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1.
太行山区不同土地利用方式下土壤碳贮量的研究 总被引:2,自引:0,他引:2
通过实测对比分析了太行山区不同土地利用方式下土壤有机碳贮量的变化。研究结果表明:(1)不同土地利用方式下,土壤有机碳含量有明显差异,总的趋势是经济林(板栗林)〉水土保持林〉农田;(2)各种土地利用方式下,土壤有机碳和有机碳密度均随土壤深度增加呈现递减的趋势,但土地利用方式不同,其减少程度不同,农田土壤有机碳含量在土层深度上变化较小;(3)研究区域土壤总碳贮量为41573.67t,土壤碳贮量以经济林(板栗林)最大,达到了46.02%,水土保持林次之,而农田贡献最小,仅占5.43%。分析表明:土地利用方式对陆地生态系统碳贮量有明显影响,通过调整土地利用方式可以增加土地生态系统的碳贮量;经济林虽然人为干扰较为强烈,但由于人为投入较大,土壤碳贮量仍能保持较高的水平。 相似文献
2.
《Land Degradation \u0026amp; Development》2017,28(3):983-993
An accurate estimation of soil organic carbon (SOC) is important for the evaluation and management of carbon (C) flux in terrestrial ecosystems. However, there is little work on the spatial variability of SOC in deep soils and its driving factors. Thus, the objective of the study was to derive the primary factors dominating the spatial distribution of SOC in different soil layers with the use of the autoregressive state‐space approach. The concentration of SOC was measured to the depth of 500 cm (n = 86) along a south–north transect of China's Loess Plateau. The mean SOC of the 500‐cm soil profile generally decreased from south to north following the decreasing rainfall gradient. Based on the investigated factors, the state‐space model was able to capture 90.3–99.9% of the spatial variability of SOC in the various soil layers. According to the coefficients in the optimal state‐space model for each soil layer, climatic factors such as precipitation and temperature had a dominant control over the spatial distribution of SOC at shallow depths. However, both climatic and edaphic (e.g. soil texture) factors, and to a small extent land use, influenced the spatial behavior of SOC at the 40–200 cm soil depth. For soil layers below 200 cm, the importance of land use was revealed, and the spatial characteristics of SOC were together driven by land use, climatic and edaphic factors. This is critical for the management of soil C flux in deep soils and the C stock and cycle in terrestrial ecosystems. Table SI. Basic properties of soils and climate and elevation under three land uses along the south–north transect on the Loess Plateau (mean ± standard deviation). Note that SWC is gravimetric soil water content. Copyright © 2016 John Wiley & Sons, Ltd. 相似文献
3.
基于GIS的土壤有机碳储量核算及其对土地利用变化的响应 总被引:9,自引:3,他引:6
土地利用变化是影响土壤有机碳储量变化的重要驱动因素,为了进一步探讨土地利用变化对土壤碳储量的影响,该文根据土壤样点数据、土壤类型图、土地利用类型图,分析了江苏省1985年和2005年表层土壤有机碳密度的变化以及土地利用变化对表层土壤有机碳密度的影响,主要结论如下:1)江苏省表层土壤有机密度的空间变化趋势为:黄淮平原生态区南北差异明显,北部的沂沭泗平原丘岗以增加为主,南部的淮河下游平原以减少为主;沿海滩涂与海洋生态区持平为主;而长江三角洲平原生态区表现不一:沿江平原丘岗生态亚区以增加为主,而茅山宜溧低山丘陵生态亚区和太湖水网生态亚区均表现为有机碳密度的减少;2)各地类表层土壤有机碳密度均有所增加;耕地-林地、草地;草地-林地、建设用地;建设用地-耕地、草地、林地;水域的转出以及未利用地的转出等转换类型有利于土壤碳储量的增加、其他地类间的转换会造成一定的碳排放。 相似文献
4.
