不同植物种植对松嫩平原盐碱地土壤理化性质与细根生长的影响

土地利用方式如何影响土壤理化性质及其作用深度一直是土壤生态学的研究热点,但是对松嫩平原退化盐碱地的相关研究匮乏。以肇东实验林场为研究对象,对8种植被类型的3个土层0~60 cm进行采样,共测定13个相关指标,结果显示：不同植被对根系密度、土壤pH、速效磷含量、土壤含水量、电导率、有机碳含量、全氮含量具有显著影响：其中前3个在不同土层的种间差异显著不同,而其余4个指标在60 cm土壤内种间差异一致。具体表现为：0~40 cm水曲柳根系密度最大,但在40~60 cm草地根系密度最大;黄檗的pH值在0~20 cm最大,但是在40~60 cm最小,而草地的pH值在20~60 cm均大于其他植物种类;速效磷含量在0~20、40~60 cm均是樟子松最小,但在20~40 cm层樟子松速效磷含量最高。草地土壤含水量26.7%,显著高于其它,是落叶松的1.8倍,其土壤电导率为503.4 μs·cm^-1,明显大于其它各植被类型;杨树、樟子松的土壤有机碳含量显著低于黄檗、榆树、草地和水曲柳;土壤全氮含量最低的樟子松和杨树仅为草地的72.3%。所有其他养分包括全磷、全钾、速效钾不同植被间没有差异。上述结果说明,与原有植被草地相比,松嫩平原盐碱化土壤造林虽然能降低盐碱化,但同时对水分消耗较大,造林各个树种对土壤养分消耗相差不大,多体现在有机碳和氮。这些发现可为今后该地区种间差异比较、土壤肥力评价、土壤养分收支平衡等研究提供指导。     

松嫩平原沙土区不同植被类型对土壤相关指标的影响

松嫩平原沙土区严重退化,不同植被对土壤影响的数据有助生态恢复,但相关数据匮乏严重。本研究以松嫩平原核心区新店林场的农田、草地、杨树林、落叶松林、樟子松林和榆树林等6种植被为研究对象,采集三层（0~20、20~40和40~60 cm）土样,测定土壤理化指标（容重、土壤含水量、土壤pH、土壤电导率、有机碳、碱解氮、全氮、速效磷、全磷、速效钾、全钾）及根系密度、根系含水量。结果如下：6种植被在整个土壤剖面上显著影响了13个指标中的8个指标（根系密度、容重、土壤含水量、土壤pH、土壤电导率、全氮、根系含水量、有机碳）,其中根系密度植被间差异在不同土层显著不同(交互作用,P<0.05),而其它7个指标在不同土层的种间差异基本一致（交互作用,P>0.05）。与林地和农田相比,草地具有最大的根系生物量,达到农田的1.8倍,是4种林分平均值的1.4倍。容重、土壤含水量、pH、土壤电导率值均草地最高,林地最小。土壤有机碳的累积受根系密度和容重影响明显,土壤氮除了受上述两个因素影响外,还受土壤含水量的影响。上述结果说明草地对于表层土壤生物固着明显,而人工造林能够改善土壤物理性质、降低盐碱但增加耗水,这些结果对于西部沙土区通过植被恢复来实现土壤修复提供数据支撑。     

树种差异对哈尔滨市土壤理化性质影响及造林启示

东北地区的城市造林树种很多,树种差异对土壤理化性质的影响及其在不同土层深度差异对于适宜树种选择意义重大,但是基于野外长期定位研究结果匮乏。本文选择东北林业大学实验林场和哈尔滨市植物园的8个树种(水曲柳、胡桃楸、云杉、松树、杨树、榆树、黄檗、落叶松)进行0~20、20~40和40~60 cm分层土壤采样,对土壤p H、土壤电导率、有机碳、碱解氮、全N、速效磷、全P、速效钾、全K等9个指标进行研究。多因素方差分析显示,长期定植于类似土壤条件下,树木能够显著影响土壤各理化指标,但不同土壤层间存在明显差异。基于多重比较结果对各指标进行标准化处理、获得综合得分排名发现,榆树具有较好的土壤肥力维持能力(有机碳、碱解氮、全N、全P、速效磷、速效钾、全K),综合得分38,而杨树表现最差;降低土壤盐碱能力(p H和电导率)来看,黄檗、落叶松得分比较高(15),胡桃楸表现最差(7.5)。城市立地是典型困难立地,我们研究结果说明绿化树种选择对于改良城市土壤的重要性:对于贫瘠盐碱的核心区域,造林树种可以选择养分消耗少和降盐碱能力强的树种,对于土壤水肥条件优越的地区(如河道、湿地周边)可以考虑一些养分消耗快、生产力高的树种。     

