格氏栲天然林与人工林土壤异养呼吸特性及动态

通过用静态碱吸收法对中亚热带福建三明格氏栲自然保护区内的格氏栲天然林和33年生的格氏栲人工林及杉木人工林的土壤异养呼吸进行为期2年的定位研究。结果表明，三种森林枯枝落叶层呼吸和无根土壤呼吸速率季节变化均呈单峰曲线，最大峰值出现在5月至6月，最小值出现在12月至1月。格氏栲天然林、格氏栲人工林和杉木人工林枯枝落叶层呼吸速率平均值分别为CO2 79．88、44．37和21．02mgm^-2h^-1，无根土壤呼吸速率平均值分别为CO2 217．4、85．85和94．04mg m^-2h^-1。2002年枯枝落叶层呼吸速率和无根土壤呼吸速率主要受土壤温度影响，但在极端干旱的2003年则主要受土壤湿度的影响。双因素关系模型（R=ae^bTW^c）拟合结果优于仅考虑土壤温度或土壤湿度的单因素关系模型，土壤温度和土壤湿度共同解释不同年份枯枝落叶层呼吸和无根土壤呼吸速率季节变化的82％～85％和85％～92％。不同森林枯枝落叶层呼吸对土壤温度和湿度的敏感性均高于无根土壤呼吸的。格氏栲天然林、格氏栲人工林和杉木人工林枯枝落叶层呼吸年通量分别为C3．76、2．63和1．23t hm^-2a^-1，无根土壤呼吸年通量则分别为C3．44、2．79和1．49t hm^-2a^-1。不同森林土壤异养呼吸通量的差异主要与枯落物数量和质量、土壤有机质数量和质量的差异有关。杉木林枯枝落叶层呼吸对干旱敏感性高于格氏栲（天然林和人工林）的，而人工林（杉木和格氏栲）的土壤有机C对干旱敏感性则要高于格氏栲天然林。     

中亚热带杉木林和常绿阔叶林土壤C、N库及其火烧后的变化

Soil organic carbon (C) and total nitrogen (N) pools of a Chinese fir (Cunninghamia lanceolate, (Lamb.) Hook.) (CF) forest, and an evergreen broadleaf (EB) forest located in mid-subtropical, southeastern China, were compared before clearcutting, with the effect of slash burning on organic C and total N in the top 10 cm of soil before and after burning also being evaluated. Prior to clearcutting CF forest had significantly lower (P < 0.05) organic C and total N in the soil (0-100 cm) compared to EB forest with approximately 60% of the C and N at the two forest sites stored at the 0 to 40 cm soil. In post-burn samples of the 0-10 cm depth at 5 days, 1 year, and 5 years for CF and EB forests, significantly lower levels (P < 0.05) of organic C and total N than those in the pre-burn samples were observed. Compared to the pre-burn levels, at post-burn year 5, surface soil organic C storage was only 85% in CF forest and 72% in EB forest, while total N storage was 77% for CF forest and 73% for EB forest. Slash burning caused marked long-term changes in surface soil C and N in the two forest types.     

不同林龄杉木林下套种阔叶树对土壤磷组分的影响

套种是杉木人工林经营的重要措施,磷是南方森林生态系统中主要限制性养分元素之一,但套种模式对土壤磷素的影响尚不明确。以亚热带杉木人工林表层(0-10 cm)土壤为对象,研究套种林(杉阔套种幼林、杉阔套种成熟林)和杉木幼林土壤理化性质和土壤各形态磷含量差异,分析套种对杉木人工林土壤磷含量的影响。结果表明:(1)不同套种林显著改变土壤总磷、土壤总无机磷、土壤总有机磷、土壤微生物生物量磷(MBP)和土壤酸性磷酸酶活性(APA),大小顺序均为杉阔套种成熟林>杉阔套种幼林>杉木幼林。(2)土壤各磷组分中活性磷含量较低,其中NaHCO3-Po在活性组分中占主导;土壤NaOH-Po是中等活性磷的主要组分,杉阔套种成熟林尤为显著;闭蓄态磷(Residual-P)在总磷含量中最高。(3)与杉木幼林相比,杉阔套种成熟林显著增加了树脂提取态磷(Resin-Pi)、碳酸氢钠提取态有机和无机磷(NaHCO3-Pi、NaHCO3-Po)、氢氧化钠提取态有机和无机磷(NaOH-Pi、NaOH-Po)、氢氧化钠残留提取态有机磷(NaOHu.s-Po)、盐酸提取态磷(HCl-Pi)和闭蓄态磷(Residual-P)含量;土壤总无机磷、NaHCO3-Po、HCl-Pi、NaHCO3-Pi、NaOHu.s-Pi和Residual-P对杉阔套种幼林的响应不敏感。(4)除含水率外不同林龄下杉阔套种林土壤磷形态与土壤理化性质(土壤总碳氮、土壤可溶性有机氮、土壤微生物生物量磷、酸性磷酸酶)呈正相关性(P<0.05)。冗余分析表明,土壤磷组分的变化主要受MBP调控,且MBP与有机磷组分(NaOHu.s-Po、NaOH-Po)和HCI-Pi呈显著正相关。总之,套种林的土壤磷素有效性高于杉木幼林,土壤养分状况更佳。     