Carbon and nitrogen pools in different aggregates of a Chinese Mollisol as influenced by long-term fertilization 总被引:1,自引:0,他引:1
Ying Chen Xudong Zhang Hongbo He Hongtu Xie Ying Yan Ping Zhu Jun Ren Lichun Wang 《Journal of Soils and Sediments》2010,10(6):1018-1026
Purpose
It is known that soil organic matter (SOM) dynamics are sensitive to fertilizations, but it is different from soil to soil. It is unclear how the long-term applications of organic manure and mineral fertilizers impact the accumulation and distribution of soil organic carbon (SOC) and total nitrogen (TN) especially in soil aggregate fractions of Chinese Mollisols, which have been intensively cultivated for decades under maize monocropping and conventional tillage ways. Thereby, the research of this kind is very important for the sustainable use of agricultural land in China, where land resources are extremely limited for its huge population. The objectives of this study were to identify how the long-term fertilization treatments would affect the aggregate, SOC and TN distribution pattern in the Chinese Mollisol, and how soil aggregation contribute to the storage and stabilization process of SOC and TN. 相似文献5.
Effects of cultivation and abandonment on soil carbon content of subalpine meadows, northwest China 总被引:1,自引:0,他引:1
Zhanhuan Shang Jingjuan Cao Ruiying Guo Ruijun Long 《Journal of Soils and Sediments》2012,12(6):826-834
Purpose
Land use changes have a significant impact on soil carbon emission and sequestration worldwide. Accurate evaluation of the effect of land use change (cultivation and abandonment) on soil carbon content of subalpine meadows is required to monitor the soil carbon dynamics of rangeland ecosystems in China.Materials and methods
Based on collection of soil cores and vegetation, investigations of four types of land use (undisturbed natural meadow, land cultivated for 20?years, land abandoned for 3?years following cultivation, and land abandoned for 10?years following cultivation) were undertaken in the headwater area of the Heihe River in northwest China. Three soil carbon fractions [soil organic carbon (SOC), light fraction organic carbon (LFOC), and microorganism biomass carbon (MBC)] were determined in the laboratory, and the relative abundances of LFOC/SOC and MBC/SOC were calculated.Results and discussion
Repeated cultivation by ploughing reduced the carbon content of the top soil layer, resulting in more uniform vertical distribution of soil organic matter. Ten years after cessation of cultivation, the organic carbon content within the top 10-cm soil layer (0?C10?cm) had reached 90?% of the content in native meadows, equivalent to a mean annual sequestration rate of 1.73?t?C?ha?1. The rate of LFOC restoration was faster than that of SOC restoration. The variation in the ratio of MBC to SOC (0.91?C1.07?%) was small.Conclusions
The activity of cultivation reduced all indicators of soil carbon status, which were not completely restored to the level of natural meadow, even after abandonment of cultivation for 10?years. Nevertheless, abandonment of cultivation is a practical, even if long-term, means of improving carbon sequestration in subalpine meadow of China. 相似文献6.
云南省土壤有机碳储量估算及空间分布 总被引:4,自引:2,他引:2
根据云南省第二次土壤普查资料,采用土壤类型法估算了云南省主要土壤类型的有机碳(SOC)密度和储量,并对云南省土壤有机碳密度的空间分布差异和影响土壤有机碳储量的主要因子进行了分析。结果表明,云南省0-20 cm土层平均SOC密度为59.77 t/hm2,SOC储量为2.30×109 t;0-100 cm土层平均SOC密度为159.95 t/hm2,SOC储量为6.15×109 t,占全国储量的7.28%,占全球陆地生态系统SOC储量的0.41%;其中SOC储量占前4位的土壤类型为红壤、黄棕壤、赤红壤、棕壤,不同深度下4者之和约占云南省总储量的60%。在土壤有机碳密度空间分布上,SOC密度分布最高的区域为云南省西北部和东北部地区,其次是西部的横断山脉和东部的云南高原地区,而以紫色土为主的中北部地区SOC密度则最低。由于降雨量、温度、海拔和土地利用类型的共同影响,导致了区域内的SOC密度分布不均,其中降雨量、温度和海拔等自然因素是影响SOC密度分布的主要因子。 相似文献
7.