子午岭林区浅层滑坡侵蚀与植被的关系——以富县“7·21”特大暴雨为例

以2013年陕北富县"7·21"特大暴雨滑坡侵蚀灾害为对象,通过调查暴雨侵蚀区典型小流域植被条件及滑坡特征,测定滑坡壁不同土层的根系重量、土壤孔隙度、土壤容重等指标,研究子午岭林区暴雨滑坡侵蚀与植被根系的关系。根据不同类型植被根系深度和滑坡侵蚀特征(侵蚀深度、滑动面宽度及长度,滑坡体体积、滑动距离等),可将林区暴雨滑坡侵蚀划分为三类:以草本植被为主的A类滑坡,以灌丛植被为主的B类滑坡,以乔本植被为主的C类滑坡。结果表明,三类滑坡侵蚀的侵蚀深度与其对应植被类型的根系深度相近,且植被及其根系会加剧滑坡侵蚀的发生。在此次暴雨滑坡侵蚀中,滑坡侵蚀强度受植物根系重量、土壤孔隙度、土壤容重等因素的共同影响,但根系重量对滑坡侵蚀强度的影响占主导作用,通过建立二者之间的关系式发现,根系对滑坡侵蚀的贡献率超过80%。不同植被类型的滑坡侵蚀深度不同,且滑坡侵蚀强度也存在差异,表明植被根系不仅具有塑造滑坡侵蚀特征的作用,而且会影响滑坡侵蚀的强弱程度。在强降水基础上,特别是当降水量达到诱发滑坡灾害发生的临界值时,植被及其根系会加剧滑坡侵蚀的发生。在今后工作中,要因地制宜合理配置各类植被,同时结合其它措施,以便提高植被防治水土流失的作用,更好地发挥植被的水土保持效益。     

乡土树种在三亚退化山地的早期土壤肥力研究

目的：为人工促进三亚退化山地植被的恢复提供树种选择依据。方法：通过土壤分析方法比较研究三亚退化山地7个乡土树种早期的土壤肥力状况。结果：造林树种区域的土壤含水率、土壤容重、土壤电导率均显著高于非造林地。7个乡土树种的土壤有机质(12.85～20.89 g·kg^-1)、全氮(0.10～0.15 g·kg^-1)、微生物生物量碳(176.94～429.36 mg·kg^-1)和氮含量(22.61～38.47 mg·kg^-1)均高于非造林地,反映造林树种可有效改良土壤肥力,但不同树种对土壤养分的吸收存在差异。海南菜豆树(Radermachera hainanensis)和五月茶(Antidesma bunius)土壤碱解氮含量显著高于其它树种,且微生物碳和氮含量均较高。PCA分析结果表明,土壤有机质、碱解氮、速效磷和土壤微生物生物量氮为主要影响因子。海南菜豆树最有利于土壤肥力的改善,红花天料木(Homalium ceylanicum)次之,岭南山竹子(Garcinia oblongifolia)最小。结论：该...     

