黄土高原不同土壤微生物量碳、氮与氮素矿化势的差异

以采自于黄土高原差异较大的25个农田石灰性耕层土壤为供试土样,对黄土高原主要类型土壤中微生物量碳(Bc)、微生物量氮(BN)和氮素矿化势(NO)的差异性进行了比较研究.结果表明,Bc、BN和NO在不同类型土壤间存在显著差异,由关中平原至陕北风沙区,BC、Bn和NO总体呈现下降趋势,其中以土垫旱耕人为土最高,简育干润均腐土最低,黄土正常新成土和干润砂质新成土居中:土垫旱耕人为土、简育干润均腐土、黄土正常新成土和干润砂质新成土等各土类平均BC分别为305.2μg·g-1,108.4μg·g-1,161.7μg·g-1和125.4μg·g-1,BN分别为43.8μg·g-1,20.3μg·g-1,26.0μg·g-1和30.6μg·g-1,NO分别为223μ·g-1,75μg·g-1,163μg·g-1和193μg·g-1.土壤氮素矿化速率(k)则以简育干润均腐土最大,干润砂质新成土最低,土垫旱耕人为土和黄土正常新成土居中:土垫旱耕人为土、简育干润均腐土、黄土正常新成土和干润砂质新成土的k分别为0.039w-1,0.044w-1,0.031w-1和0.019w-1.不同类型土壤BC、BN与NO的差异,主要与土壤形成过程、输入土壤的植物同化产物和土壤有机质的差异等有关,从较大尺度进一步证明了在黄土高原,土壤有机质是影响BC、BN的主要因子.研究结果对分析黄土高原土壤生产力形成过程具有一定参考价值.     

冬季作物对稻田土壤微生物量碳、氮和微生物熵的短期影响

研究不同的冬季作物马铃薯、黑麦草、紫云英、油菜在"冬季作物-双季稻"轮作种植制度下短期内对稻田土壤微生物碳、氮和微生物熵的影响,在湖南省土壤肥料研究所的实验网室内设置了小区试验.试验结果表明:几种冬季作物均提高了稻田土壤微生物碳、氮含量,黑麦草明显提高了土壤微生物量碳和微生物熵,紫云英明显提高了土壤微生物量氮.冬季作物对土壤微生物量碳和土壤微生物量氮的季节性影响变化趋势基本一致,紫云英、马铃薯处理的土壤微生物量C、N含量均在水稻生育期间8月中旬达到最大值.     

26年长期施肥对土壤微生物量碳、氮及土壤呼吸的影响

研究长期小麦连作施肥条件下土壤微生物量碳、氮,土壤呼吸的变化及其与土壤养分的相关性。以陕西长武长期定位试验为平台,应用氯仿熏蒸-K2SO4提取法、碱液吸收法和化学分析法分析了长达26a不同施肥处理农田土壤微生物量碳、微生物量氮和土壤呼吸之间的差异及其调控土壤肥力的作用。长期施肥及种植作物,均能提高土壤微生物量碳、氮含量,尤其是施用有机肥,土壤微生物量碳、氮含量高于单施无机肥的处理,土壤呼吸量也提高15.91%—75.73%,而施用无机肥对于土壤呼吸无促进作用。土壤微生物生物量碳氮、土壤呼吸与土壤有机质、全氮呈极显著相关。长期有机无机肥配施可以提高土壤微生物量碳氮、土壤呼吸,氮磷肥与厩肥配施对提高土壤肥力效果最好。微生物量碳氮及土壤呼吸可以反映土壤质量的变化,作为评价土壤肥力的生物学指标。     

Effect of improved nitrogen management on greenhouse gas emissions from intensive dairy systems in the Netherlands