土壤有机碳(SOC)的稳定是陆地生态系统碳循环的关键过程之一,对维持土壤肥力和减少温室气体排放具有重要意义。以往认为植物残体中难降解性物质的物理保护和腐殖质影响土壤中有机碳库的稳定性。最近的研究结果表明,微生物介导的碳循环过程在土壤有机碳稳定中发挥着重要作用。丛枝菌根真菌(arbuscular mycorrhizal fungi,AMF)作为土壤中一类重要的共生微生物,参与植物光合碳向土壤的转运和分配,是陆地生态系统碳循环的重要一环,但其在土壤有机碳稳定中的作用潜力还未得到充分挖掘。基于此,本文估算了植物光合碳在AMF根外菌丝的分配量;总结了AMF介导的土壤有机碳稳定机制,主要包括AMF活体菌丝对碳的截留,分泌物及残体的分子结构抗性和土壤矿物吸附,提高植物源碳的质量和数量,菌丝分泌物及残体的激发效应和稳定土壤团聚体;探讨了影响AMF介导的稳定性有机碳形成的非生物(气候因子、土壤养分和土壤矿物)和生物因子(植物和AMF种类);提出了AMF与土壤有机碳周转互作机理进一步的研究方向,包括探究菌根植物光合碳转化为稳定性SOC的机制,解析不同生态系统中AMF对稳定性SOC的贡献及影响因素,并厘清... 相似文献
8.
退耕还果对黄土高原沟壑区坡地土壤和植被碳、氮储量的影响 总被引:4,自引:1,他引:3
土地利用方式变化是影响陆地生态系统碳储量的重要因素。试验以黄土高原沟壑区王东沟小流域杜家坪坡地果园和邻近农田为对象,分析了坡地退耕还果20年后,地上植被生物量、地下根系生物量以及0100 cm土层有机碳氮储量的变化及其影响因素。结果表明,坡地果园0100 cm土层有机碳(SOC)储量为C 50.7 Mg/hm2 低于农田(C 57.3 Mg/hm2),但020cm土层,果园SOC储量为C 16.7 Mg/hm2高于农田(C 15.3 Mg/hm2),增幅为9.2%;而在20100cm土层,SOC含量基本呈现出农田果园的趋势。果园土壤1m剖面各层次全氮(TN)含量都低于农田,但未达到显著水平。农田退耕为果园20年后,坡地果园植株和根系碳储量(C 19.7Mg/hm2)、氮储量(N 165.9 kg/hm2)约为农田作物(C 3.4 Mg/hm2、N96.8kg/hm2)的5.8和1.7倍。果树主干、枝条和根部的新增生物量是导致果园生态系统碳、氮储量积累的主要因素。 相似文献
9.
土地利用方式的变化在土壤有机碳(Soil Organic Carbon,SOC)积累的过程中起着非常重要的作用。目前在估算土壤有机碳储量的过程中,一直没有重视土地利用属性。运用基于土壤学专业知识的连接方法 (pedological professional knowledge-based method,PKB法),结合江苏省新沂县1∶20万土壤图,1∶20万土地利用图和1∶20万土壤类型土地利用混合图,估算了各图在不同土壤剖面点数情况下的新沂县SOC储量,并将三者在最佳剖面点数下估算出的SOC储量和SOC密度(SOCD)进行了比较及精度评价。结果表明:在土壤类型图、土地利用图和土壤类型土地利用混合图上进行的PKB法连接时最佳剖面点数均为397点,最佳网格为2 km×2 km;在中比例尺图件上进行PKB法连接估算SOC储量时,综合考虑土壤类型和土地利用类型可以大大提高估算精度,同时土地利用类型属性比土壤类型属性更为重要。研究结果可为在中比例尺条件下提高SOC估算精度提供科学依据。 相似文献
10.
It is increasingly recognized that a detailed understanding of the impacts of land use on soil carbon pools and microbially mediated carbon dynamics is required in order to accurately describe terrestrial carbon budgets and improve soil carbon retention. Toward this understanding, we analyzed the levels of biomarkers including phospholipid fatty acids, amino acids, monosaccharides, amino sugars, and several indicators of labile and stabilized carbon in soil samples from a long-term agricultural field experiment. Our results imply that the composition of soil organic carbon (SOC) strongly depends on both the applied fertilization regime and the cultivated crop. In addition, our approach allowed us to identify possible mechanisms of microbial growth and contributions to soil carbon storage under different long-term agricultural management regimes.Amino acids and monosaccharides were quantitatively the most dominant biomarkers and their levels correlated strongly positively with microbial biomass. The relative contributions of the studied biomarkers to the total SOC varied only slightly among the treatments except in cases of extreme fertilization and without any fertilizer. In case of extreme fertilization and with alfalfa as crop type, we found evidence for accumulation of microbially derived monosaccharides and amino acids within the labile OC pool, probably resulting from soil C saturation. Interestingly, we also found an accumulation of microbially derived monosaccharides and amino acids in completely unfertilized plots, which we assumed to be caused by the smaller pore space volume and subsequent oxygen limitation for microbial growth. Mineral fertilization also had substantial effects on soil organic N when applied to plots containing alfalfa, a leguminous plant. Our results demonstrate that over-fertilization, fertilizer type, and the cultivated crop type can have major impacts on the turnover and composition of soil organic carbon, and should be considered when assessing management effects on soil C dynamics. 相似文献
11.
