不同水分管理模式下水稻土氮素形态转化与N2O释放的关系

在实验室培养条件下,对稻田土壤在4种水分管理模式下施用尿素后N素形态转化和N2O的释放情况进行测定。结果表明,N2O的释放峰值与NH4+-N浓度峰值同时出现,即尿素迅速水解为NH4+-N的同时N2O就大量释放。且不同水分管理模式都迅速达到N2O释放的高峰,但不同模式的峰值存在明显差异,其顺序为:干湿交替>临界饱和水>淹水管理>旱作管理。研究结果还表明,NO2--N浓度在第7天达到峰值时并没有出现相应的N2O释放峰,这可能与土壤的较高pH有关。60%WFPS处理以及干湿交替培养的落干期NO3--N浓度会持续增加,并随着NO3--N浓度峰值的出现,N2O的释放也出现一个峰值。     

秸秆生物炭对菜地N_2O、CO_2与CH_4排放及土壤化学性质的影响

通过盆栽模拟试验,探究玉米秸秆生物炭施用对菜地温室气体N2O、CO2与CH4排放及土壤理化性质的影响。结果表明,生物炭施用抑制了菜地N2O排放,NB1(施N 400 kg·hm-2,生物炭20 t·hm-2)和NB2(施N 400kg·hm-2,生物炭40 t·hm-2)的N2O累积排放量分别比N处理(施N 400 kg·hm-2)低76.4%和70.7%,但抑制效应并未随生物炭用量的增加而加强。生物炭施用增强了CO2排放,但对CH4排放影响不显著。NB1和NB2累积CO2排放量分别为N处理的1.8和2.1倍,不容忽视的是,这2种处理同时增加了土壤中有机碳含量,分别比N处理高15.2%与21.3%。NB1和NB2在不降低甚至提高蔬菜产量的基础上,提高了土壤中NH4+-N含量与p H值,降低了NO3--N含量。p H值和NH4+-N含量分别平均比N处理高0.265和34.9%,NO3--N含量平均比N处理低12.7%,因此生物炭具有减排N2O与改良菜地土壤质量的巨大潜力。但生物炭引起的CO2排放以及对土壤有机碳增加的净影响效应尚需进一步研究。     

亚热带土壤氮素反硝化气态产物研究

亚热带可变电荷土壤化学性质与温带地区恒电荷土壤有诸多不同特点,使得反硝化具有一些与温带土壤不同的特性,进一步深入研究亚热带土壤反硝化气体产物的组成比例、主要影响因素和机理,将有助于加深对亚热带环境条件下土壤N循环的理解和认识,以及为正确评价亚热带土壤反硝化环境效应提高科学依据。因此,就亚热带土壤厌氧培养条件下反硝化的气态产物问题进行了探讨。土样采自江西典型亚热带红壤地区,在加入K15NO3（10 atom%15N,加入N量为200 mg·kg-1）条件下进行了7 d 30℃、密闭、淹水、充N2的严格厌氧培养试验。试验结果表明：随培养时间推移,15N回收率逐渐下降,土壤总残留的15NO3-质量分数和回收率之间存在显著正相关关系（p〈0.001）,表明反硝化作用越弱的土样回收率越高。总气态氮损失率的估计值和实测值都随培养时间延长呈上升趋势,两者之间存在显著正相关性（p〈0.001）。根据稳定性同位素15N示踪试验结果初步估计,厌氧培养7 d内反硝化作用产生的气态产物中N2O占总气态氮损失的17.1%,N2占8.7%,估计NO可能是主要的反硝化产物之一。以未能回收的氮计算,NO约占总气态氮损失的67.5%~78.6%,平均为74.1%。反硝化气态产物中NO和N2O总量占总气态氮损失的91.3%。NO、N2O和N2分别占总施入氮量的18.6%、4.4%、2.0%。因此,亚热带土壤氮素反硝化过程中主要气态产物可能为NO和N2O,而非对环境无害的N2。     

