桉树人工林与杉木林、毛竹林土壤理化性质对比研究

在对永安市尾巨桉人工林、杉木林、毛竹林野外调查取样和室内实验分析基础上,对11年生尾巨桉林、3年生尾巨桉林与杉木林和毛竹林的土壤理化性质进行全面比较．结果表明,3年生尾巨桉林各层土壤中的土壤有机质、全氮和碱解氮、全磷和速效磷、全钾和速效钾含量大多低于其他3种林地,反映了处于速生期的桉树对养分的旺盛需求和消耗;并且,速生期桉树还会造成一定程度的土壤表层粘粒下移和酸化;但随着桉树种植年限的增加,这种状况有所改善．在此基础上,提出变炼山全垦为块状整地,速生期人工施肥,延长轮伐期,实行间种、轮栽并适当休闲养地,提高桉树人工林生物多样性等措施,以实现桉树人工林土壤养分平衡与生态系统的良性循环．     

不同年龄杉木人工林土壤无机氮比较研究

在福建南平杉木林中心产区,选取11、21、28、40、88年生杉木人工林以及采伐迹地、杂木林为研究对象,研究不同年龄杉木林土壤无机氮的差异．结果表明：不同年龄杉木林土壤NH4^＋-N含量差异显著,以21年生的杉木人工林最高（11．91±0．43mg·kg^-1）,其他的为88年生的（8．33±0．38mg·kg^-1）〉28年生的（8．19±0．25mg·kg^-1）〉11年生的（5．65±0．17mg·kg^-1）〉40年生的（5．63±0．38mg·kg^-1）;NO3^--N含量较低（3．15～4．11mg·kg^-1）,且没有显著差异,这与杉木林所处的生长阶段、土壤理化性质有关．杉木林取代杂木林后,NH4^＋-N和NO3^--N含量都有所下降;采伐迹地土壤NH4^＋-N（19．74±1．44mg·kg^-1）和NO3^--N（18．05±0．72mg·kg^-1）含量远高于88年生的杉木林,分别是88年生的2．37和4．60倍．本地区无机氮含量较低,NH4^＋-N占无机氮的比例为60．0％～74．3％,NH4^＋-N为无机氮的主要形态．     

不同年龄杉木人工林土壤无机氮比较研究

在福建南平杉木林中心产区,选取11、21、28、40、88年生杉木人工林以及采伐迹地、杂木林为研究对象,研究不同年龄杉木林土壤无机氮的差异.结果表明:不同年龄杉木林土壤NH4 -N含量差异显著,以21年生的杉木人工林最高(11.91±0.43 mg·kg-1),其他的为88年生的(8.33±0.38 mg·kg-1)>28年生的(8.19±0.25 mg·kg-1)>11年生的(5.65±0.17 mg·kg-1)>40年生的(5.63±0.38 mg·kg-1);NO3--N含量较低(3.15～4.11 mg·kg-1),且没有显著差异,这与杉木林所处的生长阶段、土壤理化性质有关.杉木林取代杂木林后,NH4 -N和NO3--N含量都有所下降;采伐迹地土壤NH4 -N(19.74±1.44 mg·kg-1)和NO3--N(18.05±0.72 mg·kg-1)含量远高于88年生的杉木林,分别是88年生的2.37和4.60倍.本地区无机氮含量较低,NH4 -N占无机氮的比例为60.0%～74.3%,NH4 -N为无机氮的主要形态.     

不同更新方式对中亚热带森林土壤理化性质的影响

森林的不同更新方式对森林土壤理化性质有重要影响．本研究通过野外调查探讨中亚热带山区杉木人工林和米槠人促更新林2种不同更新方式下林地土壤理化性质的变化特征,并用土壤退化指数定量描述土壤质量变化．结果表明：杉木人工林土壤表层（0—10cm）容重显著高于米槠人促更新林（P〈0．05）;随土壤深度的增加,杉木人工林和米槠人促更新林土壤有机C、全N、全P、水解N和有效P均逐渐降低．米槠人促更新林表层（0—10cm）土壤有机c比杉木人工林高出15．6％,全N、全P以及水解N和速效P也均表现出人促米槠更新林高于杉木人工林的趋势;土壤退化指数的计算结果表明杉木林土壤质量显著低于米槠人促更新林．     

