landscape scale.The objectives of this study were to 1) compare estimates in soil organic matter among SSURGO,the State Soil Geographic Database (STATSGO),and referenced field measurements at the soil map unit;2) examine the influence of missing data on SOC estimation by SSURGO and STATSGO;3) quantify spatial differences in SOC estimation between SSURGO and STATSGO,specifically for the state of Louisiana;and 4) assess scale effects on soil organic carbon density (SOCD) estimates from a soil map unit to a watershed and a river basin scale.SOC was estimated using soil attributes of SSURGO and STATSGO including soil organic matter (SOM) content,soil layer depth,and bulk density.Paired t-test,correlation,and regression analyses were performed to investigate various relations of SOC and SOM among the datasets.There were positive relations of SOC estimates between SSURGO and STATSGO at the soil map unit (R2=0.56,n=86,t=1.65,P=0.102;depth:30 cm).However,the SOC estimated by STATSGO were 9%,33% and 36% lower for the upper 30-cm,the upper 1-m,and the maximal depth (up to 2.75 m) soils,respectively,than those from SSURGO.The difference tended to increase as the spatial scale changes from the soil map unit to the watershed and river basin scales.Compared with the referenced field measurements,the estimates in SOM by SSURGO showed a closer match than those of STATSGO,indicating that the former was more accurate than the latter in SOC estimation,both in spatial and temporal resolutions.Further applications of SSURGO in SOC estimation for the entire United States could improve the accuracy of soil carbon accounting in regional and national carbon balances. 相似文献
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增硝营养对不同基因型水稻苗期硝酸还原酶活性及其表达量的影响 总被引:2,自引:0,他引:2
利用控制条件下的溶液培养方法,研究了增硝营养(NH4+∶NO3-比例为100∶0和50∶50)对两种不同的基因型水稻南光和云粳苗期生长和硝酸还原酶(NR)活性及基因表达量的影响。结果表明,不同基因型水稻在增NO3-营养下生物量、氮素含量、氮积累量的增幅南光大于云粳。NO3-的存在增强了水稻硝酸还原酶的活力和NR基因OsNia1、OsNia2的表达。不同基因在水稻幼苗中,两个品种OsNia2的相对表达量均高于OsNia1。就品种而言,无论叶片还是根系,增硝后南光OsNia2mRNA表达量都高于云粳;南光叶片OsNia1mRNA表达量也较云粳叶片高。增硝营养提高了水稻NR基因的表达,增加了NR活性,促进了水稻NO3-的同化利用,从而增加了氮素在植株地上部的积累同化。南光和云粳相比,前者对NO3-的响应更为强烈。 相似文献
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氮素形态对樱桃番茄果实氮素和有机酸代谢的影响 总被引:1,自引:0,他引:1
Cherry tomatoes(Lycopersicon esculentum Mill.,cv.hongyangli) were hydroponically cultivated in a greenhouse to determine the effect of different nitrogen(N) forms on organic acid concentration and the activities of related enzymes involved in nitrogen and organic acid metabolism during cherry tomato fruit development.The results showed that fruit nitrate reductase(NR) activity was much higher following treatment with 100% NO 3 and 75% NO 3 + 25% NH + 4 than with 100% NH + 4 except at maturity.Glutamine synthetase(GS) activity trended downward during fruit development under all three treatments.Plants fed 100% NH + 4 had the lowest fruit citrate and malate levels at maturity,with the highest malate concentration at an early stage.The activity of phosphoenolpyruvate carboxylase(PEPC) was found to be in accord with the malate concentration with every N source.Under all three N forms,the citrate synthase(CS) activity peaked one week before the citrate concentration. 相似文献