Dairy systems in Europe contribute to the emissions of the greenhouse gases (GHGs) nitrous oxide (N₂O), methane (CH₄) and carbon dioxide (CO₂). In this paper, the effects of improved nitrogen (N) management on GHG emissions from Dutch dairy farms are determined. The GHG emissions are calculated using the panel on climate change (IPCC) methodology for the Netherlands, an updated and refined IPCC methodology, and a full accounting approach. The changes in dairy farming over the last 20 years, and the consequences for N management are described using detailed farm‐level data, collected in 1985, 1997 and 2002. The selected years represent distinct stages in the implementation of N policies. The changes in N management have reduced the GHG emissions. A reduction of the N surplus per kilogram milk with 1 g N reduced the GHG emissions per kilogram milk with approximately 29 g CO₂‐equivalents. The reduction of the N surpluses was mainly brought about by reduced fertilizer use and reduced grazing time. The use of updated and refined emission factors resulted in higher CH₄ emissions and lower N₂O emissions. On average, the overall emission was 36% higher with the refined method. Full accounting, including all direct and indirect emissions of CH₄, N₂O and CO₂, increased the emission with 36% compared with the refined IPCC methodology. We conclude that the N surplus at farm level is a useful indicator of GHG emissions. A full accounting system as presented in this study may effectively enable farmers to address the issue of emissions of GHGs in their operational management decisions. Both approaches serve their own specific objectives: full accounting at the farm level to explore mitigation options, and the IPCC methods to report changes in GHG emissions at the national level.     

High‐resolution spatial modelling of greenhouse gas emissions from land‐use change to energy crops in the United Kingdom

We implemented a spatial application of a previously evaluated model of soil GHG emissions, ECOSSE, in the United Kingdom to examine the impacts to 2050 of land‐use transitions from existing land use, rotational cropland, permanent grassland or woodland, to six bioenergy crops; three ‘first‐generation’ energy crops: oilseed rape, wheat and sugar beet, and three ‘second‐generation’ energy crops: Miscanthus, short rotation coppice willow (SRC) and short rotation forestry poplar (SRF). Conversion of rotational crops to Miscanthus, SRC and SRF and conversion of permanent grass to SRF show beneficial changes in soil GHG balance over a significant area. Conversion of permanent grass to Miscanthus, permanent grass to SRF and forest to SRF shows detrimental changes in soil GHG balance over a significant area. Conversion of permanent grass to wheat, oilseed rape, sugar beet and SRC and all conversions from forest show large detrimental changes in soil GHG balance over most of the United Kingdom, largely due to moving from uncultivated soil to regular cultivation. Differences in net GHG emissions between climate scenarios to 2050 were not significant. Overall, SRF offers the greatest beneficial impact on soil GHG balance. These results provide one criterion for selection of bioenergy crops and do not consider GHG emission increases/decreases resulting from displaced food production, bio‐physical factors (e.g. the energy density of the crop) and socio‐economic factors (e.g. expenditure on harvesting equipment). Given that the soil GHG balance is dominated by change in soil organic carbon (SOC) with the difference among Miscanthus, SRC and SRF largely determined by yield, a target for management of perennial energy crops is to achieve the best possible yield using the most appropriate energy crop and cultivar for the local situation.     

耕作和培肥对豫中区小麦-玉米轮作系统土壤氮平衡和温室气体排放的影响

豫中区作为黄淮海平原粮食的主产地,节能、减排和增效是该区农业发展的重要方向.本研究基于2010年耕作与培肥定位试验,在2018-2019年探究了 3种耕作方式(深耕、浅耕和免耕)和2种培肥模式(氮肥和氮肥+有机肥)对土壤氮平衡和温室气体排放的影响.结果表明:增施有机肥能增加土壤全氮积累量;在小麦和玉米成熟期,0～60 ...     

A critical review of the impacts of cover crops on nitrogen leaching,net greenhouse gas balance and crop productivity

Cover crops play an increasingly important role in improving soil quality, reducing agricultural inputs and improving environmental sustainability. The main objectives of this critical global review and systematic analysis were to assess cover crop practices in the context of their impacts on nitrogen leaching, net greenhouse gas balances (NGHGB) and crop productivity. Only studies that investigated the impacts of cover crops and measured one or a combination of nitrogen leaching, soil organic carbon (SOC), nitrous oxide (N₂O), grain yield and nitrogen in grain of primary crop, and had a control treatment were included in the analysis. Long‐term studies were uncommon, with most data coming from studies lasting 2–3 years. The literature search resulted in 106 studies carried out at 372 sites and covering different countries, climatic zones and management. Our analysis demonstrates that cover crops significantly (p < 0.001) decreased N leaching and significantly (p < 0.001) increased SOC sequestration without having significant (p > 0.05) effects on direct N₂O emissions. Cover crops could mitigate the NGHGB by 2.06 ± 2.10 Mg CO₂‐eq ha^?1 year^?1. One of the potential disadvantages of cover crops identified was the reduction in grain yield of the primary crop by ≈4%, compared to the control treatment. This drawback could be avoided by selecting mixed cover crops with a range of legumes and non‐legumes, which increased the yield by ≈13%. These advantages of cover crops justify their widespread adoption. However, management practices in relation to cover crops will need to be adapted to specific soil, management and regional climatic conditions.     

