Gill microsomal (Na+,K+)-ATPase from the blue crab Callinectes danae: Interactions at cationic sites

Euryhaline crustaceans tolerate exposure to a wide range of dilute media, using compensatory, ion regulatory mechanisms. However, data on molecular interactions occurring at cationic sites on the crustacean gill (Na⁺,K⁺)-ATPase, a key enzyme in this hyperosmoregulatory process, are unavailable. We report that Na⁺ binding at the activating site leads to cooperative, heterotropic interactions that are insensitive to K⁺. The binding of K⁺ ions to their high affinity sites displaces Na⁺ ions from their sites. The increase in Na⁺ ion concentrations increases heterotropic interactions with the K⁺ ions, with no changes in K_0.5 for K⁺ ion activation at the extracellular sites. Differently from mammalian (Na⁺,K⁺)-ATPases, that from C. danae exhibits additional NH₄⁺ ion binding sites that synergistically activate the enzyme at saturating concentrations of Na⁺ and K⁺ ions. NH₄⁺ binding is cooperative, and heterotropic NH₄⁺ ion interactions are insensitive to Na⁺ ions, but Na⁺ ions displace NH₄⁺ ions from their sites. NH₄⁺ ions also displace Na⁺ ions from their sites. Mg²⁺ ions modulate enzyme stimulation by NH₄⁺ ions, displacing NH₄⁺ ion from its sites. These interactions may modulate NH₄⁺ ion excretion and Na⁺ ion uptake by the gill epithelium in euryhaline crustaceans that confront hyposmotic media.     

Effects of ammonium on energy metabolism and intracellular pH in guinea pig cerebral cortex studied by P and H nuclear magnetic resonance spectroscopy

³¹P and ¹H nuclear magnetic resonance spectroscopy were used to study the effects of ammonium on high-energy phosphates, intracellular pH and lactate in guinea pig cerebral cortex in vitro. In the presence of glucose, 1 mM ammonium caused an intracellular acidification by 0.2–0.3 pH units without a change in phosphocreatine/ATP (PCr/ATP) ratio, lactate concentration or oxygen uptake. At concentrations of 5 mM or greater, NH₄⁺ caused an energy failure and an increase in tissue lactate, together with a drop in intracellular pH. A split in the inorganic phosphate resonance was observed during the exposure to both 20 mM NH₄⁺ and 20 mM K⁺ indicating heterogeneity of the volume-averaged intracellular pH. Cortical brain slices incubated in the presence of 10 mM lactate maintained PCr/ATP ratio and intracellular pH at similar levels as in the presence of glucose, but 1 mM NH₄⁺ caused a fall in PCr/ATP. Both 20 mM NH₄⁺ and 20 mM K⁺ stimulated oxygen uptake of the preparation with glucose or lactate as substrate. These results show that the only acute effect of 1 mM NH₄⁺ in the presence of glucose is an intracellular acidification whereas energetic consequences develop at high levels of this neurotoxic agent.     

Nitrate transporter NRT1.1 and anion channel SLAH3 form a functional unit to regulate nitrate-dependent alleviation of ammonium toxicity

Ammonium (NH₄⁺) and nitrate (NO₃⁻) are major inorganic nitrogen (N) sources for plants. When serving as the sole or dominant N supply, NH₄⁺ often causes root inhibition and shoot chlorosis in plants, known as ammonium toxicity. NO₃⁻ usually causes no toxicity and can mitigate ammonium toxicity even at low concentrations, referred to as nitrate-dependent alleviation of ammonium toxicity. Our previous studies indicated a NO₃⁻ efflux channel SLAH3 is involved in this process. However, whether additional components contribute to NO₃⁻-mediated NH₄⁺ detoxification is unknown. Previously, mutations in NO₃⁻ transporter NRT1.1 were shown to cause enhanced resistance to high concentrations of NH₄⁺. Whereas, in this study, we found when the high-NH₄⁺ medium was supplemented with low concentrations of NO₃⁻, nrt1.1 mutant plants showed hyper-sensitive phenotype instead. Furthermore, mutation in NRT1.1 caused enhanced medium acidification under high-NH₄⁺/low-NO₃⁻ condition, suggesting NRT1.1 regulates ammonium toxicity by facilitating H⁺ uptake. Moreover, NRT1.1 was shown to interact with SLAH3 to form a transporter-channel complex. Interestingly, SLAH3 appeared to affect NO₃⁻ influx while NRT1.1 influenced NO₃⁻ efflux, suggesting NRT1.1 and SLAH3 regulate each other at protein and/or gene expression levels. Our study thus revealed NRT1.1 and SLAH3 form a functional unit to regulate nitrate-dependent alleviation of ammonium toxicity through regulating NO₃⁻ transport and balancing rhizosphere acidification.     