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硝态氮和铵态氮供应比例对雷竹碳、氮、磷化学计量的影响 总被引:3,自引:1,他引:2
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增铵营养对低温胁迫下棉花幼苗氮代谢的影响 总被引:8,自引:3,他引:5
【目的】探明增铵营养提高棉花幼苗抗低温胁迫能力的机制。【方法】以棉花新陆早13号为供试品种,在人工气候室内模拟不同温度处理(15℃和25℃),研究了不同铵硝态氮配比(NH4+-N/NO3--N分别为0/100、25/75、50/50、75/25、100/0)对低温(15℃)胁迫下棉花苗期生长、氮素吸收量及氮代谢相关酶活性的影响。【结果】常温条件(25℃)下,较单一铵、硝营养,铵硝混合营养显著提高棉苗各器官的生物量,地上部和根系干物质量在NH4+-N/NO3--N比为50/50处理时最大,单一铵营养处理时最小;对棉苗生物量的影响效果表现出铵硝混合营养处理优于单一铵、硝营养处理。低温胁迫(15℃)后棉苗各器官生物量减小,且差异显著。常温和低温条件下,随着营养液中NH4+-N比例增加,棉苗全氮含量逐渐递增,氮素吸收量先升后降;棉苗根系、茎秆及叶柄内硝态氮含量呈明显降低趋势;棉花幼苗叶片NR活性明显减小,相反,GS和GOGAT活性则极显著提高。常温处理下棉苗各器官的氮素累积量显著高于低温胁迫处理,低温抑制了棉苗对硝态氮的吸收,降低NR、GS和GOGAT活性。【结论】低温胁迫下,增铵营养可显著提高氮素养分含量,促进棉苗生长,同时通过提高GS、GOGAT等氮代谢相关酶活性,维持氮代谢平衡,增强棉花幼苗对低温的抗性。 相似文献
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A growth experiment on agar medium and a hydroponics experiment were carried out to study the nitrogen (N) metabolism of a low-N tolerant mutant (lnt1) of Arabidopsis thaliana under different N levels as compared with the wildtype (WT) Arabidopsis. On the agar medium, no apparent growth differences were observed between the lnt1 and WT plants under a normal N level of 9 mmol L-1 NO3-. However, under a low N level of 0. 18 mmol L-1 NO3-, the growth of the WT plants was greatly retarded, while the lnt1 plants were not affected by low-N stress and showed similar growth with those grown under a normal N level. In the hydroponics experiment, the lnt1 mutant had higher activities of glutamine synthetase (GS) and NADH-dependent glutamate synthase (NADH-GOGAT) in both leaves and roots under N-deficient conditions. Moreover, they accumulated less ammonium (NH4+) but more free amino acids in leaves compared with the WT plants. These observations suggest that better N assimilation might contribute to the low-N tolerant phenotype of the lnt1 mutant. 相似文献
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ACC对不同氮效率油菜生长后期硝态氮再利用的调控机理 总被引:1,自引:1,他引:0
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不同基因型水稻苗期氮营养特性差异及综合评价 总被引:7,自引:0,他引:7
氮肥过量施用,不仅造成氮肥大量流失,还增加了农业生产成本,对生态环境带来了巨大的威胁。筛选氮高效基因型水稻品种是提高氮素利用效率、降低环境污染的有效途径。本文利用营养液培养方法,研究了55个水稻品种(系)在相同供氮水平(40 mg·L~(-1))、不同供氮形态(NH_4~+-N和NO_3~–-N)条件下苗期吸收与积累氮素的差异。并采用隶属函数法将评价指标进行标准化,基于氮效率综合值,运用分层聚类热图分析,进行55个水稻品种氮效率类型的划分,为氮高效水稻品种的筛选提供依据。在NH_4~+-N和NO_3~–-N培养下,不同水稻品种的整株生物量、茎叶生物量、根系生物量、根系氮含量、茎叶氮累积量差异性显著,变异系数分别在0.69~0.80和0.57~0.74之间。通过因子分析发现,在NH_4~+-N和NO_3~–-N培养条件下的主成分情况相同,第1主成分由整株生物量、茎叶生物量、根系生物量、整株氮累积量、茎叶氮累积量、根系氮累积量决定,主要为反映植株的生物量及氮素累积量指标;第2主成分由不同器官的氮含量决定。综合水稻苗期氮素吸收累积变异特征及因子分析,将整株生物量、茎叶生物量、根系生物量、茎叶氮累积量作为水稻苗期氮高效综合评价指标。根据隶属函数法计算出的氮效率综合值和采用欧氏距离平方拟合的分层聚类热图,55个供试水稻品种可分为氮高效型、氮中效型、氮低效型3大类,分别占供试品种总数的10.91%、27.27%、61.82%。在NH_4~+-N和NO_3~–-N供应条件下,初步确定‘广两优3905’、‘甬优9号’、‘中籼2503’、‘Ⅱ优602’、‘两优766’和‘深两优1813’为氮高效型品种。 相似文献