有机无机肥配施对双季稻轮作系统产量、温室气体排放和土壤养分的综合效应

本研究开展了连续3年(2017-2019年)的田间试验,通过设置不施肥(CK)、单施化肥(F)、等氮条件下有机肥配施化肥(FM)(有机肥全部于早稻季施用)3个处理,对双季稻轮作系统作物产量、土壤肥力进行分析,并连续2年(2018-2019年)对单施化肥和有机肥配施化肥处理的CH4和N20排放进行监测.结果表明:施肥可以...     

黄土高原不同乔木林土壤微生物量碳氮和溶解性碳氮的特征

选取黄土丘陵区子午岭4种不同乔木林下的0—5 cm和5—20 cm的土壤为研究对象,通过氯仿熏蒸浸提方法测定了微生物量碳氮、溶解性碳氮以及土壤的理化性质。研究结果表明,不同乔木林下0—5 cm土层土壤微生物量氮(MBN)土壤微生物量碳(MBC)均表现为:辽东栎侧柏油松刺槐,5—20 cm土层为:侧柏辽东栎油松刺槐,说明不同乔木林对土壤表层和下层的微生物量有明显的影响。上层土壤溶解性碳(DOC)、溶解性氮(DON)大于下层土壤。土壤微生物量碳氮比(MBC/MBN)在4—8之间,MBC/MBN、MBN、MBC均表现为随着土层的深度逐渐降低的趋势。MBC与MBN具有显著的正相关性,MBN、MBC与有机碳(SOC)、土壤全氮(TN)、MBC/MBN、溶解性碳与微生物量碳之和(DOC+MBC)、溶解性氮与微生物量氮之和(DON+MBN)呈现出极显著的正相关性(P0.01)。DOC+MBC、DON+MBN比DOC、DON、MBC、MBN更能反映土壤微生物量与活性碳氮库。总体来说,人工刺槐林对土壤碳氮库的增加有一定的作用,但是相对于辽东栎和侧柏等天然次生林有一定的差距。     

Establishment of reed canary grass with perennial legumes or barley and different fertilization treatments: effects on yield,botanical composition and nitrogen fixation

In two field experiments in northern Sweden, we investigated if intercropping reed canary grass (RCG; Phalaris arundinacea L.) with nitrogen‐fixing perennial legumes could reduce N‐fertilizer requirements and also if RCG ash or sewage sludge could be used as a supplement for mineral P and K. We compared biomass production, N uptake and N‐fixation of RCG in monoculture and mixtures of RCG with alsike clover (Trifolium hybridum L.), red clover (Trifolium pratense L.), goat's rue (Galega orientalis Lam.) and kura clover (Trifolium ambiguum M. Bieb.). In one experiment, RCG was also undersown in barley (Hordeum vulgare L.). Three fertilization treatments were applied: 100 kg N ha^?1, 50 kg N ha^?1 and 50 kg N ha^?1 + RCG ash/sewage sludge. We used a delayed harvest method: cutting the biomass in late autumn, leaving it on the field during the winter and harvesting in spring. The legume biomass of the mixtures at the inland experimental site was small and did not affect RCG growth negatively. At the coastal site, competition from higher amount of clover biomass affected RCG growth and spring yield negatively. N‐fixation in red clover and alsike clover mixtures in the first production year approximately covered half of recommended N‐fertilization rate. Goat's rue and kura clover did not establish well at the costal site, but at the inland site goat's rue formed a small but vital undergrowth. RCG undersown in barley gave lower yield, both in autumn and spring, than the other treatments. The high N treatment gave a higher spring yield at the inland site than the low N treatments, but there were no differences due to fertilization treatments at the coastal site. For spring harvest, there were no yield benefits of RCG/legume intercropping compared with RCG monoculture. However, intercropping might be more beneficial in a two‐harvest system.     