D. R. Huggins G. A. Buyanovsky G. H. Wagner J. R. Brown R. G. Darmody T. R. Peck G. W. Lesoing M. B. Vanotti L. G. Bundy 《Soil & Tillage Research》1998,47(3-4):219-234
Concerns with rising atmospheric levels of CO2 have stimulated interest in C flow in terrestrial ecosystems and the potential for increased soil C sequestration. Our objectives were to assess land management effects on soil organic carbon (SOC) dynamics and SOC sequestration for long-term studies in the tallgrass prairie region of the US. Major losses of SOC following conversion of native prairie to arable agriculture at Sanborn Field and the Morrow Plots were rapid (20 to 40 yr), occurred in response to greatly reduced C inputs and accelerated C decay rates, and had largely abated by the mid-1900s. Losses of SOC occurred mainly in easily decomposable, labile C fractions. At Sanborn Field, modeled labile SOC was reduced to 4% of native prairie levels for treatments with low C inputs. A large capacity for soil C sequestration likely exists in the tallgrass prairie region, if labile C pools can be replenished. This agroecosystem has a strong C decomposition regime and increased sequestration of labile C will rely on management practices that increase C inputs (i.e., fertilization, returning crop residues) and stabilize labile C (i.e., perennial cropping, reduced tillage). The capacity for soil C sequestration, however, will vary considerably among sites and be dependent on initial levels of labile SOC and the ability of management practices to stabilize greater inputs of labile C. 相似文献
12.
陆地生态系统碳循环对土地利用变化的响应 总被引:3,自引:0,他引:3
陆地生态系统碳循环在全球碳循环中占有重要地位,而土地利用变化是估测陆地生态系统碳储存与释放的最大不确定性因素。植被和土壤是陆地生态系统的两大碳库,是碳循环中的两个重要纽带,土地利用变化影响陆地生态系统土壤和植被碳的固定、积累与释放,从而影响整个碳循环过程。本文主要从土壤和植被碳库的角度出发,综述了近年来土地利用变化对陆地生态系统碳循环的影响及其机理,以及研究方法进展,着重分析了模型在此方面的应用;并提出了未来研究方向的展望。 相似文献
13.
根据旱地长期定位试验和分离土壤有机质中微粒有机质及矿物结合有机质的方法,研究了长期生长苜蓿对土壤有机碳、全氮变化的驱动作用。结果表明:不施肥条件下,苜蓿地土壤有机碳、全氮的含量比裸地土壤中的含量明显增加,土壤有机碳和氮库中的微粒有机碳、氮的含量没有显著增加,而增加的有机碳、氮主要分布在矿物结合有机碳、氮组分中。在施用有机肥及氮、磷化肥条件下,苜蓿地土壤有机碳和全氮的含量显著地提高,增加的有机碳、氮几乎平均地分布在微粒有机碳、氮和矿物结合有机碳、氮组分中。由此表明,保持适宜的苜蓿生产力并采用合理的施肥措施,长期生长苜蓿能够有效地驱动土壤固定有机碳和氮素,从而保持和提高土壤肥力。 相似文献
14.
通过对299个国家级耕地土壤监测点20余年数据的统计分析,评价了我国农田表土有机碳含量变化情况和固碳潜力。结果表明,全国约80%试验点有机碳年平均相对增长率(Average relative annual increment,ARAI)在-1.5%~7.5%。中国农田表土有机碳含量整体呈上升趋势。东北、华北等6个地理区域分析得出,华北、华东、西南农田表土有机碳含量显著增加;华东地区有机碳增加的农田面积占全国农田比例最大,东北最小。旱地和水田有机碳含量增加显著;水田有机碳增加的试验点所占比例大于旱地;对ARAI与初始有机碳含量进行相关分析得出,我国旱地和水田有机碳潜在储存能力估计值分别为17.2和27.7g·kg^-1。农田土壤类型中水稻土和褐土有机碳含量增加显著;黑土有机碳含量下降样本所占比例最高。对我国各典型种植制度分析得出,双季稻、麦-稻、麦-玉、单季小麦种植制度下农田有机碳有了显著增加;麦玉轮作较其他种植制度的农田有机碳年平均相对增长率高。 相似文献
15.