Efficient iron plaque formation on tea(Camellia sinensis) roots contributes to acidic stress tolerance

Tea plants grow in acidic soil, but to date, their intrinsic mechanisms of acidic stress tolerance have not been elucidated. Here, we assessed the tea plant response to growth on NHt4 nutrient media having different p H and iron levels. When grown in standard NHt4 nutrient solution(iron insufficient, 0.35 mg Là1 Fe2t), tea roots exhibited significantly lower nitrogen accumulation, plasma membrane Ht-ATPase activity, and protein levels; net Htefflux was lower at pH 4.0 and 5.0 than at pH 6.0. Addition of30 mg Là1 Fe2t(iron sufficient, mimicking normal soil Fe2tconcentrations) to the NHt4 nutrient solution led to more efficient iron plaque formation on roots and increased root plasma membrane Ht-ATPase levels and activities at p H 4.0 eland 5.0, compared to the p H 6.0 condition. Furthermore,plants grown at pH 4.0 and 5.0, with sufficient iron,exhibited significantly higher nitrogen accumulation than those grown at pH 6.0. Together, these results support the hypothesis that efficient iron plaque formation, on tea roots, is important for acidic stress tolerance. Furthermore,our findings establish that efficient iron plaque formation is linked to increased levels and activities of the tea root plasma membrane Ht-ATPase, under low pH conditions.     

亚适宜温光环境下不同硝铵比营养液对黄瓜幼苗生长、氮吸收和代谢的影响

以‘中农26’黄瓜为试材,研究亚适宜温光(18 ℃/10 ℃,180±20 μmol·m^-2·s^-1)下不同硝铵比(26:2、21:7和14:14)营养液对黄瓜幼苗生长和生理特性的影响.结果表明:硝铵比为21:7处理的黄瓜总根长最长、根体积和根表面积最大、根尖数最多;根中H⁺-ATPase活性最高;硝态氮转运蛋白(NRT)和铵转运蛋白(AMT)基因表达量也升高,提高了根系的氮吸收能力;叶中硝酸还原酶(NR)、谷氨酰胺合成酶(GS)和谷氨酸合酶(GOGAT)活性较高,提高了体内氮代谢能力,使黄瓜氮含量和干物质积累显著增加.亚适宜温光下,营养液中硝铵比为21:7时,黄瓜幼苗干质量分别比26:2和14:14处理增加14.0%和19.3%.亚适宜温光下,可通过调整营养液中硝铵比,提高黄瓜氮吸收与代谢能力,缓解亚适宜温光对黄瓜幼苗的不利影响,促进黄瓜生长.     

氮形态对不同小麦基因型氮素吸收和光合作用的影响

利用水培试验,研究了3个小麦基因型对不同形态N素吸收和积累的差异.结果表明,在不同N浓度下,小麦对增铵营养和NH⁺的吸收速率显著高于NO₃^-营养,且在较高浓度下,增铵营养处理具有更强的吸收优势.与次敏感型莱州953和钝感型江东门相比,敏感型扬麦158不仅具有较强的NO₃^-和NH⁺吸收能力,而且具有最强的增铵营养吸收能力.增铵营养促进了扬麦158和莱州953对NO₃^-和NH⁺的吸收,但在一定程度上抑制了江东门对NO₃^-的吸收.与NO₃^-营养及NH⁺营养相比,增铵营养显著提高了扬麦158和莱州953的全株、地上部N积累量和叶片光合速率,而对江东门影响较小因此,增铵营养促进了植株的N吸收,提高了N积累和光合速率,从而促进了小麦生长     

Ammonia removal from anaerobically digested dairy manure by struvite precipitation