Changes in soil quality due to introduction of broad-leaf trees into clear-felled Chinese fir forest in the mid-subtropics of China

Abstract. After clear-felling of a first generation Chinese fir ( Cunninghamia lanceolata ) forest, mixed stands of Chinese fir and Michelia macclurei (a broadleaf tree) (MCM), pure M. macclurei stands (PMS) and pure Chinese fir stands (PCS) were established in 1983. The effects on soil were evaluated 20 years after planting by measuring physicochemical, microbiological and biochemical parameters. Both broadleaf monoculture and mixtures of broadleaf and conifer exerted a favourable effect on soil fertility. A soil quality index (SQI) decreased in the order: PMS (0.62) > MCM (0.57) > PCS (0.41). Improvement in soil quality, enhanced biological activity and forest productivity demonstrated that mixed stands are an effective measure to maintain sustainable forest productivity, as well as to control soil degradation under successive stands of Chinese fir. In addition, since the microbiological and biochemical parameters measured were sensitive to the forest management, they may be potential indicators for assessing the sustainability of different management systems. The results also showed that total organic carbon, cation exchange capacity and microbial biomass carbon are effective indicators of the improvement or deterioration of soil quality under forest.     

华蓥市山区典型林分水源涵养功能评价

为研究南方丘陵山区典型人工林的生长现状和涵养水源能力,选取华蓥市6种林分作为研究对象,通过测定林下枯落物层和土壤层特征,分析比较不同林地枯落物和土壤的持水能力,对林地水源涵养能力进行评价。结果表明:杉木纯林(近自然经营)枯落物现存蓄积量最大,枯落物持水能力排序为杉木纯林(近自然经营)杉木纯林马尾松—檵木混交林(近自然经营)杉木—响叶杨混交林柏木纯林马尾松—杉木混交林;杉木纯林的土壤层总孔隙度、毛管孔隙度、有效持水量均为最优,分别达到67.67%,60.39%,138.11 t/hm~2;6种林地土壤有效持水量大小顺序为杉木纯林杉木纯林(近自然经营)马尾松—杉木混交林杉木—响叶杨混交林柏木纯林马尾松—檵木混交林(近自然经营);综合枯落物层和土壤层持水能力可知,杉木纯林(近自然经营)的水源涵养能力最强,为309.77 t/hm~2,马尾松—杉木混交林最弱。     

Carbon Mineralization of Soils from Native Evergreen Broadleaf Forest and Three Plantations in Mid‐subtropic China

Mineralization of soil organic carbon (C) plays a key role in supplying nutrient elements essential to plant growth. Changes of C mineralization of mixed stands of Chinese fir and Michelia macclurei (a broadleaf tree), pure M. macclurei stands, and pure Chinese fir (Cunninghamia lanceolata) stands established in 1983 after clear‐felling of a first‐generation Chinese fir forest were analyzed in Huitong, Hunan Province, China, and compared with those of a stand of native secondary evergreen broadleaf forest (NBF). The results showed that NBF soil had the greatest C mineralization. Mixture of Chinese fir and M. macclurei had no effect on total soil organic C in comparison with pure Chinese fir plantation, but significantly increased C mineralization from soils was detected in this study. This positive influence on C mineralization could be explained by the increase of soil labile C pools and soil microbial biomass and activity. From the analysis of C mineralization, soil microbial properties, and labile organic C, mixtures of broadleaf and Chinese fir can be considered to be an effective sustainable management model for a Chinese fir plantation. Given strong correlations with microbiological and biochemical characteristics of soils and an easier process of determination, hot water extraction, hot water–extractable C (HWC) could be used as an integrated measure of forest soil quality in mid‐subtropics.     