杀虫剂对土壤温室气体排放的影响

在室内培养条件下,研究了在施用尿素的土壤（有效氮质量分数为200 mg·kg^-1）中分别添加不同剂量（在5、10和50 mg·kg^-1）的吡虫啉和毒死蜱2种杀虫剂时,杀虫剂对土壤温室气体CO2、N2O和CH4排放过程的影响。结果表明：和空白相比,施用尿素明显地增加了土壤中温室气体N2O和CO2的排放量,但对CH4的排放无明显影响。当施用5 mg·kg^-1吡虫啉时,土壤中N2O和CO2排放总量和尿素处理相比无明显差异,但吡虫啉用量上升至10和50 mg·kg^-1时则显著降低了温室气体N2O和CO2的排放量（P〈0.05）,N2O排放量分别降低了26.89%和53.10%,CO2排放量分别降低15.14%和13.79%。毒死蜱在5、10和50 mg·kg^-1三种用量时土壤的N2O排放量与尿素处理相比均无明显差异。毒死蜱在5和10 mg·kg^-1用量时则明显抑制了土壤CO2的排放（p〈0.05）,分别比尿素处理降低了19.88%和19.02%;用量上升到50 mg·kg^-1用量时,土壤的CO2排放量与尿素处理相比无差异。吡虫啉和毒死蜱对CH4排放量均没有明显影响。可见,杀虫剂施用明显影响到土壤温室气体的排放,但不同杀虫剂品种及其用量的效应也存在明显差异。     

退耕土壤的碳、氮固存及其对CO2、N2O通量的影响

采样分析陇中黄土高原地区农田退耕种植苜蓿3 a、5 a、8 a后0～5、5～10、10～20 cm土层土壤有机碳(SOC)、全氮(TN)、活性有机碳(SAOC)及矿质氮(NO3-N、NH4-N)含/储量的变化,并用静态箱-气质联用法对样地的COO2、NO2O排放通量进行了测定,研究碳氮变化对土壤CO2、N2O排放通量的影响.结果表明:(1)SOC、TN基础含量很低的贫瘠土壤退耕后表现出明显的碳、氮固存效应,有很强碳、氮固存潜力.与未退耕休闲农田相比,退耕3 a、5 a、8 a后0～20 cm SOC储量分别提高了9.12%、20.18%、34.39%,SOC平均固存率分别为0.17、0.23、0.25mg/(hm2·a).TN储量在5～10、10～20 cm增加不明显,在0～5 cm退耕3 a、5 a、8 a后储量分别提高14.29%,35.71%和64.29%,各退耕年限0～20 cm TN平均固存率均为0.2 mg/(hm2.a);(2)退耕后各年限草地土壤活性有机碳(SAOC)含量有所增加,但各层含量变化不明显,其增加量远小于SOC的增加,说明退耕初期阶段积累了较多的土壤惰性碳;NO3-N含量增加明显,0～5、5～10 cm土壤各退耕年限含量达5%的显著性差异,但退耕前后NH4-N含量无明显变化.(3)土壤CO2通量与SOC含量、SAOC含量、TN含量及N2O通量显著正相关;N2O通量与SOC含量、矿质氮含量及CO2通量显著正相关.说明在环境因素稳定的条件下,退耕后土壤碳、氮含量的增加会导致CO2、N2O排放的加剧,表现出大气CO2、N2O的"源"效应.     

有机肥对土壤NO3--N累积的影响

长期定位试验和调查取样的结果表明,土壤中NO3--N的累积量随有机肥施用量的增加而增加,过量施用有机肥会引起2 m以下深层次土壤中NO3--N的大量累积。当有机肥和无机肥配合施用时,土壤中NO3--N的累积量随总施N量的增加而增加。有机肥对土壤NO3--N累积的影响和对地下水的潜在威胁不容忽视。     

氮输入对纳帕海沼泽湿地土壤氨挥发和反硝化的影响

选取纳帕海常见湿地植物茭草（Zizania caduciflora）和水葱（Scirpus validus）]及其生长土壤为对象,通过培养实验,研究了3个不同氮输入水平[0g-m^2（对照,NO）、20g-m^2（N20）、40g-m^2。（N40）]对茭草和水葱湿地土壤氨挥发和反硝化的影响。结果表明：氮输入促进了茭草和水葱湿地土壤氨挥发化作用,增加了湿地土壤氨挥发的累积量。适量的氮输入对湿地土壤氨挥发促进显著。在培养前期适量氮输入下的氨挥发积累量高于高水平氮输入的,随着培养时间的延长,后期适量氮输入下的积累量明显下降;而高水半氮输入处理下氨挥发积累量的明显增加,适量氮输入下茭草氨挥发积累大于水葱。氮输入增强了菱草和水葱湿地土壤反硝化作用,加快了反硝化N2O的排放。适量的氮输入促进茭草反硝化作用和反硝化损失量增加明显,培养的前期的适量氮输入处理下的反硝化作用和反硝化N2O的排放增强不明显,随着培养时间的延长,高水平氮输入处理下的反硝化损失量越明显,并且水葱较茭草更为明显。后期适量氮输入下的反硝化损失速率和反硝化损失量高于高水平氮输入,适量氮输入较高水平氮输人促进明显,高水平的氮输入限制了反硝化损失,反硝化N2O的排放总量下降,土壤中氮富集增大。     