连栽杉木丛枝菌根真菌侵染率和土壤性质的关系

杉木连栽常导致地力退化,但连栽是否影响丛枝菌根真菌的侵染率并不清楚。以福建三明粉砂岩发育红壤上的连栽杉木为对象,研究了杉木细根丛枝菌根真菌侵染率与土壤性质的关系,分析了杉木连栽影响杉木根系菌根侵染率的主导因素。结果表明,杉木连栽没有显著导致土壤退化现象,二代林杉木细根丛枝菌根真菌侵染率显著高于一代和三代林,一代和三代林之间没有明显差异。通过主成分分析发现,在杉木连栽时,影响杉木丛枝菌根真菌侵染率的主导土壤因子是全氮、容重、SOC和速效磷含量。因此,通过改善土壤结构、提高土壤有机质含量和土壤速效磷含量,在一定程度上可能增加杉木菌根真菌的侵染率,从而有利于提升杉木人工林的生产力。     

滨海人工林土壤呼吸各组分对台风强降雨的响应

根据预测,随着全球变暖,极端降水将更加频繁和剧烈,可能对土壤呼吸及其组分产生重大影响。然而目前对极端降雨如何影响土壤呼吸各组分的认识仍是缺乏的。因此选取亚热带滨海湿地松和尾巨桉人工林土壤为研究对象,于2015年8月在设置去除根系和对照处理一年后,应用Li-8100土壤CO_2通量测定系统,对2次台风强降雨前后的土壤呼吸速率和环境因子进行原位监测,分析2次台风前后土壤呼吸各组分对强降雨的响应规律。结果表明:(1)2次台风强降雨显著改善了土壤的水分状况,促进了土壤呼吸各组分。2种人工林土壤总呼吸、异养呼吸均呈现出快速上升、后逐渐下降的趋势,而土壤自养呼吸的上升不明显。土壤总呼吸与异养呼吸的峰值与土壤湿度的峰值同步,而自养呼吸峰值要滞后1天。(2)第一次降雨,湿地松和尾巨桉土壤异养呼吸对总呼吸的贡献率分别是自养呼吸的5.15和6.28倍。相比于土壤自养呼吸(R_a),异养呼吸增加的幅度更大且响应更快。(3)第一次降雨湿地松土壤总呼吸、异养呼吸及尾巨桉土壤异养呼吸与土壤湿度的二次曲线关系存在拐点,而第二次降雨促进了2种人工林土壤异养呼吸、总呼吸速率。2次台风强降雨湿地松和尾巨桉人工林的土壤自养呼吸均和土壤湿度无显著相关性(P>0.05)。综上,研究结果强调了极端降水对土壤呼吸及其组分的显著影响,应该将其纳入模型中,以提高对碳-气候反馈的预测。     

不同更新方式对中亚热带森林土壤理化性质的影响

森林的不同更新方式对森林土壤理化性质有重要影响．本研究通过野外调查探讨中亚热带山区杉木人工林和米槠人促更新林2种不同更新方式下林地土壤理化性质的变化特征,并用土壤退化指数定量描述土壤质量变化．结果表明：杉木人工林土壤表层（0—10cm）容重显著高于米槠人促更新林（P〈0．05）;随土壤深度的增加,杉木人工林和米槠人促更...     

小流域自然土壤与耕作土壤养分比较及影响因素分析

通过对河北省易县观坐岭小流域自然土壤和耕作土壤有机质、速效氮、速效磷、速效钾及微量元素有效含量的测定分析,得出了该小流域自然土壤和耕作土壤的肥力状况.结果表明:自然土壤中有机质和速效氮含量处于较高水平;速效钾含量丰富,速效磷比较缺乏;有效Fe、Mn含量处于高水平,有效Cu、Zn含量中等.自然土壤开垦为耕作土壤后,有机质和速效氮含量下降;由于施肥原因,速效磷含量明显增高;速效钾含量因母质影响有所下降.海拔与土壤养分变化的相关性小明显,不同坡位土壤养分表现出向下汇集的趋势.并从自然环境、人为影响、地形母质等方面分析土壤养分变化的影响因素.     

