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1.
Soil biological changes for a natural forest and two plantations in subtropical China 总被引:9,自引:0,他引:9
Conversion of natural forests into pure plantation forests is a common management practice in subtropical China. To evaluate the effects of forest conversion on soil fertility, microbe numbers and enzyme activities in topsoils (0-10 cm) were quantified in two 33-year-old monoculture plantations of Castanopsis kawakamii Hayata (CK) and Cunninghamia lanceolata Lamb. (Chinese fir) (CF), and compared to a neighboring relict natural C. kawakamii forest (NF), in Sanming, Fujian. Five soil samples were collected once each in January, April, July, September and November in 2000 in each forest for laboratory analysis. Over the sampling year, there were significant differences for bacteria, fungi and actinomycetes between forests and between seasons (P < 0.05). The largest bacteria and fungi populations were in NF, while CF contained the greatest number of actinomycetes. There were also significant differences (P < 0.05) with microbial respiration for forests and seasons. Additionally, compared with NF, urease and acid phosphatase were significantly lower (P < 0.05) in CK and CF. Also, the correlations of soil hydrolysable N and available P to soil microbial and enzymatic activities were highly significant (P < 0.01). Thus, to alter the traditional Chinese fir monoculture so as to mimic the natural forest conditions, managing mixed stands of Chinese fir and broadleaf trees or conducting crop rotation of conifers and broadleaf trees as well as minimizing forest disturbances like clear-cutting, slash burning and soil preparing, could be utilized. 相似文献
2.
川西3种亚高山针叶林的养分和凋落物格局分析 总被引:4,自引:0,他引:4
Investigations were conducted to quantify litterfall, and litter and nutrient accumulation in forest floor, and to acquire information on litter decomposition and nitrogen and phosphorus release patterns in three different subalpine coniferous forests, a plantation (P1), a secondary forest (SF), and a primitive forest (PF), in western Sichuan, China. The litter trap method was used to evaluate litterfall with the litterbag method being utilized for litter decomposition. Seasonal patterns of litterfall were similar in the three forests, with two peaks occurring in September-November and March-May. The plantation revealed an annual litterfall of 4.38 x 103 kg ha-1, which was similar to those of SF and PF, but P1 had a lower mass loss rate and a higher C/N ratio. The C/N ratio may be a sound predictor for the decomposition differences. N concentrations of leaf litter in both the secondary forest and primitive forest increased first and then decreased, and the percentages of their final/initial values were 108.9% and 99.9%, respectively. P concentration in the three forests increased by the end of the study. The results of litterfall and decomposition indicated that in the plantation the potential to provide nutrients for soil organic matter was similar to those of SF and PF; however, its slower decomposition rate could result in a somewhat transient accumulation of litter in the forest floor. 相似文献
3.
中国杉连作对土壤肥力的影响 总被引:10,自引:0,他引:10
The changes in soil fertility under continuous plantation of Chinese fir were studied by comparing soil samples from different forest stands:the first and second plantations of Chinese fir,evergreen broad-leaved forests,and clear-cut and burnt Chinese fir land located at Xihou Village,Nanping of Fujian Province.The soils were humic red soil originated from weathered coarse granite of the Presinian system.Soil pH,CEC,base saturation ,exchangeable Ca^2 ,exchangeable Mg^2 and A1-P declined after continuous plantation of Chinese fir.The same trends were also found in the soils under broad-leaved stands and slash burnt lands.The explantation was that not merely the biological nature of the Chinese fir itself but the natural leaching of nutrients,soil erosion and nutrient losses due to clear cutting and slash burning of the preceduing plantation caused the soil deterioration .Only some of main soil nutrients decreased after continuous plantation of Chinese fir,depending on specific silvicultural system,which was different from the conclusions in some other reports which showed that all main nutrients,such as OM,total N,available P and available K decreased,Some neccessary step to make up for the lost base,to apply P fertilizer and to avoid buring on clear cut lands could be taken to prevent soil degradation and yield decline in the system of continuous plantation of Chinese fir. 相似文献
4.