增密减氮对东北水稻产量、氮肥利用效率及温室效应的影响

水稻生产正向资源节约和环境友好的方向转型,常规高产稻作技术亟待创新.本研究以粳稻辽星1号为试材,在2012、2013年研究密度增加、基蘖肥减少、穗肥稳定的“增密减氮”栽培模式对东北水稻产量和氮肥利用效率及温室效应的影响.结果表明： 与常规高产栽培模式相比,在基本苗增加33.3%和基蘖肥施氮量减少20.0%的条件下,氮肥农学效率和氮肥偏生产力两年平均分别提高49.6%(P<0.05)和20.4%(P<0.05),单位面积和单位产量的温室效应两年平均分别下降9.9%和12.7%(P<0.05).虽然水稻有效穗数和总生物量下降,但结实率和收获指数提高,所以产量基本稳定甚至提高.增密减氮降低了土壤NH₄⁺-N和NO₃^--N浓度,提高了氮素回收效率.表明适度增密减氮可兼顾水稻高产、氮肥高效利用和温室气体减排.     

黄土高原区不同植物凋落物搭配对土壤微生物量碳、氮的影响

黄土高原丘陵沟壑区进行的以退耕还林还草为主的生态建设,使得进入土壤生态系统有机物的种类和数量发生变化,不同种类凋落物混合对土壤微生物量碳、氮的影响是值得关注的问题。本文采用室内培养试验方法研究了采自黄土高原地区6种不同植物凋落物及等比例混合后对土壤微生物量碳、氮及矿质态氮含量的影响。结果表明,加入不同植物凋落物均显著提高了培养期间土壤微生物量碳、氮含量。总体平均,添加三种等量混合后植物凋落物的土壤微生物量碳、氮含量高于两种凋落物等量混合处理,而两种凋落物混合高于单种凋落物处理;土壤矿质态氮含量的变化则相反,即单种＞两种混合＞三种混合。单种和两种混合后土壤微生物量碳、氮含量与其碳氮显著相关,而三种凋落物混合后土壤微生物量碳、氮含量与其碳氮比无相关性,说明多种凋落物混合后土壤微生物量碳、氮含量受多种因素共同影响。因此,在黄土高原植被恢复重建中,有必要采用不同种类植物搭配,利用生物多样性促进生态系统健康持续发展。     

农田土壤固碳措施的温室气体泄漏和净减排潜力

农田土壤固碳措施作为京都议定书认可的大气CO2减排途径受到了广泛关注.研究表明,农田土壤固碳措施在主要农业国家和全球都具有很大的固碳潜力.但是,实施农田土壤固碳措施有可能影响农业中化石燃料消耗和其他农业投入的CO2排放和非CO2温室气体排放.这些土壤碳库以外的温室气体排放变化可能抵消部分甚至全部土壤固碳效果,构成了农田土壤固碳措施的温室气体泄漏.因此,将土壤固碳和温室气体泄漏综合计算的净减排潜力成为了判定土壤固碳措施可行性的首要标准.综述总结了目前较受重视的一些农田措施(包括施用化学氮肥、免耕和保护性耕作、灌溉、秸秆还田、施用禽畜粪便以及污灌)的土壤固碳潜力,温室气体泄漏和净减排潜力研究成果.结果表明,温室气体泄漏可抵消以上措施土壤固碳效益的-241%～660%.建议在今后的研究中,应该关注土壤碳饱和、气候变化及土地利用变化对农田固碳措施温室气体泄漏和净减排潜力的评估结果的影响.     

Nitrogen released from different plant residues of the Loess Plateau and their additions on contents of microbial biomass carbon, nitrogen in soil