不同恢复类型植被细根分布及与土壤理化性质的耦合关系

针对陕北典型黄土丘陵区吴起县主要人工造林和自然封育植被恢复类型,确定5、15年和40年不同退耕年限下的沙棘、山杏及自然恢复草地样地,进行剖面采样,分析不同植被恢复类型下细根生物量、土壤理化性质,研究了不同恢复类型和不同年限植被细根生物量与土壤理化性质随时间的变异规律及耦合关系。结果表明,(1)总体上,主要造林树种和退耕自然封育草地细根生物量都随林龄和退耕年限的增长呈增加趋势,同年限人工造林树种细根生物量大于自然恢复的草地,不同植被群落细根生物量均表现出随着深度的增加呈指数递减规律。(2)自然封育的草地生态系统土壤含水量大于人工山杏林和沙棘林。人工造林和自然封育植被恢复下,土壤团聚体稳定性都随退耕年限的增加而增强,有机质、全氮、全磷含量也都呈增加趋势,土壤平均含水量则呈减小趋势。(3)细根生物量与土壤容重和团聚体稳定性显著相关,植物细根在土壤结构改善中起到了重要作用。     

东北5种温带人工林表层土壤碳氮含量的分异

造林是固碳(C)的有效方法之一,也深刻地影响土壤氮(N)动态,然而不同造林树种对土壤C和N收支的影响及其机制尚不明确.本研究采用同质园试验方法,测定了东北温带水曲柳、胡桃楸、白桦、落叶松和樟子松5个主要造林树种造林后第3年和第11年表层(0～10 cm)土壤有机C(C_soil)、全N含量(N_soil)的变化,以及植被特性和土壤微生物等相关因子,探究了不同树种造林对土壤C、N的影响及驱动因子.结果表明: 试验期间,5个树种纯林的C_soil、N_soil均显著降低,C_soil与N_soil变化量呈显著正相关,并且C_soil减少速率(2.6%·a^-1～4.8%·a^-1)显著高于N_soil减少速率(0.8%·a^-1～2.8%·a^-1).阔叶树种纯林C_soil、N_soil减少量显著小于针叶树种纯林.树种特征、微生物特性共同解释了C_soil变化率的68.5%、N_soil变化率的90.9%,C_soil、N_soil变化率随凋落叶C/N及微生物生物量C/N的增大而减小,但随着细根生物量、微生物生物量C及微生物获取C酶与获取N酶之比的增加而增大;N_soil变化率还随凋落叶产量及微生物代谢熵的增大而减小.这些温带人工林在造林11年后表层土壤C、N含量显著减少,而树种间的不同变化强度主要是由树种特征和土壤微生物特性的差异引起的.     

南亚热带红锥、杉木纯林与混交林碳贮量比较

造林再造林作为新增碳汇的一种有效途径,受到国际社会的广泛关注。如何通过改变林分树种组成,优化造林模式提高人工林生态系统碳贮量已成为国内外学者关注的重点。通过样方调查和生物量实测相结合的方法,对南亚热带26年生红锥纯林(PCH)、杉木纯林(PCL)及红锥×杉木混交林(MCC)生态系统各组分碳含量、碳贮量及其分配特征进行了比较研究。结果表明:杉木、红锥各器官平均碳含量分别为492.1—545.7 g/kg和486.7—524.1 g/kg。相同树种不同器官以及不同树种的相同器官间碳含量差异显著(P0.05)。红锥各器官碳含量的平均值(521.3 g/kg)高于杉木(504.7 g/kg)。不同林分间地被物碳含量大小顺序为PCHMCCPCL;不同树种之间的土壤碳含量差异显著(P0.05),0—100 cm土壤平均碳含量为PCLMCCPCH。生态系统碳贮量大小顺序为PCL(169.49 t/hm2)MCC(141.18 t/hm2)PCL(129.20 t/hm2),相同组分不同林分以及相同林分的不同组分碳贮量均存在显著差异(P0.05)。造林模式对人工林碳贮量及其分配规律有显著影响,营建混交林有利于红锥生物量和土壤碳的累积,而营建纯林有利于杉木人工林生物量碳的吸收,也有利于土壤碳的固定。因而,混交林的固碳功能未必高于纯林,在选择碳汇林的造林模式时,应以充分考虑不同树种的固碳特性。     

碳输入方式对森林土壤碳库和碳循环的影响研究进展

凋落物和植物根系是森林土壤有机碳的主要来源.综述了不同碳输入方式对土壤全碳、微生物生物量碳和可溶性有机碳等碳库组分及土壤呼吸影响的研究进展.不同地区、不同森林土壤有机碳对碳输入的响应程度不同,且采用添加和去除凋落物,以及去除根系方法(DIRT)对土壤碳的影响具有树种差异和区域差异.目前主要侧重于土壤呼吸和碳库组分的研究,亟需开展对土壤碳的结构类型和稳定性,以及土壤生物尤其是土壤动物的响应机制的相关研究.     