石灰氮对设施菜地土壤N_2O排放的影响

为了研究石灰氮对设施菜地土壤N_2O排放的影响,观测了施用尿素、石灰氮、半量尿素与半量石灰氮混施和对照等4个处理设施菜地土壤N_2O排放以及土壤中氮素变化.结果表明,施用石灰氮能显著降低设施菜地土壤N_2O排放量,对照、施用尿素、施用石灰氮和半量尿素与半量石灰氮混施的N_2O累积排放量分别为4135.80μg·kg~(-1)、5794.25μg·kg~(-1)、1957.03μg·kg~(-1)和4341.31μg·kg~(-1),施用尿素的N_2O累积排放量比对照增加了40.1%,施用石灰氮、半量尿素与半量石灰氮混施比施用尿素分别减少了66.2%和25.1%的N_2O排放量,半量尿素与半量石灰氮混施的N_2O累积排放量与对照的差异不显著(P0.05).尿素处理的N_2O排放系数为0.17%,而石灰氮处理和半量尿素与半量石灰氮混施处理的N_2O排放系数则分别减少至0.06%和0.13%.由此表明,施用石灰氮是减少设施菜地土壤N_2O排放的一项有效措施.     

石灰、钙镁磷肥对烤烟生产及土壤酸度调节的影响

广东植烟土壤酸度普查结果表明，沙泥田的pH值在3．45～5．75之间，大于5．5的很少。pH值偏低是制约沙泥田烤烟产量、质量进一步提高的主要障碍因子之一。在沙泥田烟区进行石灰施用量及提高钙镁磷肥施用比例的试验结果表明，随着石灰施用量的增加，气斑病、青枯病有下降的趋势；而赤腥病有上升的趋势，而烤烟的产值、均价、上等烟率等都是在石灰施用量1500kg／hm^2时为最高。提高钙镁磷肥的施用比例，烤烟的产量、产值、均价、上等烟率等也相应提高。施用石灰及钙镁磷肥均有提高土壤pH值的作用。建议在沙泥田烟区每公顷施石灰1500kg，全部以钙镁磷肥作为磷的来源。     

氮肥种类及用量对赤红壤pH和可溶性盐的影响

为了探讨施用氮肥对赤红壤性土壤pH和可溶性盐的影响,以赤红壤上发育的水稻土为供试土壤,以油麦菜(Lactucasativa L)为栽培作物,采用盆栽试验,研究了在施等量的磷(P2O5 0.08 g·kg-1)、钾(K2O 0.16 g·kg-1)条件下,尿素、硫酸铵、氯化铵、硝酸铵4个氮肥品利吸其不同用量水平(0、0.08、0.16、0.24和0.32 g·kg-1)下土壤的pH和可溶性盐的变化情况.结果表明,施用氮肥的利,类及用量对赤红壤性土壤的pH、可溶性盐及K 、Na 、Ca2 和Mg2 的质量分数有显著影响;随着氮肥用量的增加,土壤pH显著降低,而可溶性盐及K 、Na .、Ca2 和Mg2 的质量分数则升高;在各施氮水平下,(NH4)2SO4、NH4Cl对土壤pH、可溶性盐及K 、Na 、Ca2 和Mg2 的质量分数的影响总体上明显大于CO(NH2)2、NH4NO3.     

N fertilization effects on denitrification and N cycling in an aggrading forest.

We investigated N cycling and denitrification rates following five years of N and dolomite amendments to whole-tree harvested forest plots at the long-term soil productivity experiment in the Fernow Experimental Forest in West Virginia, USA. We hypothesized that changes in soil chemistry and nutrient cycling induced by N fertilization would increase denitrification rates and the N2O:N2 ratio. Soils from the fertilized plots had a lower pH (2.96) than control plots (3.22) and plots that received fertilizer and dolomite (3.41). There were no significant differences in soil %C or %N between treatments. Chloroform-labile microbial biomass carbon was lower in fertilized plots compared to control plots, though this trend was not significant. Extractable soil NO3- was elevated in fertilized plots on each sample date. Soil-extractable NH4+, NO3-, pH, microbial biomass carbon, and %C varied significantly by sample date suggesting important seasonal patterns in soil chemistry and N cycling. In particular, the steep decline in extractable NH4+ during the growing season is consistent with the high N demands of a regenerating forest. Net N mineralization and nitrification also varied by date but were not affected by the fertilization and dolomite treatments. In a laboratory experiment, denitrification was stimulated by NO3- additions in soils collected from all field plots, but this effect was stronger in soils from the unfertilized control plots, suggesting that chronic N fertilization has partially alleviated a NO3- limitation on denitrification rates. Dextrose stimulated denitrification only in the whole-tree-harvest soils. Denitrification enzyme activity varied by sample date and was elevated in fertilized plots for soil collected in July 2000 and June 2001. There were no detectable treatment effects on N2O or N2 flux from soils under anaerobic conditions, though there was strong temporal variation. These results suggest that whole-tree harvesting has altered the N status of these soils so they are less prone to N saturation than more mature forests. It is likely that N losses associated with the initial harvest and high N demand by aggrading vegetation is minimizing, at least temporarily, the amount of inorganic N available for nitrification and denitrification, even in the fertilized plots in this experiment.     