Clear-cutting,a management practice applied to many beech forests in the North of Spain,modifies microclimate and,consequently,the composition of the understory plant community in the disturbed areas.The objectives of this study were to assess if changes in the understory vegetation caused by altered light microclimate after clear-cutting affect the infectivity of arbuscular mycorrhizal fungi(AMF) on herbaceous plant species in beech(Fagus sylvatica L.) forests naturally regenerating from clear-cutting and to test if the use of bioassays for studying the infectivity of native AMF could provide useful information to improve the management of clear-cut areas.Three nearby beech forests in northwest Navarra,Spain,a region in the northwest part of the Pyrenees,were selected:an unmanaged forest,a forest clear-cut in 1996,and another forest clear-cut in 2001.High stem density in the forest clear-cut in 1996(44 000 trees ha -1) attenuated photosynthetic active radiation(PAR) and impaired the growth of herbaceous species within the ecosystem.The percentage of AMF colonization of plants in bioassays performed on soil samples collected from the forest clear-cut in 1996 was always lower than 10%.In the forest clear-cut in 2001,where soil was covered by perennial grasses,PAR was high and the infectivity of native AMF achieved minimum values in spring and autumn and a maximum value in summer.In contrast,the infectivity of native AMF in the unmanaged forest remained similar across the seasons.Our results demonstrated that changes in the composition of understory vegetation within beech forests strongly affected the infectivity of native AMF in clear-cut areas and suggested that the assessment of the infectivity of native AMF through bioassays could provide helpful information for planning either the removal of overstory when the tree density is so high that it impairs the correct development of herbaceous species or the plantation of new seedlings when high light intensity negatively affects the establishment of shade species. 相似文献
5.
Desert ecosystems are characterized by sparse vegetation that affects both abiotic parameters and soil biota along the soil profile.This study was conducted in 2010–2011 in a loess plain in the northern Negev Desert highlands, Israel, to test two main hypotheses:1) the abundance and diversity of microarthropods would vary seasonally in the top 30-cm soil layer, but would be relatively stable at soil depths between 30 and 50 cm and 2) soil microarthropods would be more abundant in soils under shrubs with large litter accumulations than under shrubs with less litter or bare soil. Soil samples were collected each season from the 0–50 cm profile at10-cm intervals under the canopies of Hammada scoparia and Zygophyllum dumosum and from the bare interspaces between them.Soil moisture and soil organic carbon in the top 30-cm layers varied seasonally, but there was little variation in the soil layers deeper than 30 cm. Soil mites were most abundant in the top 30-cm soil layer in autumn and winter, with the highest number of families found in winter. There were no differences in soil microarthropod abundance attributable to the presence or absence of shrubs of either species. The microarthropod communities of the microhabitats studied consisted of Acari, Psocoptera, and Collembola. The Acari were mostly identified to the family level and were dominated by Oribatida(55%) and Prostigmata(41%) in all seasons and microhabitats, while the psocopterans were most abundant in summer. These results are opposite to those obtained in other studies in similar xeric environments. Moreover, our findings were not in line with our hypothesis that a better microhabitat played a major role in microarthropod community composition, diversity, and density. 相似文献
6.