半干旱区沙质退化草地造林对土壤质量的影响

采用野外调查与室内培养相结合的方法,研究了我国北方半干旱区科尔沁沙地退化草地营造樟子松人工林32年后0～10 cm表层土壤理化性状、土壤碳氮矿化量、土壤微生物量以及土壤酶活性等的变化. 结果表明32年生樟子松人工林土壤有机碳、全氮和全磷等养分含量分别下降了21%、42%和45%;5月和11月樟子松人工林土壤NH4 -N显著高于草地(P=0.001;P=0.019),而5、8和11月草地土壤NO3--N含量显著高于樟子松人工林(P＜0.001;P=0.048;P=0.031);5、8和11月樟子松人工林土壤有机碳日矿化释放的CO2-C量均大于草地,而二者土壤氮矿化率差异不显著(P＞0.05);5和8月樟子松人工林土壤微生物量碳含量与草地相比差异不显著,11月则显著高于草地;土壤养分和水分含量是影响土壤微生物量碳含量的重要因素;与草地相比,樟子松人工林土壤脲酶和蔗糖酶活性降低,而土壤过氧化氢酶活性升高. 上述结果说明半干旱区沙质退化草地营造樟子松人工林32年后土壤质量出现一定程度的下降;由于植被的改变,樟子松人工林土壤理化性状和生物学性状等表现出与草地不同的季节动态特征.造林作为我国北方半干旱区沙地退化生态系统的一种恢复手段具有一定的局限性.     

Concept,Components, and Strategies of Soil Health in Agroecosystems

The terms ''''soil health'''' or ''''soil quality'''' as applied to agroecosystems refer to the ability of soil to support and sustain crop growth while maintaining environmental quality. High-quality soils have the following characteristics: (i) a sufficient, but not excess, supply of nutrients; (ii) good structure (tilth); (iii) sufficient depth for rooting and drainage; (iv) good internal drainage; (v) low populations of plant disease and parasitic organisms; (vi) high populations of organisms that promote plant growth; (vii) low weed pressure; (viii) no chemicals that might harm the plant; (ix) resistance to being degraded; and (x) resilience following an episode of degradation. Management intended to improve soil health involves creatively combining a number of practices that enhance the soil''s biological, chemical, and physical suitability for crop production. The most important general strategy is to add plentiful quantities of organic matter—including crop and cover crop residues, manures, and composts. Other important strategies include better crop rotations, reducing tillage and keeping the soil surface covered with living and dead residue, reducing compaction by decreasing heavy equipment traffic, and using best nutrient management practices. Practices that enhance soil quality frequently reduce plant pest pressures.     