Ammonia is one of the most important contaminants impairing the quality of water resources. When this is considered along with the fact that the global demand for nitrogenous fertilizers is in constant rise, the need for recovery as well as removal of nitrogen is well justified. Crystallization of N and P in the form of struvite (MgNH₄PO₄·6H₂O), which is a slow releasing and valuable fertilizer, is one possible technique for this purpose. This study investigated the removal of NH₄⁺ through struvite precipitation from the effluents of one- (R1) and two-phase (R2) anaerobic reactors digesting dairy manure. To force the formation of struvite in the anaerobic reactor effluents, Mg²⁺ ion was added by using both Mg(OH)₂ and MgCl₂·6H₂O. To prevent the effect of different total phosphorus (TP) concentration in the effluents of R1 and R2, as well as to not limit the formation of struvite, an excess amount of PO₄³⁻ (0.14 M) was added in the form of Na₂HPO₄. Different stoichiometric Mg²⁺:NH₄⁺:PO₄³⁻ ratios were tested to determine the required Mg²⁺ concentrations for maximum NH₄⁺ removal by keeping NH₄⁺:PO₄³⁻ ratio constant for the effluents of reactors R1 and R2. The results revealed that very high NH₄⁺ removal efficiencies (above 95%) were possible by adding Mg²⁺ ions higher than 0.06 M concentration in the effluents from reactors R1 and R2. It was also observed that the initial pH adjustment to 8.50 using NaOH did not result in any significant increase in the removal of NH₄⁺ and the removal of NH₄⁺ in the reactors treated with MgCl₂·6H₂O was higher than those treated with Mg(OH)₂ for the same Mg²⁺ concentration.     

低氮胁迫诱导木薯幼苗花青素积累及其基因表达

为明确氮素浓度和形态与木薯花青素产生和积累的关系,基于氮素胁迫能够在拟南芥等植物中促进花青素产生的研究结果,以木薯品种Arg7为研究对象,研究木薯无菌幼苗在添加了(1)40 mmol/L NO₃^-+ 20 mmol/L NH₄⁺,(2)40 mmol/L NO₃^-,(3)20 mmol/L NH₄⁺,(4)0.4 mmol/L NO₃^-+ 0.2 mmol/L NH₄⁺,(5)0.4 mmol/L NO₃^-,(6)0.2 mmol/L NH₄⁺,(7)1 mmol/L(N),(8)5 mmol/L(N),(9)9 mmol/L(N),(10)13 mmol/L(N)10种氮素浓度和形态的MS培养基中生长40 d的农艺性状,以及对花青素合成相...     

Activation of the Na-K(NH4)-2Cl-cotransporter from rat submandibular glands in response to VIP

A cellular suspension from rat submandibular glands was prepared with collagenase. The intracellular pH (pH_i) was estimated with 2′,7′-bis-(2-carboxy-ethyl)-5(6)-carboxyfluorescein (BCECF). After exposure to NH₄Cl, the pH_i transiently increased (diffusion of NH₃) and then dropped (influx of NH₄⁺). Isoproterenol increased 2.5-fold the rate of NH₄⁺ influx; bumetanide, an inhibitor of the Na⁺-K⁺-2Cl⁻-cotransporter blocked the response to isoproterenol, confirming that the beta-adrenergic agonist stimulated the cotransporter. Forskolin (1 μmol/L) mimicked the response to isoproterenol. VIP (1 nmol/L-1 μmol/L) also increased the activity of the cotransporter. Cyclic AMP rather than calcium was the mediator of this activation since 1) carbachol which increased the [Ca²⁺]_i fivefold increased the uptake of NH₄⁺ by only 50%; 2) only high concentrations of VIP significantly increased the [Ca²⁺]_i; 3) incubation in the presence of EGTA had no effect on the response to VIP; 4) low concentrations (nmol/L) of the neuropeptide increased the intracellular level of cAMP; and 5) the stimulation of the cotransporter by VIP, forskolin, and isoproterenol was inhibited by H8, an inhibitor of cAMP-dependent protein kinase. It is concluded that the Na⁺-K⁺-2Cl⁻-cotransporter of rat submandibular glands is activated by isoproterenol, forskolin, and neuropeptides of the VIP family by a mechanism involving cAMP-dependent processes. The activation of the cotransporter by VIP could partly explain the potentiating effect of VIP on the response to sialagogues like substance P or muscarinic agonists.¹     