章古台沙地松树人工林土壤无机氮、微生物生物量碳及微生物生物量氮 总被引:3,自引:0,他引:3
The dynamics of soil inorganic nitrogen (NH4^+ -N and NO3^- -N) and microbial biomass carbon (Cmic) and nitrogen (Nmic) under 30-year-old fenced Pinus sylvestris L. var. mongolica Litvin (SF), unfenced P. sylvestris L. var. mongolica Litvin (SUF), and unfenced Pinus densiflora Siebold et Zucc. (DUF) plantations in the Zhanggutai sandy soil of China were studied during Apr. to Oct. 2004 by the in situ closed-top core incubation method. All mentioned C and N indices in each stand type fluctuated over time. The ranges of inorganic N, Cmic, and Nmic contents in the three stand types were 0.7-2.6, 40.0-128.9, and 5.4-15.2 μg g^-1, respectively. The average contents of soil NH4^+ -N and Cmic under the three 30-year-old pine plantations were not different. However, soil NO3^ -N and total inorganic N contents decreased in the order of SUF ≥ SF ≥ DUF, the Nmic content was in the order of SF = SUF 〉 DUF, and the Cmic:Nmic ratio was in the order of SUF = DUF 〉 SF. Seasonal variations were observed in soil inorganic N, microbial biomass, and plant growth. These seasonal variations had certain correlations with microbe and plant N use in the soil, and their competition for NH4^+ -N was mostly regulated by soil N availability. The influence of tree species on inorganic N and Nmic were mainly because of differences in litter quality. Lack of gazing decreased the Cmic:Nmic ratio owing to decreased carbon output and increased the ability of soil to supply N. The soil N supply under the P. sylvestris var. mongolica plantation was lower than under the P. densiflora plantation. 相似文献
7.
印度热带森林干旱扰动土壤的微生物碳, 氮, 磷的研究 总被引:1,自引:0,他引:1
Variations in microbial biomass C (MB-C),N (MB-N) and P (MB-P) along a gradient of different dominant vegeta- tion covers (natural forest,mixed deciduous forest,disturbed savanna and grassland ecosystems) in dry tropical soils of Vindhyan Plateau,India were studied from January 2005 to December 2005.The water holding capacity,organic C,total N,total P and soil moisture content were comparatively higher in forest soils than in the savanna and grassland sites.Across different study sites the mean annual MB-C,MB-N and MB-P at 0-15 cm soil depth varied from 312.05 ± 4.22 to 653.40 ± 3.17,32.16 ± 6.25 to 75.66 ± 7.21 and 18.94 ± 2.94 to 30.83 ± 23.08 μg g ?1 dry soil,respectively.At all the investigated sites,the maximum MB-C,MB-N and MB-P occurred during the dry period (summer season) and the minimum in wet period (rainy season).In the present study,soil MB-C,MB-N and MB-P were higher at the forest sites compared to savanna and grassland sites.The differences in MB-C,MB-N and MB-P were significant (P 0.001) among sites and seasons.The MB-C (P 0.0001),MB-N (P 0.001) and MB-P (P 0.0001) were positively correlated with organic C,while the relationship between soil moisture and MB-C,MB-N and MB-P (P 0.001,P 0.01 and P 0.0001,respectively) was negative.The decreasing order of MB-C,MB-N and MB-P along study ecosystems was natural forest mixed deciduous forest savanna grassland.The results suggested that deforestation and land use practices (conversion of forest into savanna and grassland) caused the alterations in soil properties,which as a consequence,led to reduction in soil nutrients and MB-C,MB-N and MB-P in the soil of disturbed sites (grassland and savanna) compared to undisturbed forest ecosystems. 相似文献
8.
Responses of Soil Acid Phosphomonoesterase Activity to Simulated Nitrogen Deposition in Three Forests of Subtropical China 总被引:1,自引:0,他引:1
HUANG Wen-Juan ZHANG De-Qiang LI Yue-Lin LU Xian-Kai ZHANG Wei HUANG Juan D.OTIENO Z. H. XU LIU Ju-Xiu LIU Shi-Zhong CHU Guo-Wei 《土壤圈》2012,22(5):698-706
Soil acid phosphomonoesterase activity(APA)plays a vital role in controlling phosphorus(P)cycling and reflecting the current degree of P limitation.Responses of soil APA to elevating nitrogen(N)deposition are important because of their potential applications in addressing the relationship between N and P in forest ecosystems.A study of responses of soil APA to simulated N deposition was conducted in three succession forests of subtropical China.The three forests include a Masson pine(Pinus massoniana)forest (MPF)-pioneer community,a coniferous and broad-leaved mixed forest(MF)-transition community and a monsoon evergreen broad-leaved forest(MEBF)-climax community.Four N treatments were designed for MEBF:control(without N added),low-N(50 kg N ha-1 year-1),and medium-N(100 kg N ha-1 year-1)and high-N(150 kg N ha-1 year-1),and only three N treatments(i.e.,control, low-N,medium-N)were established for MPF and MF.Results showed that soil APA was highest in MEBF,followed by MPF and MF.Soil APAs in both MPF and MF were not influenced by low-N treatments but depressed in medium-N treatments.However,soil APA in MEBF exhibited negative responses to high N additions,indicating that the environment of enhanced N depositions would reduce P supply for the mature forest ecosystem.Soil APA and its responses to N additions in subtropical forests were closely related to the succession stages in the forests. 相似文献
9.