碳源与底物对不同层次土壤产生N2O能力的影响

底层土壤的反硝化作用是土壤排放N_2O的重要来源,同时也是影响浅层地下水硝酸盐含量的重要因素.通过一系列室内培养试验.研究了一种农用土壤不同土层在碳源和NO_3含量不同情况下产生N_2O的能力。结果表明,试验用土壤的不同土层均具有进行反硝化作用产生N_2O的能力.底层土壤产生N_2O的能力大于根区土壤:单独添加葡萄糖、NO_3或同时添加葡萄糖和NO_3.对土壤N_2O和CO_2释放的影响与土壤层次和观测时间有关;向土壤添加葡萄糖和NO_3,各个土层释放N_2O的能力均显著提高;从产生N_2O和CO_2能力的角度而言,不同层次土壤的微生物区系间存在较大差异。采用短期(24h之内)饱和泥浆好气培养法,可以区分土壤微生物区系在产生N_2O方面的差异。     

模拟氮沉降对土壤酸化和土壤盐基离子含量的影响

在温室内对1年生盆栽杉木幼苗进行模拟试验,以研究氮沉降对土壤酸化和土壤盐基离子含量的影响.以NH4NO3为外加氮源,设置5种处理,分别为N0(对照,0 g m-2 a-1,以N计,下同)、N1(6 g m-2 a-1)、N2(12 g m-2 a-1)、N3(24 g m-2 a-1)和N4(48 g m-2 a-1),每处理重复6次.经过18个月的处理后,对盆栽土壤进行取样分析.结果显示,随着氮沉降量的增加,土壤pH值逐渐下降,而土壤交换性酸度和交换性Al3+则不断增加.经N1、N2、N3和N4处理后,土壤交换性盐基总量分别下降6.29%、8.94%、10.07%和10.38%,土壤阳离子交换量分别下降5.07%、7.27%、8.53%和8.83%.随氮沉降量的增加,土壤NH4+-N、NO3--N含量逐渐增加.低氮处理(N1、N2)使土壤交换性K+、Ca2+、Mg2+含量增加,而高氮处理(N3、N4)则呈相反趋势.氮沉降由于增加了土壤活性氮的含量,加速了土壤酸化,从而导致了盐基离子的淋失.图3表3参41     

Long-term effects of short-term perturbation in a subalpine grassland

Theoretical advances and short-term experimental studies have furthered our understanding of how ecosystems respond to perturbation. However, there are few well-replicated experimental studies that allow an assessment of long-term responses. Results from a controlled, large-scale field experiment in a subalpine grassland near Interlaken, Switzerland, show that 2-4 years of liming (Ca: 40 g x m(-2) x yr(-1)) still significantly affected the composition of the vegetation and the soil microbial community nearly 70 years after the treatments were imposed, whereas NPK fertilization (8 g x m(-2) x yr(-1)) only marginally affected vegetation composition. The exchangeable content of Ca ions and soil pH were higher in limed plots but were unaffected in fertilized plots. Plant species and PLFAs (phospholipid fatty acids) indicating low pH values were found in higher abundance in the unlimed plots, suggesting that the long-lasting effects of liming on the above- and belowground communities were mediated through changes in soil pH. The results of this long-term study indicate that the resilience of mountain ecosystems may be particularly low in response to perturbations that substantially alter soil pH or other key determinants of belowground processes.     