S. De Baets J. Meersmans V. Vanacker T. A. Quine K. Van Oost 《Soil Use and Management》2013,29(1):65-76
This research investigates the impact of human activities on carbon (C) dynamics in a mountainous and semi‐arid environment. Despite the low C status of drylands, soil organic carbon (SOC) is the largest C pool in these systems and therefore may offer significant C sequestration potential in systems recovering from degradation. Nevertheless, quantification of this potential is limited by lack of knowledge concerning the magnitude of and controls on regional SOC stocks. Therefore, this study aimed to (i) investigate the variability of soil organic carbon in relation to recovery period and key soil and topographical variables, and (ii) quantify the effects of recovery period following abandonment on SOC stocks. Soil profiles were sampled in the Sierra de los Filabres (southeast Spain) in different land units along geomorphic and degradation gradients. SOC contents were modelled using recovery period and soil and topographical variables. Sample depth, topographic position, altitude, recovery period and stone content were identified as the main factors for predicting SOC concentrations. SOC stocks in 1 m depth of soil varied between 3.16 and 76.44 t/ha. Recovery period (years since abandonment), topographic position and altitude were used to predict and map SOC stocks in the top 0.2 m. The results show that C accumulates rapidly during the first 10–50 yr following abandonment; thereafter, the stocks evolve towards a steady‐state level. The erosion zones in the study area demonstrate greater potential to increase their SOC stocks when abandoned. Deposition zones have greater SOC values, although their C accumulation rate is lower compared with erosional landscapes in the first 10–50 yr following abandonment. Therefore, full understanding of the C sequestration potential of land use change in areas of complex topography requires knowledge of spatial variability in soil properties and in particular SOC. 相似文献
16.
Sam Ottoy Laura Vanierschot Stefaan Dondeyne Karen Vancampenhout Martin Hermy Jos Van Orshoven 《Soil Use and Management》2019,35(3):421-432
Storage of soil organic carbon (SOC) is an essential function of ecosystems underpinning the delivery of multiple services to society. Regional SOC stock estimates often rely on data collected during land‐use‐specific inventory schemes with varying sampling depth and density. Using such data requires techniques that can deal with the associated heterogeneity. As the resulting SOC assessments are not calibrated for the local scale, they could suffer from oversimplification of landscape processes and heterogeneity. This might especially be the case for sandy regions where typical historical land use practices and soil development processes determine SOC storage. The aims of this study were (a) to combine four land‐use‐specific SOC stock assessments to estimate the total stock in Flanders, Belgium, and (b) to evaluate the applicability of this regional‐scale estimate at the local scale. We estimated the SOC stock in the upper 100 cm of the unsealed area in Flanders (887,745 ha) to be 111.67 Mt OC, or 12.6 ± 5.65 kg OC m?2 on average. In general, soils under (semi‐) natural land‐use types, for example forests, store on average more organic carbon than under agriculture. However, overall agricultural soils store the largest amounts of SOC due to their vast spatial extent. Zooming in on a sandy location study (13.55 km2) revealed the poor performance of the regional estimates, especially where Histosols occurred. Our findings show that a greater spatial sampling density is required when SOC stock estimates are needed to inform carbon‐aware land management rather than to provide for regional reporting. 相似文献
17.
土壤有机碳(SOC)是维持陆地生态系统生产力和可持续性的关键,以CO2为主的温室气体过量排放导致全球气候持续变暖,对全球SOC转化产生关键作用。微生物是SOC周转的动力,是全球变暖影响SOC储量与化学特性的关键媒介。研究发现,气候变暖导致大部分农田和森林有机碳储量下降,但草原有机碳含量升高,这可能与微生物对有机碳的异化分解和同化固定之间的权衡有关。气温升高可直接提高微生物的呼吸活性,导致真菌在土壤微生物的比例降低,而细菌所占比例升高,对土壤碳库储存产生不利影响;在永久和半永久冻土中,冻融促进土壤活性有机碳库的释放,提高了土壤微生物的碳矿化速率,导致有机碳严重的矿化流失。然而,气温升高和与之相伴的CO2浓度升高有利于植物生长,使得植物光合作用增强,向土壤中输入的有机碳增加;这些外源有机碳在微生物的作用下转化为稳定的SOC,有利于SOC累积。尽管已有大量研究,但气候变暖对SOC库的整体影响与微生物机制仍不明确。从多角度入手,深入认识气候-微生物-SOC之间的关系,有利于在全球变化的大背景下,充分发挥土壤碳汇效应,为“碳达峰”和“碳中和”提供理论与政策依据。 相似文献
18.