During January–February 2008, a severe ice storm caused significant damages to forests in southern China, creating canopy gaps and changing soil nutrient availability and enzyme activity. To understand the relationships between gap size, changes in the soil environment and the effects that these changes have on soil processes, we investigated the effects of gap size on soil chemical and biological properties in the forest gaps in a Cunninghamia lanceolata stand in northern Guangdong Province, southern China. Ten naturally created gaps, five large(80–100 m~2) and five small(30–40 m~2), were selected in the stand of C.lanceolata. The large gaps showed a significant increase in light transmission ratio and air and soil temperatures and a decline in soil moisture, organic matter,N and P compared with the small gaps and the adjacent canopy-covered plots in the 0–10 cm soil. The differences in organic matter and nutrient levels found between the large and small gaps and the canopy-covered plots may be related to changes in environmental conditions. This indicated rapid litter decomposition and increased nutrient leaching in the large gaps. Moreover, the lowest levels of catalase, acid phosphatase and urease activities occurred in large gaps because of the decline in their soil fertility. Large forest gaps may have a region of poor fertility, reducing soil nutrient availability and enzyme activity within the C.lanceolata stand. 相似文献
10.
土地利用变化对中国西南热带湿润地区土壤磷动态的影响 总被引:3,自引:0,他引:3
Land use changes can greatly influence soil phosphorus (P) dynamics, especially when converting native forests to agricultural land. Soils in Xishuangbanna, which is one of southwest China’s tropical areas that maintain fragments of primary forests, were studied to a) evaluate the effect of two common land use changes, conversion of forests to agricultural land or rubber tree plantation, on the dynamics of available P and total P in bulk soils as well as total P in particle size fractions; b) assess the relationship between soil P dynamics and soil organic carbon (SOC); and c) elucidate the relationship between soil P content and soil properties such as pH and texture. Clearing secondary forests with subsequent shifting cultivation and establishment of rubber tree plantation caused significant decreases (P < 0.05) in available P in 0--20 cm soil depths, whereas for total P there was a significant decrease (P < 0.05) when converting to shifting cultivation, rubber tree plantation, or fallow fields at both 0--20 and 20--40 cm depths. Abandonment of fields used for shifting cultivation led to significant increases (P < 0.05) in available P at 20--40 cm depth. In addition, there was a significant positive relationship between soil organic carbon and soil P content. Compared to secondary forests, the ratio of organic carbon to total P in surface soils (0--20 cm) of shifting cultivation and rubber tree plantation was significantly lower (P < 0.05). 相似文献
11.