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Salt-affected soils are agricultural and environmental problems on a global scale. Plants suffer from saline stresses in these soils and show nitrogen (N) deficiency symptoms. However, halophytes grow soundly under saline conditions. In order to clarify the N nutrition of the halophyte Salicornia bigelovii, it was grown at several N levels (1, 2, 3, and 4 mmol L-1), supplied in the form of NO3- or ammonium (NH4+), under high NaCl conditions (200 mmol L-1). NH4+-fed plants showed better growth than NO3--fed plants at 1-3 mmol L-1 N, and plants in both treatments showed the same growth at 4 mmol L-1 N. Nitrogen contents in NO3--fed plants increased with the N concentrations in solution; competitive inhibition of NO3- absorption by Cl- was observed under lower N conditions. In addition, shoot dry weight was significantly correlated only with shoot N content. Therefore, growth of NO3--fed plants was regulated by N absorption. Inc ontrast, N contents of shoots in NH4+-fed plants did not change with N concentration. Shoot Na content decreased with increasing N concentration, while K content increased. Dry weight was highly correlated only with K content in NH4+-fed plants. These observations indicated that growth of NH4+-fed plants was mainly regulated by K absorption. 相似文献
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蘖穗氮肥追施比例对水稻灌浆成熟期 Rubisco 和 GS 同工型基因表达量的影响 总被引:3,自引:0,他引:3
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铁和不同形态氮素对玉米植株吸收矿质元素及其在体内分布的影响 Ⅱ.对铁、锰、铜、锌等营养元素的影响 总被引:5,自引:0,他引:5
用营养液培养方法研究了铁和两种形态氮素对玉米植株吸收铁、锰、铜、锌等微量元素及其在体内分布的影响。结果表明:与硝态氮(NO3--N)相比,铵态氮(NH4+-N)显著提高了玉米对铁的吸收,降低了对锰、铜及锌的吸收。供铁也明显提高了植株地上部铁的吸收总量,降低了锰及锌的吸收量,尤其是在供应No3--N时这种作用更为明显。在缺铁条件下,NH4+-N处理的玉米新叶中铁的含量明显高于NO3--N处理;而新叶、老叶、茎中锰、锌、铜含量以及根中锰、锌含量都明显低于NO3--N处理。但使用NH4+-N时,根中铜的含量较高。在供铁条件下,NH4+-N处理的玉米植株四个不同器官中锰和锌的含量显著低于NO3--N处理的植株,而铜的含量正好相反。在缺铁条件下,玉米新叶中活性锰、活性锌的含量显著高于供铁处理;与NO3--N相比,NH4+-N的供应也显著降低了玉米新叶中活性锰以及活性锌的含量。 相似文献
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Two experiments were conducted to determine the effects of various NH4(+)-N/NO3(-)-N percentages on growth and mineral concentrations in potato (Solanum tuberosum L.) plants using a non-recirculating nutrient film system in a controlled environment. The first experiment included six NH4(+)-N/NO3(-)-N percentages at 0/100, 20/80, 40/60, 60/40, 80/20, and 100/0 with the same total N concentration of 4 mM. The second experiment included six NH4(+)-N/NO3(-)-N percentages at 0/100, 4/96, 8/92, 12/88, 16/84, and 20/80 again with the same total N of 4 mM. In each experiment, plants were harvested 35 days after transplanting when tubers had been initiated and started to enlarge. Dry weights of shoots, tubers, and whole plant at the harvest were increased significantly with all mixed nitrogen treatments as compared with single NH4+ or NO3- form. The enhanced growth with mixed nitrogen was greatest at 8% to 