Soil organic carbon dynamics at the regional scale as influenced by land use history: a case study in forest soils from southern Belgium 总被引:2,自引:0,他引:2
Land use change (LUC) is known to have a large impact on soil organic carbon (SOC) stocks. However, at a regional scale, our ability to explain SOC dynamics is limited due to the variability generated by inconsistent initial conditions between sample points, poor spatial information on previous land use/land management history and scarce SOC inventories. This study combines the resampling in 2003–2006 of an extensive soil survey in 1950–1960 with exhaustive historical data on LUC (1868–2006) to explain observed changes in the SOC stocks of temperate forest soils in the Belgian Ardennes. Results from resampling showed a significant loss of SOC between the two surveys, associated with a decrease in variability. The mean carbon content decreased from 40.4 to 34.5 g C kg?1 (10.6 to 9.6 kg C m?2), with a mean rate of C change (ΔSOC) of ?0.15 g C kg?1 year?1 (?0.023 kg C m?2 year?1). Soils with high SOC content tended to loose carbon while conversely soils with low SOC tended to gain carbon. Land use change history explained a significant part of past and current SOC stocks as well as ΔSOC during the last 50 years. We show that the use of spatially explicit historical data can help to quantitatively explain changes in SOC content at the regional scale. 相似文献
19.
以内蒙古赤峰市敖汉旗为研究对象,以实地调查数据为基础,结合土地利用方式与地形的变化,对敖汉旗0~100 cm深度土壤有机碳含量的空间分布特征进行了研究,旨在对地区碳储量的估算和科学利用土地资源起到积极的借鉴作用。结果表明,敖汉旗土壤有机碳含量在0~100 cm深度的土壤剖面内的变化范围为0.23~20.71 g/kg,主要集中在40 cm以上土层,且随着土层深度的增加土壤有机碳平均含量逐渐降低;各土地利用方式下土壤有机碳含量均表现为:林地农地草地。土壤有机碳含量主要富集在高海拔区的平缓地段;受土壤侵蚀的影响,当坡度10°后,不同土地利用类型的有机碳含量均显著降低。 相似文献
20.
适宜超高压处理条件脱除大蒜臭味保持抗氧化和抑菌能力 总被引:4,自引:2,他引:2
为了提升大蒜头产品的品质,该研究将超高压技术应用于大蒜头产品处理中,探究了在200、300、400、500 MPa压力条件下处理10 min,大蒜风味物质,尤其是含硫挥发性化合物的变化,同时考察超高压对大蒜主要活性成分大蒜素含量、抗氧化和抑菌能力的影响.试验结果表明,超高压处理较于在95℃下60 s的蒸汽漂烫处理,不仅具有良好的杀菌作用,同时还可以去除大蒜中的刺激性风味,起到脱臭作用.大蒜经500 MPa处理后,主要蒜臭味嗅感物质二烯丙基二硫化物含量降低至30.69%,经过热处理的大蒜,二烯丙基二硫醚化合物则降低至54.68%,与超高压处理后的大蒜具有显著性差异(P<0.05).500 MPa处理后的大蒜中大蒜素浓度上升至0.079 mmol/L,高出热处理组具有显著性差异(P<0.05);铁离子还原能力较热处理组高出64.24%,具有显著性差异(P<0.05),1,1-二苯基-2-三硝基苯肼清除率高出热处理组28.68%,具有显著性差异(P<0.05);经热处理后的大蒜均丧失全部抑菌能力,而超高压处理后的大蒜对不同种的细菌仍具有一定的抑菌能力,对黑曲霉的抑菌能力与无处理组无显著差异.相关性分析结果显示,大蒜的抑菌能力与硫醚类化合物显著相关(r>0.884),与二烯丙基二硫醚、总酚含量未呈现显著相关,抗氧化能力未与硫醚类化合物含量、二烯丙基二硫醚、总酚呈显著相关趋势.研究结果为大蒜头产品的品质改良提供参考. 相似文献