大伙房水库流域不同植被类型枯落物层和土壤层水文效应 总被引:5,自引:6,他引:5
为了研究大伙房水库流域森林生态系统枯落物层和土壤层水文效应,以流域内3种不同植被类型为研究对象,采用浸泡法、环刀法对其枯落物层和土壤层水文功能进行定量研究。结果表明:(1)3种植被类型枯落物蓄积量为23.20~39.11t/hm~2,表现为刺槐天然次生林油松人工林落叶松人工林,且阔叶林枯落物半分解层蓄积量大于未分解层,而针叶林则相反。(2)枯落物层最大持水量为50.24~109.19t/hm~2,有效拦蓄量为41.70~90.71t/hm~2,均表现为刺槐天然次生林油松人工林落叶松人工林,刺槐天然次生林枯落物层持水功能较好。(3)枯落物未分解层、半分解层分别在浸水10,8h基本达到饱和,持水量与浸水时间呈明显对数关系(R20.91);枯落物在浸水1h内吸水速率变化最大,4h左右吸水速率明显减缓,吸水速率与浸泡时间呈明显幂函数关系(R20.93)。(4)3种植被类型土壤容重均值变化范围为1.10~1.25g/cm~3,总孔隙度变化范围为27.96%~30.19%,土壤有效持水量变化范围为21.11~29.39t/hm~2,不同植被类型土壤层持水能力表现为刺槐天然次生林油松人工林落叶松人工林,土壤入渗速率与入渗时间呈明显幂函数关系(R20.90)。综合3种植被类型枯落物层及土壤层水文功能表明刺槐天然次生林的水源涵养功能较强,建议在该流域加强天然次生林的保护和恢复。 相似文献
12.
不同林龄樟子松人工林针叶-凋落叶-土壤生态化学计量特征 总被引:6,自引:1,他引:5
为明确科尔沁沙地引种樟子松人工林生态系统的C、N、P含量及化学计量特征,采用时空互代的方法,在章古台地区选取4种不同林龄(15,25,35,45年)、立地条件基本一致的樟子松人工林作为研究对象,比较针叶-凋落叶-土壤的C、N、P含量及化学计量比的差异,探讨它们随林龄的变化及其相互间的关系。结果表明:(1)C、N、P含量表现为针叶凋落叶土壤,C/N、C/P、N/P表现为凋落叶针叶土壤,且在3个库之间都有显著差异;(2)林龄对针叶-凋落叶-土壤的C、N、P及C/N、C/P有显著影响,均在35年生樟子松林中针叶-凋落叶-土壤的C、N、P含量最高;(3)相较于其他地区,针叶和凋落叶均表现出高C、P和低N的特征,具有较高的C/N、C/P和较低的N/P;(4)各林龄针叶N/P均小于14,表明该地区樟子松林整个生长过程始终受N的限制,但不同林龄间差异不显著;(5)针叶-凋落叶-土壤的C、N、P含量及其C/N、N/P之间存在显著的相关性,说明该樟子松林生态系统的C、N、P元素在针叶、凋落叶和土壤3个库之间存在运输转换,但其内在维持机制需要进一步深入研究。 相似文献
13.
14.
以大兴安岭林区不同发育阶段兴安落叶松人工林和天然次生林为研究对象,采用野外调查和定量分析相结合的方法,对林地土壤有机质、土壤腐殖质组成、土壤酸度指标及其主要养分含量的变化进行测定和分析。利用主成分分析的方法,以各主成分特征贡献率为权重,加权计算各林地土壤肥力综合指标值。结果表明:随着林龄的增长,不同发育阶段落叶松人工林土壤酸度总体呈现升高的趋势,土壤有酸化的迹象;全磷和速效钾呈现降低的趋势;有机质、水解氮、胡敏酸和胡敏素含量在近熟林略有升高,但总体呈现降低的趋势。土壤肥力评价结果为:天然林>幼龄林>近熟林>中龄林>成熟林,即随着林龄的增长,土壤肥力迅速下降,其主要原因是林地凋落物分解缓慢。因此,建议通过适度提高林地抚育强度,调整群落结构,增加林地光照,诱导天然阔叶树种进入,形成针阔混交林的调控措施,调节落叶松人工纯林凋落物分解与积累的矛盾,以维持地力平衡和提高林地生产力。 相似文献
15.