20% NH4(+)-N. Also, the concentrations and accumulation of total N in the shoots and roots were greater with mixed nitrogen than with separate NH4+ or NO3- nutrition. With NH4+ present in the solutions, the concentrations of P and Cl in the shoots were increased compared to NO3- alone, whereas the tissue concentrations of Ca and Mg were decreased. It was concluded that nitrogen fertilization provided with combined NH4+ and NO3- forms, even at small proportions of NH4+, can enhance nitrogen uptake and productivity in potato plants. 相似文献
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不同硝铵比氮素供应对广藿香生长及药效成分的影响 总被引:1,自引:1,他引:0
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铁和不同形态氮素对玉米植株吸收矿质元素及其在体内分布的影响——Ⅰ.对氮、磷、钾、钙、镁等营养元素的影响 总被引:9,自引:0,他引:9
用营养液培养方法研究了铁和两种形态氮素(NO3--N和NH4+-N)对玉米植株吸收氮、磷、钾等大量元素和钙、镁等中量元素及其在体内分布的影响。结果表明:与NO3--N相比,供应NH4+-N促进了玉米对氮的吸收,在缺铁条件下,降低了对磷、钾、钙及镁的吸收。铁和NH4+-N都显著提高了玉米植株各器官中氮的含量。与NH4+-N处理相比,NO3--N处理的新叶中磷含量显著增加,但铁的供应对植物体内磷的含量无显著影响。使用NO3--N显著提高了玉米新叶和老叶中钾的含量,根和茎中钾的含量无明显影响。铁的供应降低了新叶和老叶中钾的含量。供铁时,NH4+-N处理的玉米新叶中钙和镁的含量显著低于NO3--N处理,而在缺铁时则无显著差异。 相似文献
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不同铵硝配比对低温胁迫棉花幼苗生长及抗氧化酶活性的影响 总被引:4,自引:1,他引:3
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镉污染下不同类型水稻土氮素供应特征及其影响因素 总被引:2,自引:1,他引:1
污染条件下的土壤氮素供应影响了作物生产和植物生态修复。采用温室盆栽试验,研究了两种剂量镉污染下我国21种水稻土无机氮的供应特征和影响因素。结果表明:淹水10天后,不同水稻土土壤溶液无机态氮含量变幅为1.42 ~ 70.40 mg/L ((平均值为16.76 mg/L)),其中NH4+-N和NO3--N分别占62.5% 和33.7%;与施肥对照相比,镉污染降低了大多数水稻土土壤溶液无机态氮的含量,平均降幅为58.4%,主要是由土壤溶液NH4+-N含量下降所致;土壤溶液NO3--N含量受镉污染的影响程度则因土壤类型而异。基于典范对应分析的偏因子分析((VPA))表明镉污染对水稻土土壤溶液无机氮含量的影响最大,其次是土壤类型,施肥影响最小,三类因子单独作用的影响比例分别为40.38%、6.51% 和0.05%。镉污染下,pH、CEC和土壤质地显著影响水稻土无机氮供应,其中土壤pH是镉污染条件下影响NH4+-N含量变化的首要因子。 相似文献
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戴云山自然保护区森林土壤氮转化特点研究 总被引:3,自引:1,他引:2
利用~(15)N稳定同位素成对标记法并结合MCMC数值模型,研究了戴云山国家级自然保护区天然毛竹林(BF)及其邻近黄山松–杉木林(NF)土壤氮素初级转化速率,以评估该地区森林生态系统土壤氮状态,并分析其保氮机制。结果表明:BF土壤NH_4~+-N的总产生速率(以N量计,13.16μg/(g×d))是NF土壤的2倍(6.25μg/(g×d)),其中黏土矿物对NH_4~+-N的解吸作用是BF产生NH_4~+-N的主要过程(55%),而NF主要以有机氮的矿化作用为主(56%)。BF土壤氮素初级矿化速率为5.56μg/(g×d),显著高于NF的3.40μg/(g×d)。土壤氮素初级矿化速率与土壤全氮含量显著正相关(P0.05),而与C/N比表现显著负相关(P0.05)。BF与NF土壤NH_4~+-N总产生量的90%均被土壤微生物的同化作用以及黏土矿物的吸附作用所消耗。两种土壤的硝化作用微弱,BF土壤总硝化速率(以N量计,0.23μg/(g×d))与NF土壤(0.26μg/(g×d))相差不大。两种林地土壤硝化作用均以有机氮的异养硝化为主,自养硝化过程可忽略不计。BF与NF土壤中NO_3~–-N消耗速率均超过了产生速率,表明BF与NF土壤均能有效降低NO_3~–-N的潜在淋失风险,其中BF土壤中NO_3~–-N的消耗以微生物的同化作用为主(58%),而NF土壤以NO_3~–-N异化还原为NH_4~+-N过程为主(68%)。戴云山国家级自然保护区两种亚热带森林土壤的氮转化过程均以NH_4~+-N转化为主,产生的绝大多数NH_4~+-N会迅速通过微生物对NH_4~+-N的同化作用以及黏土矿物对NH_4~+-N的吸附作用固持到有机氮库中;自养硝化过程微弱,使得无机氮主要以NH_4~+-N的形式保存于土壤中,同时酸性土壤环境有效削弱了NH_4~+-N的挥发损失。此外,相对较高的NO_3~–-N微生物同化速率以及异化还原为NH_4~+-N速率,进一步有效降低了NO_3~–-N的淋溶损失以及反硝化作用的气态损失风险,使该地区森林土壤能够在多雨的条件下有效保持氮素,满足植物的生长需求。 相似文献
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采用分根技术、营养液培养方法 ,研究缺铁条件下供应不同形态氮素对玉米苗期体内不同铁库中铁再利用的影响。结果表明 ,缺铁条件下 ,玉米新生叶片铁营养状况不仅受体内铁库强度大小的影响 ,而且也受外界调节措施—氮素形态的调节。研究发现 ,与NO3-N相比 ,不考虑根细胞质外体铁库时 ,供应NH4-N可使初生叶中 32 %的铁再利用 ,考虑根系铁库时 ,初生叶铁变化不明显 ,而可使根系 40 %的铁转移至地上部。无论根系是否有铁库 ,缺铁条件下 ,NH4-N能提高新叶活性铁含量和伤流液中铁浓度。 相似文献