煤矸石山不同植被恢复模式对土壤养分的影响——以山西省河东矿区1号煤矸石山为例

对2009-2011 年山西省河东矿区不同植被恢复模式下土壤养分进行了检测分析,并对其环境影响因子进行了研究.结果显示：(1) 随着矸石山植被恢复年限的增加,煤矸石山地温显著降低,植物多样性增加,盖度和生物量不同程度提高.(2) 经过3 年植被恢复的矸石山土壤速效磷和速效钾的改良效果达到全国土壤普查3 级水平;恢复土壤碱解氮和有机质含量为11.94 mg·kg^-1和7.69 g·kg^-1,改良效果不显著.紫穗槐模式对土壤速效磷的改良效果较好;紫穗槐-高羊茅-紫花苜蓿模式有利于碱解氮的积累;高羊茅-紫花苜蓿模式对速效钾和有机质的改良效果最佳.(3) 矸石山坡度和地温与土壤养分呈显著负相关;紫花苜蓿盖度与碱解氮、速效钾和有机质含量呈显著正相关;植被平均生物量和高羊茅盖度的提高有助于土壤养分的改良效果.煤矸石山植被恢复宜采取以草开路,在生态环境条件有所改善基础上,走草、灌、乔相结合的构建模式.     

米槠天然林转变成杉木人工林后土壤可溶性有机碳的变化

对中亚热带米槠天然林及其采伐迹地形成的36年生杉木人工林0～20cm层土壤可溶性有机碳（DOC,dissolved organic carbon）含量进行研究,分析米槠天然林改造成杉木人工林后土壤DOC平均含量及其季节的变化情况．结果表明：米槠天然林0—20cm层土壤DOC平均含量为60．79mg·kg^-1,比杉木人工林（41．24mg·kg^-1）高47．41％;2个林分0～10cm、10～20cm层土壤DOC平均含量差异明显（P〈0．05）,且都是0—10cm层大于10～20cm层;米槠天然林和杉木人工林土壤DOC含量在季节变化中都表现为秋季最大、冬季最小,但是两者的季节变化模式不完全一致;米槠天然林和杉木人工林土壤DOC的差异和人为干扰因素有关．     

Effects of Poplar Plantations on the Physical and Chemical Properties of Soils: A Case Study in the North China Plain

In recent years, large areas of farmland in the North China Plain have been converted into short-rotation poplar plantations. To analyze the impacts of poplar plantations on soil, 22 soil samples were collected and assayed from the soil profiles of a corn field and a poplar plantation. The results showed that the average soil moisture content of the soil profile in the poplar field was 2.6 percent lower than that of the arable land. The maximum difference in soil moisture content was found in the upper 0-10 cm of topsoil. Soil organic matter and nitrogen, phosphorus and potassium in the cornfield were significantly higher than in the poplar field. Higher nutrient content in the corn field may result from higher fertilizer inputs and the practice of returning straw to the cropped field. The analysis also showed no significant increase in soil organic matter content in deeper soil layers of the poplar field, which means that the conditions are not favorable for the formation of soil organic matter, or that soil organic matter needs a longer time to develop. Elements such as magnesium, iron, manganese and copper in both the corn field and the poplar field had a tendency to accumulate with increasing soil depth. Magnesium, iron, manganese and copper in the 0-80 cm soil layer of the poplar field were higher than those of the cornfield, but the situation was reversed at depths greater than 80 cm. It is concluded that poplar trees consume a large amount of soil moisture and soil nutrients. Local governments should prevent the development of new plantations of fast-growing trees in farmland and help farmers to recover their farmland from forestry plantations.     