[目的]研究滦河上游典型林分的枯落物层与土壤层的水文效应,为森林健康监测和评价提供依据。[方法]对滦河上游3种林分的枯落物层未分解层与半分解层进行调查研究。[结果](1)油松林的枯落物生物量为12.03t/hm2,最大持水量为19.4t/hm2,有效拦蓄量为23.52t/hm2;落叶松林的枯落物生物量为9.51t/hm2,最大持水量为11.9t/hm2,有效拦蓄量为17.03t/hm2;落叶松白桦混交林的枯落物生物量为5.54t/hm2,最大持水量为13.0t/hm2,有效拦蓄量为13.7t/hm2。(2)半分解层枯落物浸泡8h已基本达到饱和,而未分解层需浸泡10h。枯落物在浸水的前0.5h内吸水速率最大,6h左右时吸水速率明显减缓。(3)落叶松白桦混交林土壤层持水能力最强,为375.92t/hm2;油松林土壤层的持水能力最差,为248.04t/hm2。利用幂函数对入渗速率与入渗时间进行拟合,其相关系数R2均在0.98以上。[结论]油松林枯落物层的生物量、最大持水量、有效拦蓄量都最大,而落叶松白桦混交林枯落物的土壤持水能力最强。 相似文献
16.
川西亚高山人工云杉林地有机物和养分库的退化与调控 总被引:24,自引:0,他引:24
研究了川西亚高山云杉人工林地有机物和养分库状况 ,结果表明 :该区云杉人工林有机物和养分库严重退化 ,表现为 ,其凋落物的分解速率和周转期均较次生阔叶林和原始云杉林慢 ,致使地表枯枝落叶干物质和各种养分贮量滞留于凋落物层而不能进入土壤 ,土壤中有机质、全N、全P和碱解N含量随人工云杉林龄的增加而大幅度下降。人工云杉林份组成单一 ,其凋落物分解慢 ,归还土壤凋落物和养分数量少 ,是川西亚高山云杉人工林地土壤有机物和养分库退化的重要原因 ,人为收集凋落物积肥和人工抚育清灌 ,不断带走植被中养分是土壤有机物和养分库不断耗竭的另一重要原因。建议对该区人工成熟林抚育间伐和营造针阔混交林 ,改善成熟林下微环境和改变林份组成 ,可在很大程度上防治云杉人工林土壤有机物和养分库的退化 相似文献
17.
华蓥市山区典型林分水源涵养功能评价 总被引:2,自引:1,他引:1
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。 相似文献
18.
Zhihong Xu Sally Ward Chengrong Chen Tim Blumfield Nina Prasolova Juxiu Liu 《Journal of Soils and Sediments》2008,8(2):99-105
Background, Aims, and Scope An improved understanding of important soil carbon (C) and nutrient pools as well as microbial activities in forest ecosystems
is required for developing effective forest management regimes underpinning forest productivity and sustainability. Forest
types and management practices can have significant impacts on soil C and nutrient pools as well as biological properties
in forest ecosystems. Soil C and nutrient pools were assessed for adjacent natural forest (NF), first rotation (1R) (50-year-old),
and second rotation (2R) (1-year-old) hoop pine (Araucaria cunninghamii Ait. ex D. Don) plantations in southeast Queensland of subtropical Australia.
Materials and Methods Five transects spaced 3 m apart with 9 sampling points along each transect were selected (9.6 m × 12.0 m each site), with
45 soil cores (7.5 cm in diameter) collected and separated into 0–10 and 10–20 cm depths. These soils were analysed for total
C, total nitrogen (N), C (δ13C) and N (δ15N) isotope composition. The 0–10 cm soils were analysed for pH, CEC, exchangeable cations, total P and total K, and assayed
for microbial biomass C and N, respiration, metabolic quotient, potential mineralizable N (PMN), gross N mineralization (M) and immobilization (I).