武夷山风景区不同林地类型土壤水分物理性质及土壤水库特性

对武夷山风景区6种林地类型的土壤容重、孔隙度、持水量及土壤水库容等性能进行了研究,结果表明,（1）0—60 cm土层土壤容重为杉木林〉马尾松林〉灌木林〉针阔混交林〉竹林〉常绿阔叶林。（2）6种林地土壤总孔隙度和最大持水量为常绿阔叶林〉竹林〉针阔混交林〉灌木林〉马尾松林〉杉木林;毛管孔隙度和田间持水量为竹林〉常绿阔叶林〉针阔混交林〉灌木林〉马尾松林〉杉木林;非毛管孔隙度为常绿阔叶林〉针阔混交林〉灌木林〉马尾松林〉杉木林〉竹林;毛管持水量为竹林〉常绿阔叶林〉灌木林〉针阔混交林〉马尾松林〉杉木林。（3）在0—60 cm土层内,常绿阔叶林和竹林的土壤总库容最大,针阔混交林、灌木林、马尾松林次之,杉木林的最小。竹林的储水库容最大,而通透库容最小。在相同的立地条件下,常绿阔叶林的土壤特性优于其它林分,最有利于涵养水源。     

浙江省凤阳山不同林分类型土壤酶活性研究

在浙江省凤阳山自然保护区选取海拔相近的6个典型林分类型(常绿阔叶林、针叶林、针阔混交林、杉木林、毛竹林以及柳杉林),在其林下采集土壤样品,分析了脲酶、蔗糖酶、酸性磷酸酶和过氧化氢酶、蛋白酶5种主要土壤酶活性的变化。结果表明,在6个林分类型中,常绿阔叶林土壤脲酶、过氧化氢酶、酸性磷酸酶活性均较高柳杉林分土壤蔗糖酶活性较高而针叶林则表现出土壤蛋白酶活性最高杉木林则表现出土壤脲酶、蔗糖酶活性较低土壤酶活性具有明显的垂直分层分布,土层越深,土壤酶活性越低同时该地区土壤酶活性与土壤理化性质指标相关性较高,尤其是pH值和有机质含量与土壤酶活性关系最为密切。     

不同森林植被下土壤活性有机碳的含量及动态变化

Soil organic matter （SOM） in forest ecosystems is not only important to global carbon （C） storage but also to sustainable management of forestland with vegetation types, being a critical factor in controlling the quantity and dynamics of SOM. In this field experiment soil plots with three replicates were selected from three forest vegetation types： broadleaf, Masson pine （Pinus massoniana Lamb.）, and Chinese fir （Cunninghamia lanceolata Hook.）. Soil total organic C （TOC）, two easily oxidizable C levels （EOC1 and EOC2, which were oxidized by 66.7 mmol L^-1 K2Cr2O7 at 130-140℃ and 333 mmol L^-1 KMnO4 at 25 ℃, respectively）, microbial biomass C （MBC）, and water-soluble organic C （WSOC） were analyzed for soil samples. Soil under the broadleaf forest stored significantly higher TOC （P ≤ 0.05）. Because of its significantly larger total soil C storage, the soil under the broadleaf forest usually had significantly higher levels （P ≤ 0.05） of the different labile organic carbons, EOC1, EOC2, MBC, and WSOC; but when calculated as a percentage of TOC each labile C fraction of the broadleaf forest was significantly lower （P ≤ 0.05） than one of the other two forests. Under all the three vegetation types temperature as well as quality and season of litter input generally affected the dynamics of different organic C fractions in soils, with EOC1, EOC2, and MBC increasing closely following increase in temperature, whereas WSOC showed an opposite trend.     