晋西北不同土地管理方式对土壤碳氮、酶活性及微生物的影响

晋西北丘陵区受干旱大风气候以及人为活动的影响,土壤肥力较低,土壤质量退化严重,不同的土地利用和管理方式,因植被覆被、人为活动等不同,对土壤质量产生影响不同。为了更好地了解晋西北地区不同土地管理方式对土壤质量的影响,于山西省北部忻州市五寨县,研究不同管理方式对土壤肥力、土壤酶活性、微生物群落结构及多样性的影响,以及微生物与土壤环境因子的关系,为晋西北地区土地管理和生态建设提供参考。研究中设置4种土地管理方式:苜蓿样地(MX)、免耕样地(MG)、翻耕样地(FG)和荒地(HD),采用野外采集土壤样品、室内测定和分析的研究方法,其中土壤pH值利用电位法测定,土壤有机碳(OC)采用重铬酸钾氧化-分光光度法测定;土壤硝态氮、铵态氮利用全自动间断化学分析仪测定,其原理为紫外分光光度和靛酚蓝比色法。土壤过氧化氢酶、蔗糖酶、脲酶和磷酸酶活性分别采用KMnO_4滴定法、3,5-二硝基水杨酸法、苯酚钠-次氯酸钠比色法、磷酸苯二钠比色法测定,采用高通量测序测定土壤细菌和真菌的群落组成,利用统计分析软件SPSS和Canoco以及QIIME、USEARCH和Uclust生物信息软件分析不同土地管理方式对土壤质量的影响。结果表明,不同土地管理方式对土壤化学性质、土壤酶活性、细菌和真菌的群落结构及多样性均有影响。苜蓿和免耕2种土地管理方式可显著提高表层土壤养分并增加土壤酶活性;4种土地管理方式共有9个细菌门和11个真菌门,细菌相对丰度较大的为变形菌门、放线菌门和酸杆菌门,真菌的子囊菌门相对丰度最大;苜蓿和免耕样地土壤细菌和真菌群落丰富度和多样性都较高,荒地土壤细菌和真菌群落丰富度较低,但多样性较高;RDA分析结果表明,土壤pH、NH~+_4-N和NO~-_3-N含量和过氧化氢酶活性对细菌群落影响较大,pH、有机碳含量、蔗糖酶、脲酶和过氧化氢酶活性对真菌群落影响最大。苜蓿和免耕2种土地管理方式能够提高土壤质量,是晋西北地区较为适宜的管理措施。     

Restoration,soil organisms,and soil processes: emerging approaches

Better understanding of the connection between aboveground plant communities and belowground soil organisms and processes has led to an explosion in recent research on the applications of this link to the field of ecological restoration. Research is only beginning to have the capacity to link soil organisms and specific ecosystem functions. Establishing general ecological principles of the role microbial communities have during ecological restoration is also still in its infancy. As such, the literature is at a critical point to generate a Special Feature that brings together novel approaches of linking soil and restoration to promote more regular inclusion and consideration of soil organisms and soil‐based processes in ecological restoration. In this special feature, we bring together nine research articles from different ecosystems that study the relationship between restoration activities, soil microbial communities, and soil properties. From these research articles, we describe two primary themes: (1) research on the impacts of ecosystem‐specific restoration activities on soil organisms and processes and (2) research testing methods of soil manipulation to improve restoration outcomes. We hope to inspire readers and restoration practitioners to consider soil microbes and soil processes in their research, restoration projects, and world views.     

西宁南山4种灌木根际和非根际土壤微生物、酶活性和养分特征

西宁南山区植被退化情况严重,人工造林植被恢复被看作是最有效的恢复手段,其中选择合适造林树种尤为关键。选择人工种植的唐古特白刺Nitraria tangutorum、柠条Caragana korshinskii、西北小蘗Berberis vernae和短叶锦鸡儿Caragana brevifolia共4种灌木树种造林试验区为研究对象,通过测定根际和非根际土壤微生物数量、酶活性及养分含量,综合比较种植4种灌木树种根际和非根际土壤肥力差异,科学评价其对土壤的改善效果。研究表明:(1)土壤微生物数量和酶活性总体呈现出根际高于非根际的规律,仅放线菌数量和脲酶活性出现了根际低于非根际现象。(2)土壤养分方面,4种灌木根际土壤和非根际土壤p H值、全N、全P、全K含量差异不显著,有机质、有效P、速效K含量均呈现出根际非根际,而碱解N则是根际非根际。(3)土壤酶活性与土壤微生物数量相关性不显著,土壤有机质含量与土壤细菌、真菌数量呈极显著正相关,有效P含量与土壤细菌、真菌和放线菌数量呈极显著正相关,速效K含量与过氧化氢酶、酸性磷酸酶活性呈显著正相关,全N、碱解N含量均与脲酶活性呈显著正相关。(4)从土壤肥力综合水平来看,根际非根际,其中根际土壤中西北小蘗柠条短叶锦鸡儿唐古特白刺,研究结果表明西北小蘗和柠条能大幅提高土壤肥力,改良土壤效果较好。     

The Adsorption Properties of Agricultural and Forest Soils Towards Heavy Metal Ions (Ni,Cu, Zn,and Cd)