夜间增温对亚高山针叶林主要树种无机氮吸收的影响

吸收营养物质是植物根系的主要生理功能。氮素吸收是植物体内氮代谢的第一步, 也是最关键的一步。为了全面地认识亚高山针叶林在全球气候变化背景下对两种主要无机氮(NH₄⁺和NO₃^-)吸收特点的变化, 该研究以川西亚高山针叶林优势树种——云杉(Picea asperata)和岷江冷杉(Abies fargesii var. faxoniana)为材料, 通过红外辐射加热器模拟增温, 利用非损伤微测技术(non-invasive micromeasurement technology)研究了这两个树种吸收NH₄⁺和NO₃^-特点的变化, 同时还探究了NH₄⁺和NO₃^- 之间的相互作用对植物吸收这两种离子的影响。研究结果显示: 在云杉根系中, NH₄⁺和NO₃^-的最大吸收速率分别发生在距离根尖最顶端17-18 mm区域和17 mm处, 而岷江冷杉对这两种离子的最大吸收速率分别发生在距离根尖顶端11 mm和11.5 mm处。增温对云杉和岷江冷杉根系吸收NH₄⁺和NO₃^-有促进作用。在增温条件下, NO₃^-能够促进云杉根系对NH₄⁺的吸收, 而NH₄⁺则抑制了其对NO₃^-的吸收。无论是否增温, 岷江冷杉对NH₄⁺的吸收都不受NO₃^-的影响, 而在增温条件下, NH₄⁺会抑制岷江冷杉对NO₃^-的吸收。     

Effects of night warming on the uptake of inorganic nitrogen by two dominant species in subalpine coniferous forests

Aims Plant roots play a critical role in the uptake of nutrients, and nitrogen (N) absorption is considered as the first step and a pivotal process in N metabolism of plants. Our objective was to better understand the absorption of two major inorganic N forms (NH₄⁺ and NO₃^-) in subalpine coniferous forests under global warming Methods Experimental warming using infrared heater was applied to two dominant species in subalpine coniferous forests of Sichuan, China, Picea asperata and Abies fargesiivar. faxoniana. The non-invasive micromeasurement technology was used to investigate the effects of warming on the uptake rates of NH₄⁺ and NO₃^- and the potential interactions between these two ions.Important findings Results showed that the maximal net root uptake of NH₄⁺ and NO₃^-occurred at a distance of 17-18 mm and 17 mm from root tips, respectively for P. asperata. and at a distance of 11 mm and 11.5 mm from root tips respectively for A. fargesiivar. faxoniana. Experimental warming elevated the uptake rates of NH₄⁺ and NO₃^- in both species, but the interactions between NH₄⁺ and NO₃^- differed between the two species. While NO₃^- uptake was inhibited in the presence of NH₄⁺ for both P. asperataand A. fargesiivar. faxoniana, net NH₄⁺ uptake was promoted by NO₃^- supply only in P. asperata roots under experimental warming.     

土壤保肥-供肥机理及其调节Ⅲ.棕壤型菜园土的N素保持与供应

对辽宁省北部、中部及南部棕壤型菜园土15对肥、瘦地N素保持与供应性能的研究表明,绝大多数肥地及其各粒级微团聚体的全N量、NH₄⁺吸附与解吸量均大于瘦地及其各相应粒级微团聚体的,而NH₄⁺解吸率则相反。除了大粒级微团聚体外,肥、瘦地及其小粒级微团聚体全N储量与NH₄⁺吸附与解吸性能均有显着差异。肥、瘦地微团聚体的NH₄⁺吸附与解吸量均随粒径的增大而降低,解吸率则随之升高。NH₄⁺吸附与营养物质或酶活性等大多没有显着的线性相关关系;肥地及各粒级微团聚体NH₄⁺解吸与土壤有机质及其结合形态、全N含量、脲酶与磷酸酶活性等呈显着线性正相关,瘦地及其各相应粒级微团聚体的与营养物质含量和酶活性均无显着线性相关关系。     