辽西地区油松混交林抗蚀改土效益的研究

在辽西半干旱水土流失地区，为了防止土壤侵蚀和恢复地力，首先应营造水土保持林。油松阔叶混交林与油松纯林相比，在改善土壤理化性质，提高土壤抗蚀性有显著效果。与纯林相比，前者土壤含水量可提高１３－３０％，土壤有机质含量提高７．１－７６．４％，土壤微生物数量可增加１３．３９％，土壤容重减少６．８－１０％，土壤水稳性团聚体可提高２２．２－１２４．４％，土壤侵蚀率降低了６．６－２６．３％，本地区适宜选择的混交     

杉木取代阔叶林后林下水源涵养功能差异评价

为研究杉木人工林取代常绿落叶阔叶混交林后土壤水源涵养能力的变化,采用室内浸水法和环刀法分别研究杉木纯林和常绿落叶阔叶混交林的枯落物与土壤的持水特性。结果表明:(1)枯落物平均蓄积量表现为常绿落叶阔叶混交林(3.42 t/hm^2)>杉木纯林(3.12 t/hm^2),枯落物平均厚度表现为杉木纯林(9.17 cm)>常绿落叶阔叶混交林(5.42 cm)。(2)最大持水量表现为常绿落叶阔叶混交林(6.23 t/hm^2)>杉木纯林(5.57 t/hm^2),最大持水率也表现出相同的规律,即常绿落叶阔叶混交林(184.40%)>杉木纯林(179.50%);有效拦蓄量表现为常绿落叶阔叶混交林(4.48 t/hm^2)>杉木纯林(4.13 t/hm^2),最大拦蓄量表现为常绿落叶阔叶混交林(5.41 t/hm^2)>杉木纯林(4.97 t/hm^2)。(3)枯落物层的吸水量与浸水时间符合对数函数Q=aln(t)+b,而吸水速率与浸水时间符合指数函数V=at^b,常绿落叶阔叶混交林的蓄水能力强于杉木纯林。(4)土壤水分最大吸持贮水量表现为常绿落叶阔叶混交林(43.58 mm)>杉木纯林(41.88 mm),可以看出常绿落叶阔叶混交林内的土壤可以更好地为植被提供良好的水分供其生长;土壤水分最大滞留贮存量表现为常绿落叶阔叶混交林(8.20 mm)<杉木纯林(10.22 mm),即杉木纯林内的土壤具有更好的涵养水源能力。从枯落物最大持水量、有效拦蓄量以及土壤毛管孔隙度、非毛管孔隙度等多个因素的计算综合推断可知,杉木人工林水源涵养能力优于常绿落叶阔叶混交林。     

重庆市四面山人工林土壤持水与入渗特性

通过土壤持水量和水分入渗速率的测定,对重庆市四面山4种人工林(杉木×马尾松针叶林、石栎×木荷×香樟×枫香阔叶林、石栎×木荷阔叶林、杉木×马尾松×木荷针阔林)土壤层的水文特征进行分析评价.结果表明,针阔混交林土壤饱和持水量最高,为314.98 mm;阔叶林其次,为301.26 mm与290.26 mm;针叶林最小,为237.94 mm.分别较荒地高44.93%,38.61%,33.72%和9.48%.石栎×木荷阔叶林土壤水分入渗速率最快,初渗速率为25.35 mm/min,稳渗速率为3.97 mm/min,平均入渗速率为5.48 m/min.灰关联评价结果显示,该区两种阔叶混交林均具调蓄涵养最大日降雨的能力,石栎×木荷×香樟×枫香阔叶林改良土壤持水性能效果显著,石栎×木荷阔叶林土壤水分入渗能力有明显提高.     