祁连山青海云杉林动态监测样地土壤pH和养分的空间异质性

为了探讨青海云杉林对土壤pH和养分的影响,选择祁连山青海云杉林动态监测样地(340 m×300 m)为试验样地采集土样,利用经典统计学和地统计学方法对其空间异质性进行了研究。结果表明:(1)pH、水解氮和全磷为弱变异性,有机碳、全氮、速效磷、全钾和速效钾为中等变异性,它们的大小依次为速效钾 >有机碳 >速效磷 >全氮 >全钾 >水解氮 >全磷 >pH。(2)半方差最优模型拟合分析表明,pH、全氮、水解氮、全磷、速效磷和速效钾均符合球状模型,有机碳和全钾均符合指数模型;pH、有机碳、全氮、水解氮、全磷、速效磷、全钾和速效钾的变程依次为108.8 m、88.5 m、112.8 m、131.9 m、143.3 m、73.3 m、73.3 m和134.7 m。从空间结构特征看,pH具有中等强度的空间自相关,而养分表现出强烈的空间自相关。(3)pH和养分均呈斑块状分布,有机碳和氮素具有相似的空间分布格局,全磷和速效钾分布变化较为明显,速效磷和全钾分布变化较为平缓。上述研究结果可为祁连山青海云杉林土壤pH和养分的取样设计和空间分布图制作等提供参考,也可为青海云杉林的土壤环境恢复与重建提供科学依据。     

Sampling Size Requirements to Delineate Spatial Variability of Soil Properties for Site-Specific Nutrient Management in Rubber Tree Plantations

Site-specific nutrient management is an important strategy to promote sustainable production of rubber trees in order to obtain high yields of natural rubber. Making effective nutrient management decisions for rubber trees depend on knowing the spatial variations of soil fertility properties in advance. In this study the Kriging geostatistical method was used to examine the spatial variability of soil total nitrogen (TN), organic matter (OM), available phosphorus (AP) and available potassium (AK) in a typical hilly rubber tree plantation in Hainan, China. The spatial variability of the soils was small for the TN and OM and had medium variability for the AP and AK variables. Anisotropic semivariograms of all soil properties revealed that elevation and building contour ledge can profoundly affect the spatial variability of soil properties in the plantation, except for the AK variable. Soil samples had to be collected in alignment with the direction of elevation and perpendicular to the direction of building contour ledges, which was needed to obtain more reliable information within the study area in the rubber tree plantation. In formulating a sample scheme for AK, the distribution features of the soil’s parent material should be considered as the influence factor in the study field. The Kriging method used to guide the soil sampling for spatial variability dertermination of soil properties was about 2-5 times more efficient than the classic statistical method.     

The Influence of Plantation on Soil Carbon and Nutrients: Focusing on Tibetan Artificial Forests

As terrestrial ecosystem carbon (C) sinks, plantation ecosystems play essential roles in species diversity protection, resource supply and climate change. Artificial afforestation is of great important in improving the ecological condition, economic development and production in Tibet. Forests can improve soil property changes, yet the understanding of how plantations influence soil C and nutrient conditions in Tibet is still insufficient. This review combines with previous studies to explore the characteristics of soil nutrients, involving nitrogen (N) and phosphorus (P) on Tibetan poplar plantations. Generally, plantations have better abilities in improving the soil C and N cycles, and enhancing the soil stability. In this review, we further analyze the factors, including the modality of land-use, afforested period, tree species, climate factors and soil properties, which may affect the soil C and nutrients. (1) The patterns of land-use affect the accumulation of soil organic matter, thus influence the accumulation of soil C and nutrients; (2) Soil C and N increase with the years of artificial forests, while soil P is on the contrary; (3) The effects of different tree species on soil C and nutrients vary widely; (4) In terms of climate, the C sink of Tibetan plantation soil is most likely to be affected by precipitation, while the nutrient is more likely to be influenced by temperature; (5) Among soil properties, the most related factor to C is soil texture. Furthermore, our review pointed out that future research on soil ecological functions should be focused on soil microbes on Tibet plantation. At the end, we concluded three major challenges for the future research. Therefore, this review contributes to a better understand the effects of plantation on soil C and nutrients on the Tibetan Plateau.     