Adsorption of Cu, Cd, Ni, and Zn in single and multi-metal solutions by agricultural and forest soils was investigated in batch sorption experiments. The results showed significant differences in sorption capacities of the studied soils. The selectivity order was as follows: agricultural soil? top forest soil > bottom forest soil. The adsorption sequence Cu > Zn > Ni > Cd was established for the agricultural and bottom forest soil, while the order for the top forest soil was Cu > Ni > Zn > Cd. The experimental isotherms for the metal sorption were described satisfactorily by the Freundlich and Langmuir models. The competitive adsorption experiment indicated a reduction in the amount of metals adsorbed by the soils from the multi-metal solution compared to the single metal solution. Properties of the soils, such as pH, content of clay and organic matter, exchangeable bases and hydrolytic acidity, showed a significant influence on adsorption capacities of the studied soils.     

Soil phosphorus fractions,aluminum, and water retention as affected by microbial activity in an Ultisol

Increased organic matter input into weathered and infertile soils through agricultural techniques such as minimum tillage or agroforestry can improve P availability to crops. Organic matter is an energy source for microbes, and their activity may be responsible in part for increased levels of labile P. The objective of the work reported here was to examine, in a highly weathered Ultisol, the influence of microbial activity in mobilizing P, maintaining it in a plant-available state, and preventing its fixation, and the effect of N and biocides on these processes. Exchangeable aluminum and soil moisture were also determined, since they interact with microbes and soil P.Results showed that increased microbial activity reduced sorption of dissolved and organic P by soil, maintained inorganic P in soluble and labile pools, increased microbial P, decreased mineral P, increased exchangeable Al, and increased water retention. Additions of N and biocides had variable effects, probably due to complex interactions between N, degrading biocides, and microbial populations.     

Site and temporal variation of soil respiration in European beech, Norway spruce, and Scots pine forests

Global warming and changes in rainfall amount and distribution may affect soil respiration as a major carbon flux between the biosphere and the atmosphere. The objectives of this study were to investigate the site to site and interannual variation in soil respiration of six temperate forest sites. Soil respiration was measured using closed chambers over 2 years under mature beech, spruce and pine stands at both Solling and Unterlüß, Germany, which have distinct climates and soils. Cumulative annual CO₂ fluxes varied from 4.9 to 5.4 Mg C ha^?1 yr^?1 at Solling with silty soils and from 4.0 to 5.9 Mg C ha^?1 yr^?1 at Unterlüß with sandy soils. With one exception soil respiration rates were not significantly different among the six forest sites (site to site variation) and between the years within the same forest site (interannual variation). Only the respiration rate in the spruce stand at Unterlüß was significant lower than the beech stand at Unterlüß in both years. Soil respiration rates of the sandy sites at Unterlüß were limited by soil moisture during the rather dry and warm summer 1999 while soil respiration at the silty Solling site tended to increase. We found a threshold of ?80 kPa at 10 cm depth below which soil respiration decreased with increasing drought. Subsequent wetting of sandy soils revealed high CO₂ effluxes in the stands at Unterlüß. However, dry periods were infrequent, and our results suggest that temporal variation in soil moisture generally had little effect on annual soil respiration rates. Soil temperature at 5 cm and 10 cm depth explained 83% of the temporal variation in soil respiration using the Arrhenius function. The correlations were weaker using temperature at 0 cm (r² = 0.63) and 2.5 cm depth (r² = 0.81). Mean Q₁₀ values for the range from 5 to 15 °C increased asymptotically with soil depth from 1.87 at 0 cm to 3.46 at 10 cm depth, indicating a large uncertainty in the prediction of the temperature dependency of soil respiration. Comparing the fitted Arrhenius curves for same tree species from Solling and Unterlüß revealed higher soil respiration rates for the stands at Solling than in the respective stands at Unterlüß at the same temperature. A significant positive correlation across all sites between predicted soil respiration rates at 10 °C and total phosphorus content and C‐to‐N ratio of the upper mineral soil indicate a possible effect of nutrients on soil respiration.     