潮土条件下长期施肥对作物产量、氮吸收与土壤剖面中硝酸盐含量分布的影响

Soil properties were investigated in sites where three succeeding generations of Chinese fir (Cunninghamia lanceolata (Lambert) Hooker) in Nanping, Fujian, China, were cultivated in order to show the impact of a repeated monoculture on site productivity. Compared with the first generation (FG) stand the soil structure deteriorated in the second generation (SG) and the third generation (TG) stands. For instance, the destruction rate of the peds increased by 55%-115% in the SG and the TG stands compared to the FG stand. Soil nutrient storage and nutrient availability also decreased in the SG and the TG stands. For surface soils of 0-20 cm, the organic matter content, total N and P, and available N and P decreased by 3%-20% relative to those in the FG stand. For many soil parameters, the differences between the FG stand and the SG and the TG stands were statistically significant (LSD test, P < 0.05). Furthermore, with each succeeding generation of Chinese fir, the total number of soil microbes declined, the soil enzyme activity weakened, and the soil biological activity decreased. In order to maintain sustainable site productivity, new silvicultural practices need to be developed for management of Chinese fir plantations.     

紫茎泽兰堆肥的质量及对土壤有机质、养分和微生物的影响

为紫茎泽兰是我国危害最严重的外来入侵植物,具有生物毒性,无害化处理与资源化利用可经济、有效地防除紫茎泽兰。试验检测了紫茎泽兰生物堆肥的质量,并将紫茎泽兰生物堆肥(M)、化肥(CF)和生物堆肥+化肥(CFM)分别施入土壤,利用培养试验比较了它们对土壤有机质、养分和微生物的影响,为客观评价紫茎泽兰生物堆肥质量、微生物毒性和肥效提供有益信息。结果表明,紫茎泽兰生物堆肥质量符合NY525-2011国家标准(水分除外),且优于自然堆肥。在120 d的培养期间,CF处理降低土壤真菌和放线菌数量,对细菌数量无显著影响;CFM和M处理可提高土壤有机质和微生物量碳、氮,增加土壤细菌、真菌和放线菌数量。在添加化肥的土壤中,培养前期的碱解氮、脲酶和蔗糖酶活性高于CK(不施肥),后期与CK无显著差异。在CFM和M处理的土壤中,碱解氮变化平缓,但持续高于CK,蔗糖酶、脲酶、酸性磷酸酶和过氧化氢酶活性显著高于CF和CK。因此,紫茎泽兰生物堆肥对土壤有机质、氮、微生物生物量及土壤酶活性的影响类似于普通有机肥。     

亚热带4种典型森林植被土壤固碳细菌群落结构及数量特征

为研究亚热带不同森林植被类型土壤固碳微生物特征及其影响因子,选取毛竹林(Moso banboo groves)、阔叶林(Broad-leaved forest)、杉木林(Chinese fir forest)和马尾松林(Masson pine forest)等4种森林植被为研究对象,以 cbbL为固碳细菌指示基因,利用实时荧光定量PCR (Real-time quantitative PCR)和MiSeq高通量测序为研究手段。结果表明,4种林分土壤的细菌16S rRNA基因和固碳细菌cbbL基因丰度范围分别是5.40×10~(10)～2.81×10~(11) copies·g~(-1)干土和4.55×10~8～3.53×10~9 copies·g~(-1)干土,其中毛竹林显著高于其他三种林分(P0.05);基因丰度显著关联的环境因子是阔叶林土壤的有效磷、不同土层的pH(P0.05)。杉木林土壤固碳细菌多样性显著低于其他3种林分(P0.05),其亚表层土壤高于表层(P0.05);双因子分析表明,林型、土层之间土壤固碳细菌多样性均存在显著或极显著差异。所有土壤具有相似的优势属但相对丰度不同,其中毛竹林和杉木林土壤的甲基化石油杆菌属(Methylibium)和诺卡菌属(Nocardia)占比明显高于阔叶林和马尾松林。冗余分析结果显示,不同林分土壤pH、土壤有机碳、有效磷、全氮差异是影响土壤固碳细菌群落特征形成的主要因素。综上,4种植被对土壤固碳微生物数量及群落结构多样性影响明显,从土壤理化性质、固碳细菌基因丰度、多样性以及结构特征等多维度结果证明,毛竹林对土壤肥力以及固碳细菌影响效果最好,固碳微生物对毛竹林土壤有机质积累贡献大于阔叶林,定量结论有待进一步研究。     