广州市酸雨成分及其相关分析

分析了2003年11月-2004年10月广州市龙洞79次降雨的化学组分及其各组分之间的相关关系。得出:(1)观测期间总降雨量1359.8,单次降雨的pH值在3.22-7.29之间,平均4.83;以pH<5.6为酸雨的临界值,则酸雨频率占降雨次数的77.2%或占降雨量的81.5%;(2)广州降水的化学组成以SO₄^2-、Cl^-和NO₃^-为主要阴离子,阳离子中以Ca²⁺、NH₄⁺、Na⁺所占比例较大;(3)广州地区酸雨属硫酸型,降雨中的SO₄^2-、NO₃^-、PO₄^3-、Cl^-、NH₄⁺、K⁺、Na⁺、Ca²⁺、Mg²⁺离子浓度分别为0.150,0.045,0.002,0.163,0.058,0.006,0.013,0.083和0.007mol·L^-1,单次降雨的SO₄^2-/NO₃^-比值在0.42-17.6之间,年平均为3.33,该值比西南地区相应值低许多,而且与同一地点5年前测定的结果相比较,SO₄^2-/NO₃^-比值有变小的趋势,说明广州地区NO_x排放量高逐渐增加;(4)广州地区酸雨有着明显的季节变化规律,春、夏、秋季酸雨比较严重,冬季酸雨较少出现,这与西南地区的重庆(冬季酸雨较春季严重)酸雨季节规律相反;(5)通过SPSS统计分析得出,雨量与各化学组分含量成负相关,说明雨量对大气污染物质的稀释作用;酸雨各化学成分之间存在着一定的相关性,如SO₄^2-与Ca²⁺,NO₃^-与NH₄⁺,K⁺与Na⁺、Mg²⁺离子,Na⁺与Mg²⁺等都存在显著的正相关,利用这种相关可以建立某些酸雨成分的预测模型。     

Nitrogen and Phosphorus for Growth of Oil-Degrading Microorganisms in Seawater

Seawater was supplemented with NH₄⁺ and P to determine concentrations of N and P adequate for supporting exponential growth of bacteria utilizing crude oil, and to determine maximum rates of N and P uptake. Oil-degrading microorganisms were obtained by enrichment culture of indigenous oil-utilizing microorganisms in seawater. NH₄⁺ at a concentration of 5.5 µM was limiting to growth of bacteria on crude oil. Exponential growth occurred at concentrations higher than 30 µM NH₄⁺. The P concentration of 0.13 µM was limiting to growth of bacteria on crude oil. Exponential growth occurred at 1.8 |J,M P. The maximum NH4+ consumption rate was 426 ± 30 |J,g NH₄⁺ L^-1 hr^-1, and the maximum uptake rate of P was 48±4 µg P L^-1 hr^-1. Uptake of N and P with time showed zero-order kinetics, likely due to substrate solubility limitations. The uptake ratio of N:P was approximately 7:1 on a weight basis. Natural concentrations of N and P in marine and estuarine systems after hydrocarbon spillage initially may not limit oil biodegradation but may become limiting if adequate flux does not occur to replenish N and P depleted by microbial consumption.     

Nitrogen preference across generations under changing ammonium nitrate ratios

Aims Nitrogen (N) in natural environments is typically supplied by a mixture of ammonia (NH₄⁺) and nitrate (NO₃^-). However, factors that underlie either NH₄⁺or NO₃^-preference, and how such preference will change across generations remain unclear. We conducted a series of experiments to answer whether: (i) NH₄⁺:NO₃^-ratio is the driving factor for plant N preference, and (ii) this preference is consistent across generations.     

氮肥形态及配比对花椰菜产量、品质和养分吸收的影响

采用大田试验研究了氮肥不同形态及配比对春茬花椰菜产量形成、品质和植株氮、磷、钾吸收的影响.结果表明:硝态氮肥易增加花球中硝酸盐的积累量、提高可溶性糖含量,当NO₃^--N∶NH₄⁺-N处于3∶7～5∶5范围内时可以减少花球中硝酸盐积累量,处于5∶5～7∶3范围内时可获得较高的可溶性糖含量.铵态氮肥(包括酰胺态氮肥)有利于花球中Vc含量的提高.施氮肥可以提高植株中氮、磷、钾的积累量,其中莲座期各处理植株氮、磷、钾含量均为最高.在整个生长期铵态氮有利于促进氮含量的提高,硝态氮有利于钾含量的提高,但在不同时期磷含量受氮源的影响变化不一致.与单一氮肥形态相比,当NO₃^--N∶NH₄⁺-N处于3∶7～5∶5范围内时易获得高产.因此硝态氮肥与铵态氮肥以适当的比例配合施用可以提高花椰菜的品质、生物产量和经济效益.     