土壤质量与土壤质量指标及其评价

土壤作为一种重要的自然资源可以为人类生产食物和纤维,并维持地球生态系统.土壤也是植物生长的媒介、水、热和化合物的源、水分的过滤器和废物分解的生物介质.土壤与水、气和植物互作并抑制环境的波动.土壤可以调节很多控制水气质量和促进植物生长的生态过程.土壤质量概念的引入使我们更全面地理解土壤,也有助于合理地使用和分配劳力、能源、财政和其它投入.土壤质量也提供了一个通用的概念使得专业人员、生产者和公众明白土壤的重要性.此外,它也是一个评价管理措施和土地利用变化对土壤影响的评价工具.土壤质量由土壤的物理、化学和生物性质组成,MDS已被科学家们提出用于土壤质量评价.国际上比较常用的评价方法主要有多变量指标克立格法、土壤质量动力学方法、土壤质量综合评分法和土壤相对质量法.人类对土地不和谐地利用和管理可以导致全球生物地球化学循环发生改变和加快土壤性质变化的速度,当前世界各地土壤退化相当严重,已日益威胁到人类赖以生存的土地资源.在探讨相关概念的基础上综述了近年来土地利用变化对土壤理化质量和生物质量的影响进展,以引起国内外学者对土地利用变化对土壤质量影响研究的重视,从而为探讨土地利用对土壤质量影响的机理和规律以及退化土地的恢复和区域土地资源管理以及土地的持续利提供理论依据.土壤质量未来的研究应该集中在土壤质量指标与评价方法;土壤质量变化的发生条件、过程、影响因素及其作用机理与时空规律性;尺度问题的研究;土壤质量保持与提高的途径及其关键技术研究.     

Effects of soil physics,chemistry, and microbiology on soil carbon sequestration in infertile red soils after long-term cultivation of perennial grasses

Determining the effect of perennial energy crop (PEC) cultivation on soil organic carbon (SOC) in marginal land soil is vital for carbon neutrality and bioeconomy development. However, a comprehensive and systematic evaluation of the response of SOC content to different PECs and its underlying drivers is still lacking. We used soil data collected from infertile red topsoil (0–20 cm) after 10 years of cultivation with Miscanthus (MS), Panicum virgatum (SG), and Saccharum arundinaceum (SA) to explore the changes in SOC stock induced by PEC. The roles of physical, chemical, and microbiological factors driving the increase in the SOC stock were investigated. Results revealed that SA and MS enhanced SOC stock by 87.97% and 27.52% relative to the uncultivated control. Conversely, PEC increased the percentage of soil mega-aggregates, geometric mean diameters, soil chelate iron (Fe), and aluminum (Al) oxides, and reduced soil acidity for the infertile red soils. In addition, fungal richness and diversity for PEC soils were enhanced compared to the unplanted soil. It is possible that PEC cultivation reduced the relative abundance of copiotrophic fungi but increased the relative abundance of oligotrophic fungi. Furthermore, variance partitioning analysis revealed that chemical and microbiological factors accounted for 80.54% of the total variation for the SOC stock. The partial least squares path model showed that PEC cultivation enhanced soil carbon (C) stock via soil deacidification and increased soil bacterial function. In conclusion, this study confirms the SOC sequestration potential of PEC cultivation in marginal land and the underlying mechanism driving SOC stock. The main positive factors controlling soil C sequestration included “pH,” while the negative factors were “bacterial community,” “fungal community,” and “bacterial function.” Our research may help encourage and support decision-makers of wasted marginal land conversion to PEC cultivation.     

颗粒有机质的来源、测定及其影响因素

土壤活性有机质及其组分作为土壤质量的重要指标在土壤化学、物理和生物性质方面起着重要作用。颗粒有机质能够有效地反映有机质的特性,与微生物生长、营养供给及C、N的生物学调节密切相关。作为活性有机质的一个量度指标,颗粒有机质越来越受到人们的重视。本文综述了土壤颗粒有机质的来源及其在土壤有机质转化过程中的作用,对其测定方法作了系统的描述,阐明了土壤理化性质、农业措施(施肥与耕作)及土地利用类型对土壤颗粒有机质在土壤形成及维持其稳定性方面的影响。