Results Total C and N in 0–10 cm soils were higher under NF and 1R plantation than under 2R plantation, while they were highest in
10–20 cm soils under NF, followed by the 1R and then 2R plantation. δ13C was lower under NF than under the plantations, while δ15N was higher under NF than under the plantations. Total P was the highest under NF, followed by the 1R and then 2R plantation,
while total K was higher under the 2R plantation. No significant differences were detected for pH, CEC, exchangeable cations,
microbial C and N, respiration and metabolic quotient among the 3 sites. PMN and M were higher under NF, while I was the highest under the 2R plantation, followed by the NF and then 1R plantation.
Discussion Soil total C and N in 0–10 cm depth were significantly lower under 2R hoop pine plantation than those under NF and 1R hoop
pine plantation. There were significant reductions in soil total C and N from NF to 1R and from 1R to 2R hoop pine plantations
in 10–20 cm depth. This highlights potential N deficiency in the 2R hoop pine plantations, and application of N fertilizers
may be required to improve the productivity of 2R hoop pine plantations.
There were no significant differences in other soil chemical and physical properties in 0–10 cm depth among the 3 sites under
NF, 1R and 2R hoop pine plantations, except for soil total P and K.
Soil microbial biomass C, CO2 respiration and metabolic quotient did not differ among the 3 sites assessed, perhaps mainly due to these biological variables
being too sensitive to variations in soil chemical and physical properties and thereby being associated with a larger variability
in the soil biological properties. However, soil potential mineralizable N, gross N mineralization and immobilization were
rather sensitive to the conversion of NF to hoop pine plantation and forest management practices.
Conclusions Total C and N in the top 20 cm soil were highest under NF, followed by 1R and then 2R hoop pine plantations, indicating that
N deficiency may become a growth-limiting factor in the 2R hoop pine plantations and subsequent rotations of hoop pine plantation.
The sample size for soil δ13C seems to be much smaller than those for soil total C and N as well as δ15N. The significant reductions in soil total P from NF to 1R and then from 1R to 2R hoop pine plantations highlight that P
deficiency might become another growth-limiting factor in the second and subsequent rotations of hoop pine plantations. Soil
microbial properties may be associated with large spatial variations due to these biological properties being too sensitive
to the variations in soil chemical and physical properties in these forest ecosystems.
Recommendations and Perspectives Soil potential mineralizable N, gross N mineralization and immobilization were useful indices of soil N availability in response
to forest types and management practices. The sampling size for soil δ13C was much smaller than the other soil chemical and biological properties due to the different patterns of spatial variation
in these soil properties. 相似文献
19.
南亚热带杉木林改造不同树种配置模式的土壤质量评价 总被引:5,自引:0,他引:5
为探明不同树种配置对杉木纯林改造中土壤质量的影响,以南亚热带地区不同树种配置、林龄11 ~12a的杉阔混交林为研究对象,以林龄13a杉木纯林的土壤化学性质为对照,比较不同林分0~ 25 cm土层的土壤理化性质以及微生物生物量碳和氮,并基于主成分分析,综合评价不同杉阔混交林的土壤质量.结果表明:混交林土壤pH值为4.15 ~4.71,速效氮和速效磷质量分数分别为81.4 ~ 152.8和0.93 ~ 2.39 mg/kg,杉木林pH值为4.06,速效氮和速效磷质量分数分别为30.8和0.76 mg/kg,前者比后者有不同程度的升高;全磷质量分数除林分C(0.45g/kg)较高外,其余混交林(0.14 ~0.32 g/ks)均小于杉木林(0.34 g/kg);其他指标在不同林分间无一致变化规律.杉阔混交林的土壤质量指数介于0.25~0.64之间;其中,米老排+枫香+香樟+盆架子+杉木、米老排+香樟+阴香+火力楠+杉木、米老排+枫香+香樟+尖叶杜英+杉木3种树种配置的土壤质量指数均大于0.6,表现出较强的土壤改良能力;米老排和香樟树种的土壤改良能力较强,而海南蒲桃和大叶紫薇较差.3种土壤质量指数较大的树种配置,可在我国南亚热带地区的杉木纯林改造中推广应用. 相似文献