Spatial Variability Analysis of Soil Nutrients Based on GIS and Geostatistics: A Case Study of Yisa Township,Yunnan, China

Hani rice terraces system is one of the Globally Important Agricultural Heritage Systems (GIAHS) pilot sites selected by FAO. Soil nutrients are an important symbol of soil fertility, and play an important role in the sustainable utilization of land. Based on geo-statistics and GIS, the spatial variation of pH, organic matter, total nitrogen, alkaline hydrolyzable nitrogen, available phosphorus and available potassium in the soil in Yisa (a town in Honghe County, Yunnan Province) was studied. The results show that the spatial variability of pH, organic matter, total nitrogen, alkaline hydrolyzable nitrogen and available potassium exhibited medium spatial variability, and the coefficients of variation are 12.54%, 40.14%, 40.00%, 34.89%, and 40.00% respectively. Available phosphorus exhibited strong spatial variability, and the coefficient of variation is 102.13%. The spatial variation of pH, organic matter, total nitrogen, alkaline hydrolyzable nitrogen and available potassium fit the index mode, however, the spatial variation of available phosphorus fits the spherical model. Total nitrogen, available phosphorus and available potassium were greatly affected by soil structural factors, while pH, organic matter and alkaline hydrolyzable nitrogen were affected by both structural and random factors. The spatial distribution of soil nutrients in Yisa was intuitively characterized by Kriging interpolation. It is very important to understand the spatial distribution of soil nutrients, which will provide the guidance for adjusting agricultural management measures such as fertilization.     

塔里木沙漠公路防护林土壤环境因子的根际效应

选取塔里木沙漠公路防护林不同定植年限下3种灌木的根际和非根际土,比较研究了土壤物理、化学、生物因子的根际效应。结果表明：（1）除全氮和全磷外,20种土壤因子在3灌木根际土间差异极显著;（2）根际土的容重、全盐含量、有机质含量、全氮含量、速效氮磷钾含量、微生物代谢活性、脂肪酸含量和DNA片段多样性、微生物生物量碳氮磷和6种酶活性在不同年限林地间的差异极显著;（3）全氮含量、速效氮磷钾含量、微生物代谢活性、DNA片段多样性、微生物量碳和磷、纤维素酶和磷酸酶活性在不同树种与年限的交互效应上差异极显著;（4）微生物生物量碳氮磷的根际效应大小为柽柳 > 沙拐枣 > 梭梭,而不同树种各土壤养分因子和酶活性的根际效应大小并不一致。可见,几种荒漠灌木的定植促进了土壤养分转化,加速了沙漠防护林土壤的发育进程。     

察布查尔县土壤碳氮磷钾垂直分布规律研究

以察布查尔县1 191~2 656 m不同海拔草原土壤为研究对象,研究有机质（外加热法,10.18~74.3 3 mg·kg^-1）、全氮（自动凯氏定氮仪,0.17~2.6 g·kg^-1）、碱解氮（扩散法,14.9 7~198.72mg·kg^-1）、磷元素（钼锑抗比色法,全磷：0.12~0.76 g·kg^-1、速效磷：20.7 4~153.64 mg·kg^-1）,钾元素（火焰光度计法,全钾：9.81~18.64 g·kg^-1、速效钾：659.05~1 001.45 mg·kg^-1）含量垂直分布特征。结果表明碳、氮、磷、钾均随土层深度的增加而降低;除钾元素外碳、氮、磷随海拔高度的增加而上升;相关性分析结果显示,0~20 cm土层中,海拔高度与碱解氮呈正极显著性相关（p < 0.05,R=0.838^**）,与土壤有机、全氮呈正显著性相关（p < 0.05,R=0.831^*、R=0.751^*）;有机质与碱解氮呈正极显著性相关（p < 0.05,R=0.988^**）,与全磷呈正显著性相关（p < 0.05,R=0.726^*）,20~40 cm土层中,海拔高度与有机质、碱解氮、全氮、全磷呈正相关,与速效磷、速效钾、全钾呈负相关;有机质与碱解氮、全氮成正极显著性相关（p < 0.05,R=0.867^**、R=0.970^**）,碱解氮与全氮呈正极显著相关（p < 0.05,R=0.914^**）,40~60 cm土层中,海拔高度与有机质、碱解氮、全磷呈正相关,与速效磷、全磷、速效钾、全钾呈负相关;有机质与碱解氮、全氮呈正极显著性相关（p < 0.05,R=0.884^**、R=0.966^**）,与速效磷、全钾呈正相关,与全磷、速效钾呈负相关;碱解氮与全氮呈正极显著性相关（p < 0.05,R=0.952^**）。     