An incubation method was used to investigate the nitrogen release characteristics from the residue of ten plant species which commonly grow in the northern part of the Loess Plateau. The effect of the residue on soil microbial biomass carbon (SMBC) and soil microbial biomass nitrogen (SMBN) was also determined. There were significant differences in the total N content and the C/N ratios among the different types of plant residue. The total N content of the residues ranged from 6.61 to 32.78 g kg^?1. The C/N ratio of the residue ranged from 14 to 65. There was an immediate increase in soil N after alfalfa, erect milkvetch, and korshinsk peashrub residue was added to the soil. In contrast, soil N decreased after elm, sea buckthorn, and wild peach residue was added to the soil. The soil N content remained relatively low for 14–34 days and then increased. This indicated that N immobilization occurred during the early portion of the incubation period when elm, sea buckthorn and wild peach residue was added to the soil. Soil N levels were low during the entire incubation period when simon poplar, locust, Stipa bungeana, and old world bluestem residue were added to the soil. The addition of plant residue significantly increased SMBC and SMBN in all treatments. The SMBC and SMBN values were greatest in treatments containing plant residue with high total N content and low C/N ratios. The C/N ratios of korshinsk peashrub, sea buckthorn, and wild peach residues were similar, but the amount of N released from these residues and the effects of the residue on SMBC and SMBN in soil were significantly different. This indicates that not only the C/N ratio but also the chemical composition of the plant residue affected decomposition. It is important to consider C and N release characteristics from plant residue in order to adjust the C and N balance of soil when revegetating degraded ecosystems.     

Nitrogen released from different plant residues of the Loess Plateau and their additions on contents of microbial biomass carbon, nitrogen in soil

An incubation method was used to investigate the nitrogen release characteristics from the residue of ten plant species which commonly grow in the northern part of the Loess Plateau. The effect of the residue on soil microbial biomass carbon (SMBC) and soil microbial biomass nitrogen (SMBN) was also determined. There were significant differences in the total N content and the C/N ratios among the different types of plant residue. The total N content of the residues ranged from 6.61 to 32.78 g kg^?1. The C/N ratio of the residue ranged from 14 to 65. There was an immediate increase in soil N after alfalfa, erect milkvetch, and korshinsk peashrub residue was added to the soil. In contrast, soil N decreased after elm, sea buckthorn, and wild peach residue was added to the soil. The soil N content remained relatively low for 14–34 days and then increased. This indicated that N immobilization occurred during the early portion of the incubation period when elm, sea buckthorn and wild peach residue was added to the soil. Soil N levels were low during the entire incubation period when simon poplar, locust, Stipa bungeana, and old world bluestem residue were added to the soil. The addition of plant residue significantly increased SMBC and SMBN in all treatments. The SMBC and SMBN values were greatest in treatments containing plant residue with high total N content and low C/N ratios. The C/N ratios of korshinsk peashrub, sea buckthorn, and wild peach residues were similar, but the amount of N released from these residues and the effects of the residue on SMBC and SMBN in soil were significantly different. This indicates that not only the C/N ratio but also the chemical composition of the plant residue affected decomposition. It is important to consider C and N release characteristics from plant residue in order to adjust the C and N balance of soil when revegetating degraded ecosystems.     

冻融循环对温带3种林型下土壤微生物量碳、氮和氮矿化的影响

为了解冻融过程对森林土壤有机氮转化的影响,以长白山地区硬阔叶林、红松阔叶林和次生白桦林温带3种典型林型下的0—10 cm层(上层)和10—20 cm层(下层)土壤为试验材料,采用模拟冻融循环过程(-15—5℃)研究了冻融循环中3种林型下土壤微生物量和有效氮素的动态变化。结果表明:冻融培养过程中,多数情况下,3种林型上层土壤微生物量碳(SMBC,Soil Microbial Biomass Carbon)和土壤微生物量氮(SMBN,Soil Microbial Biomass Nitrogen)含量高于冻融循环前的对照处理(5℃恒温培养4 d后的土壤,记为CK)。冻融循环过程中3种林型下0—10 cm土层的SMBC和SMBN均显著高于10—20 cm土层(P0.05),表现出明显的SMBC和SMBN空间异质性特征。冻融过程对土壤NO_3~--N含量影响不明显,每种林型同层次不同冻融频次的土壤NO_3~--N含量间均无显著差异(P0.05)。3种林型0—10 cm层土壤的NH_4~+-N含量随冻融频次的增加表现相似的动态变化趋势,均在第3、4、5次冻融循环时表现出明显的NH_4~+-N释放特征。3种林型氮素矿(硝)化作用对冻融过程的响应明显,冻融温度变化、冻融频次和土壤层次对土壤净硝化率和净氮矿化率影响显著。3种林型下的土壤净硝化率波动偏大,0—10cm层在第2次冻融后出现最大峰值,其次为第7和第5次冻融循环。在3种林型0—10 cm层土壤中,土壤净硝化率与净氮矿化率均表现为:在短期冻融循环后达到峰值,而后呈现不同程度减小的趋势。