免耕和秸秆覆盖对农田土壤温室气体排放的影响

农业土壤是重要的温室气体排放源,各种农业措施对温室气体排放产生重要的影响。免耕和秸秆覆盖作为两种重要的保护性耕作措施正在被越来越广泛的应用,但是其对土壤温室气体排放的影响还不明确,结果存在分歧。通过对免耕和秸秆覆盖措施下农田三种主要的温室气体（CO2、CH4和N2O）排放的相关研究进行对比分析,探讨两种保护性农业措施对温室气体排放的影响。研究表明,免耕减少土壤干扰,增加团聚体的稳定性,有利于难分解碳的形成,减少土壤CO2排放;与常规耕作相比,免耕有利于CH4氧化,增强甲烷氧化菌活性,降低CH4排放;免耕对N2O排放的影响与气候类型和土壤性质有密切的相关关系,在干燥的气候条件下,免耕增加通气条件差的土壤的N2O排放,对通气好的土壤影响不大。而在湿润的气候条件下,不同的土壤性质结论不一致。秸秆覆盖增加土壤CO2排放,并随着秸秆覆盖量的增加而增大;秸秆覆盖对CH4排放的影响有很大的不确定性,与覆盖方式和覆盖秸秆性质有密切联系;大部分研究认为秸秆覆盖增加N2O排放,但也有研究认为秸秆覆盖对N2O排放无影响或降低N2O排放量,秸秆覆盖对N2O排放机理复杂,需要进一步研究。通过综述发现随着保护性农业措施的推广,大量的研究集中在其对作物产量、土壤水分利用率、土壤性质等方面的研究;而保护性农业措施对温室气体排放的研究相对较少,特别是对三种温室气体的综合影响研究并不多见。因此,需结合不同土地类型,开展不同气候类型下免耕和秸秆覆盖对三种主要温室气体排放影响的综合研究,预测增温潜势,为不同气候带保护性农业措施下温室气体排放提供基础数据,并为制定合理的耕作和秸秆覆盖措施提供理论支持。运用同位素示踪等新技术明确秸秆覆盖对温室气体排放的直接和间接贡献率,结合不同研究区?     

Optimum nitrogen use and reduced nitrogen loss for production of rice and wheat in the Yangtse Delta region

A long-term field and lysimeter experiment under different amount of fertilizer-N application was conducted to explore the optimal N application rates for a high productive rice-wheat system and less N leaching loss in the Yangtse Delta region. In this region excessive applications of N fertilizer for the rice-wheat production has resulted in reduced N recovery rates and environment pollution. Initial results of the field experiments showed that the optimal N application rate increased with the yield. On the two major paddy soils (Hydromorphic paddy soil and Gleyed paddy soil) of the region, the optimal N application rate was 225-270 kg N hm(-2) for rice and 180-225 kg N hm(-2) for wheat, separately. This has resulted in the highest number of effective ears and Spikelets per unit area, and hence high yield. Nitrogen leaching in the form of NO(3-)-N occurs mainly in the wheat-growing season and in the ponding and seedling periods of the paddy field. Its concentration in the leachate increased with the N application rate in the lysimeter experiment. When the application rate reached 225 kg N hm(-2), the concentration rose to 5.4-21.3 mgN l(-1) in the leachate during the wheat-growing season. About 60% of the leachate samples determined contained NO(3-)-N beyond the criterion (NO(3-)-N 10 mg l(-1)) for N pollution. In the field experiment, when the N application rate was in the range of 270-315 kg hm(-2), the NO(3-)-N concentration in the leachate during the wheat-growing season ranged from 1.9 to 11.0 mg l(-1). About 20% of the leachate samples reached close to, and 10% exceeded, the criterion for N pollution. Long-term accumulation of NO(3-)-N from leaching will no doubt constitute a potential risk of N contamination of the groundwater in the Yangtse Delta Region.     

双氰胺在四川3种主要土壤上的硝化抑制作用

采用室内培养试验方法,在不同浓度双氰胺(DCD)处理条件下,对四川3种主要土壤(紫色土、黄壤、灰潮土)的N2O释放量,NH4+-N及NO3--N含量动态变化进行了研究.结果表明,DCD对3种土壤N2O释放及土壤NO3--N含量有明显抑制作用,随DCD浓度增加,其抑制效果越显著.DCD同时能推迟NO3--N含量达到高峰,使土壤NH4+-N含量在较长时间保持相对较高水平,提高氮肥利用率,减少氮素流失.DCD在3种土壤上硝化抑制效果存在差异,表现为紫色土＞灰潮土＞黄壤.同时提出DCD在3种土壤上的适宜添加量,紫色土上为普通碳铵施入量的0.5%,黄壤和灰潮土上为0.3%.     

氮添加对侵蚀退化红壤化学性质及芒萁叶功能性状的影响

蕨类植物芒萁(Dicranopteris dichotoma)是我国南方红壤侵蚀区重要的水土保持植物,但目前氮添加对芒萁叶功能性状及其基部土壤化学性质以及这二者之间关系的影响尚不清楚.以芒萁作为研究对象,采用盆栽实验,设置CK(0 g m-2 a-1)、N1(1.1 g m-2 a-1)、N2(2.3 g m-2 a-...