海南岛中部山区热带天然林与人工橡胶林土壤特性对比研究

通过调查取样,对比分析了海南岛中部山区天然林地及林地转变为橡胶林后的土壤物理和化学性质差异.结果表明:(1)不同林地对砂、粉粒和黏土粒度分布的影响显著,天然林地0～30 cm、30～60 cm和60～120 cm三个深度的土壤的物理性黏粒含量均高于人工林地.(2)天然林地和人工橡胶林三层的土壤容重和田间持水量均存在显著差异,天然林地0～30 cm和30～60 cm的土壤田间持水量大于人工橡胶林.(3)两种林地的上、中、下三层土壤的有机质、全氮、碱解氮均有很大差异.天然林地土壤上层( 0～30 cm)有机质     

紫色土不同土体的土壤养分和酶活性特征

对紫色土未培肥和培肥的不同土体,在小麦生育期内土壤养分和酶活性的动态测定结果表明:未培肥土体的全氮、有效磷、蔗糖酶、碱性磷酸酶有明显变化。尤其是砂土在改变为不同质地的土体后,上述土壤养分和酶活性都有所提高。培肥土体的土壤有机质、全氮、有效钾明显增加,土壤酶活性增强。砂土培肥的效果最显著。所以改变土体质地,并加以培肥,有助于提高土壤肥力,防治紫色土退化。     

Spatial Differentiation of the Coupling Characteristics of Soil Carbon and Nitrogen on Mulberry Plantations in China

Soil is the most important carbon pool of the mulberry plantation ecosystem, so understanding the characteristics of the soil carbon pool in mulberry plantations provides an important basis for the research of carbon sinks in economic forest ecosystems and farmland ecosystems. In order to explore the spatial differentiation pattern of the relationship between carbon and nitrogen in mulberry plantation soil, this study analyzed the organic carbon content and total nitrogen content of the surface soil layer (0-20 cm) and the subsurface soil layer (20-40 cm) of 475 mulberry plantations in five major regions of China, Southwest China (SWC), Central South China (CSC), East China (EC), North China (NC), and Northwest China (NWC). The research showed seven key aspects of this system. (1) The soil organic carbon of mulberry plantations was significantly different at the two soil depths. The average content of organic carbon in the surface layer of mulberry plantation soil was 10.71±7.01g kg^?1, which was 37.13% higher than that of the subsurface layer. (2) The soil organic carbon of mulberry plantations had significant differences in spatial differentiation, which was manifested as SWC>CSC>EC>NC>NWC. (3) The total nitrogen content in mulberry plantation soil had significant responses to the region, the soil layer depth, and the interaction between the region and soil layer depth. Among the regions, NWC had no significant difference between the surface layer and subsurface layer of the soil. EC had the maximum difference in total nitrogen content, with the total nitrogen content in the surface soil layer being 56.68% higher than that of the subsurface soil layer. The total nitrogen contents of the surface soil layers in the SWC and NC were 34.27% and 20.79% higher than those of the respective subsurface soil layers. (4) The mulberry plantation soil C/N ratios had a significant response to regional differences, as NWC>SWC> EC>CSC>NC, but this ratio had no significant response to soil depth. (5) Soil pH had significant spatial differentiation in relation to soil organic carbon and total nitrogen content in mulberry plantations. NWC had no significant correlation between pH and organic carbon or total nitrogen content, while CSC had a significant positive correlation between pH and both soil organic carbon and total nitrogen content. Other regions showed significant negative correlations between pH and both organic carbon and total nitrogen content. (6) There was a significant negative correlation between the C/N ratio of the surface soil layer and pH in mulberry plantations, which was mainly contributed by SWC, while the other regions’ surface soil layers had no significant correlations between C/N ratio and pH. (7) There was no significant correlation between the C/N ratio and pH in the subsurface soil layer in mulberry plantations. These results reveal that in either the research on mulberry plantation carbon pools or the innovation of green and low-carbon planting technology in mulberry plantations, the spatial differentiation characteristics of soil must be considered. Furthermore, the spatial differentiation of soil organic carbon can be used as the basic foundation for the planning and design of mulberry afforestation or ecological restoration projects.