Nitric oxide reduces Cu toxicity and Cu-induced NH4+ accumulation in rice leaves

Nitric oxide (NO) is a highly reactive, membrane-permeable free radical, which has recently emerged as an important antioxidant. Here we investigated the protective effect of NO against the toxicity and NH₄⁺ accumulation in rice leaves caused by excess CuSO₄ (10 mmol L⁻¹). It was found that free radical scavengers (sodium benzoate, thiourea, and reduced glutathione) reduced the toxicity and NH₄⁺ accumulation in rice leaves caused by excess CuSO₄. NO donor sodium nitroprusside (SNP) was also effective in reducing CuSO₄-induced toxicity and NH₄⁺ accumulation in rice leaves. The protective effect of SNP on the toxicity and NH₄⁺ accumulation can be reversed by 2-(4-carboxy-2-phenyl)-4,4,5,5-tetramethyl- imidazoline-1-oxyl-3-oxide, a NO scavenger, suggesting that the protective effect of SNP is attributable to NO released. Results obtained in the present study suggest that reduction of CuSO₄-induced toxicity and NH₄⁺ accumulation by SNP is most likely mediated through its ability to scavenge active oxygen species.     

较长时间内15N标记的氨态氮和硝态氮在小嵩草草甸中的运移规律

运用15N稳定性同位素技术,对15N标记的硝酸盐和铵盐在输入小嵩草(Kobresia pygaea C.B.Clarke)草甸11～13个月后的运移规律进行了研究.在经历11～13个月后,进入无机氮库中的15N很少,一般不超过所输入氮素的l%,而较多的1 5N为土壤有机质、土壤微生物和植物所固持.NO3--15N和NH4 -1 5N在小嵩草草甸中的运移规律差异很大.在11、12和13个月后,NO3--15N的总恢复率分别为92.83%、92.64%和79.96%;而NH4 -15N的则分别为49.6%、63.33%和66.22%.两者的差异在土壤有机质、土壤微生物和植物等库之间的分配中更加明显.输入NO3--15N时在11、12个月后植物所固持的15N最多,而土壤微生物和土壤有机质所固持的15N比较接近,而在13个月后,土壤有机质和植物所固持的15N接近,而土壤微生物所固持的15N下降许多;当输入NH4 -15N,土壤有机质所固持的1 5N比植物和土壤微生物所固持的都多,而且植物所固持的15N比较稳定,而土壤微生物所固持的15N则有较大变化.这表明在较长的时间内嵩草草甸对NO3-和NH4 的固持能力是不一样的.     

氮素形态对樱桃番茄果实发育中氮代谢的影响

以樱桃番茄为材料,采用基质 营养液共培养的方法,研究了全硝态氮(NO₃^-）、铵态氮和硝态氮配施（75%NO₃^-∶25%NH₄⁺）及全铵态氮（NH₄⁺）营养对樱桃番茄果实氮代谢及硝酸还原酶（NR）和谷氨酰胺合成酶（GS）基因表达的影响.结果表明： 铵态氮和硝态氮配施处理下樱桃番茄的单果质量比全硝态氮处理略有增加,且果实中NH₄⁺、总氨基酸、氮含量和氮素累积量均显著高于全硝态氮处理;全硝态氮及铵态氮和硝态氮配施处理下果实NR活性及其基因表达没有明显差异,但都显著高于全铵态氮处理;铵态氮和硝态氮配施处理下果实GS活性都高于全硝态氮处理.不同形态氮素及配施处理下,同工酶GS1（胞质型GS）和GS2（叶绿体型GS）的表达与GS的活性不一致,说明氮素对GS活性的影响主要发生在转录后水平.     

茶园及相邻林地土壤N2O排放的垂直分布特征

对茶园及相邻林地土壤N2O排放的垂直分布特征进行研究.结果表明: 在0～100 cm土层,茶园和林地土壤全氮（TN）、N₂O排放速率及积累量均随着土层增加而减少,且茶园均值大于林地.土壤pH、TN、水溶性有机氮(WSON)、微生物生物量氮(MBN)、NO₃^--N及NH₄⁺-N含量随着土层增加总体呈下降趋势,茶园各土层TN、WSON、MBN、NO₃^--N及NH₄⁺-N含量显著大于林地,而不同土层pH值均小于林地.茶园和林地土壤N₂O排放速率与TN、MBN及NH₄⁺-N含量呈显著正相关,而与pH相关性不显著.茶园土壤N₂O排放速率与NO₃^--N含量的相关性显著,与WSON的相关性不显著,而在林地土壤中呈相反趋势.0~100 cm土层内茶园 WSON/SON和N₂O N/MBN平均值大于林地,而MBN/SON平均值小于林地.这表明茶园土壤氮库有较高的代谢效率,N₂O排放速率较高,不利于土壤氮库的储量积累,也不利于维持土壤质量和持续利用的潜力.