Endemic Collembola, privileged bioindicators of forest management

Our study compared the soil collembolan community at three semi-natural sites (a beech forest, a beech–fir forest and a fir stand) and three managed sites (Norway spruce, beech–fir and fir). Collembola were extracted from a total of 60 samples with a Berlese–Tullgren funnel, counted and identified to species level. A total of 7187 specimens, representing 51 species and 37 genera, were collected. There were significant differences between managed and natural forests (t-test, P=0.000). The communities and their population densities were significantly lower in the managed site: 51 species with 708,498 ind m⁻² in the semi-natural forests to 36 species and 306,042 ind m⁻² in the managed stands. The endemic component suffered a particularly severe decrease in species richness and abundance (57% and 71% lower in the managed forests, respectively). These species with narrow distribution and small local populations are doubly vulnerable to alterations of environmental conditions. They are very sensitive to loss of their natural habitat owing to human intervention and thus represent useful indicators of tolerance to environmental stress. We highlight the need to take endemic species into consideration in studies on the conservation of biodiversity because they are most at risk of extinction. Semi-natural forests are refuges for endemic species and should be protected.     

Decline of soil fertility during forest conversion of secondary forest to Chinese fir plantations in subtropical China

The effects of forest conversion on soil fertility are still not well understood in subtropical zones. This issue was addressed by comparing chemical properties of soil in a secondary forest and a Chinese fir (Cunninghamia lanceolata Hooker) plantation at the Huitong Experimental Station of Forest Ecology. Total N, available P, ‐N, cation exchange capacity (CEC) and exchangeable Al³⁺ and H⁺ of soil were significantly lower in the pure Chinese fir plantation (PCP) than in the secondary forest while soil organic carbon (SOC), total K and exchangeable Na⁺ had a tendency to decrease in the PCP. In contrast, soil pH and percentage base saturation (PBS) significantly increased due to forest conversion, and available K, ‐N and exchangeable Ca²⁺, Mg²⁺ and K⁺ tended to increase in the PCP. Some underlying processes responsible for the differences in soil fertility between the secondary forest and the Chinese fir plantation were low litterfall and root input to soil and site preparation in coniferous plantations. There was no significant difference in the effect of slope position on chemical properties of soil in the PCP and the secondary forest. Results indicated that the conversion of secondary forests to coniferous plantations leads to a decline in soil fertility. Copyright © 2010 John Wiley & Sons, Ltd.     

太湖地区森林生态系统的水源涵养功能特征

为客观认识森林生态系统在流域水资源管理中的作用,在总结分析前人研究成果的基础上,该文综合比较了太湖地区主要森林类型中枯枝落叶层和土壤层的涵养水源功能特征。结果表明:太湖地区森林生态系统林下枯枝落叶层现存量平均值为4.68～14.4 t/hm²,持水量为11.6～29.99 t/hm²,持水率为187.24%～246.22%;主要森林类型土壤层的毛管孔隙度变动于39.01%～44.21%,非毛管孔隙度为10.21%～16.53%;而土壤层的初渗率变动于11.94～19.06 mm/min,稳渗率为3.77～6.74 mm/min。总体来看,太湖地区森林枯枝落叶层和土壤层的水源涵养能力指标多低于亚热带平均值。     

我国南亚热带几种人工林的生物物质循环特点及其对土壤的影响

通过对杉木、马尾松、红荷木、格木四种人工林的三年定位研究,初步获得了四种林木对主要营养元素的生物吸收和归还特点、对土壤养分状况、水分状况、微生物状况和土壤酶活性的影响等一系列资料。初步阐明了四种林木凋落物的数量及主要营养元素含量,研究了四种林木凋落物的分解特点。从而为进一步研究林木混交提供了科学依据。研究表明,阔叶树种与针叶树种相比,在改善土壤理化性状、提高土壤生产力等方面都表现出明显的优点。     

人工杉木林地有机物和养分库的退化与调控

研究表明,人工杉木林地土壤有机物和养分库严重退化,地表枯枝落叶层中干和各种养分的贮量与阔叶林和混交林比较明显下降,土壤中有机质,全Ｎ量和碱解Ｎ含量的剖面分布也表现出相同的趋势。传统的炼山造林使杉木林地枯枝落叶和养分库是呈突变形式 经,林份组成单一,凋落物数量和养分含和也是杉木林土壤有机物和归库退化的重要因素。通过改进林木更新方式和改善林份组成很大程度上控制人工林有机物和养分库的退化。