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1.
Purpose
Soil labile carbon (C) and nitrogen (N) pools are considered to be sensitive indicators of changes in soil C and N pools. In this study, we examined possible factors affecting spatial and seasonal variations in soil labile C and N pools in the riparian zones in Southeast Queensland, Australia.Materials and methods
Soil and sediment samples were collected from two sites in the riparian areas. The spatial and seasonal variabilities of soil moisture, hot-water extractable organic C and total N (HWEOC and HWETN), microbial biomass C and N (MBC and MBN), and the relationships among them were examined.Results and discussion
Soil labile C and N pools decreased along the transects in both soil depths of the two soil types, with the peak or bottom of values detected between upland slope and the riparian zone. Other factors rather than soil moisture were more important in regulating seasonal changes of soil HWEOC and HWETN except the dry-rewetting influence in November 2013. Soil moisture played a significant role in the seasonal variations of MBC and MBN. Soil labile C (HWEOC and MBC) and N (HWETN and MBN) pools at Site 1 (S1; heavy texture), which were significantly higher than those at Site 2 (S2; light texture).Conclusions
Soil moisture would be an important driving factor for the spatial and seasonal distributions of soil labile C and N pools. Our study highlighted the importance of riparian zones as the hot spot of soil C and N dynamics, especially at the onset of rewetting dry soil in subtropical Australia.2.
Wang Yuzhe Zheng Junqiang Xu Zhihong Abdullah Kadum M. Zhou Qixing 《Journal of Soils and Sediments》2019,19(4):1661-1671
Purpose
The quantity and quality of litter inputs to forest soils are likely to be changed as a result of the climate change and human disturbances. However, the effects of changed litter inputs on soil labile carbon (C) and nitrogen (N) pools still remain unclear.
Materials and methodsA 15-month in situ field experiment was conducted within both high and low litter quality site in a eucalyptus-dominated native forest of Queensland, Australia. Three rates of litter inputs were applied, including (i) no litter (NL); (ii) single litter (SL), representing the average condition of the surrounding forest floor; and (iii) double litter (DL). Water-extractable organic C (WEOC) and total N (WETN), hot water-extractable organic C (HWEOC) and total N (HWETN), microbial biomass C (MBC), and N (MBN) were analyzed in the 0–5-cm soil layer seasonally.
Results and discussionLitter input rates had no significant effects on litter decomposition at both sites (P?>?0.05). After 15-month of decomposition, mean litter mass loss was 46.3% and 31.2% at the HQ and LQ sites, respectively. Changed litter quantity had no significant effects on any of the soil labile C and N pools, regardless of litter quality. However, soil labile C and N pools significantly varied with sampling times, and the samples of different sampling times were clearly separated at both sites according to the redundancy analysis (RDA). WEOC peaked in summer, declined in autumn and winter, and increased again in spring, while the concentrations of HWEOC and MBC peaked in the winter period. The seasonal trends of MBN were opposite to the trends of WETN, which might be due to the temporal partitioning of N between plants and microbes.
ConclusionsThe findings indicated that soil labile C and N pools in the eucalyptus-dominated forest of subtropical Australia were resistant to a short-term change in aboveground litter inputs. Future research should expand on these findings by keeping observing over a longer time period and considering the influence of changed belowground litter inputs.
相似文献3.
Mengyun Liu David A. N. Ussiri Rattan Lal 《Communications in Soil Science and Plant Analysis》2016,47(12):1528-1541
Many questions have surfaced regarding long-term impacts of land-use and cultivation system on soil carbon (C) sequestration. The experiment was conducted at Ohio Agricultural Research and Development Center. Only minor variations of soil organic carbon (SOC) and nitrogen (N) fractions with depth under plow tillage (PT). The SOC, total nitrogen (TN), microbial biomass carbon (MBC) and microbial biomass nitrogen (MBN) concentrations were higher under grassland and forestland in the top 0–15 cm depth than arable soils. No-tillage (NT) also increased SOC and N fractions concentrations in the surface soils than PT. Compared to arable, grass and forest could significantly improve proportions of MBC and MBN, and reduce proportions of dissolved organic carbon (DOC) and dissolved organic nitrogen (DON). NT and forest also increased the ratio of SOC/TN, MBC/MBN, and DOC/DON. Overall, grass and forest provided more labile C and improved C sequestration than arable. So did NT under arable land-use. 相似文献
4.
土壤微生物量碳氮作为土壤肥力指标的探讨 总被引:28,自引:4,他引:28
通过对不同肥力水平黑土、棕壤、黄棕壤、红壤土壤微生物量碳氮的比较,研究和探讨土壤微生物量碳氮与土壤肥力的关系。结果表明:有机肥或无机肥施入土壤均能增加土壤微生物量C、N的含量,且有机肥与无机肥配合有显著的正交互作用。土壤微生物量C、N从北到南的地带性变化规律不强。BC/BN及TC/TN从北到南逐渐减小,BC/TC及BN/TN从北到南逐渐增加。相关分析结果表明:土壤微生物量C、N与全C、全N均呈极显著相关,可以作为指示土壤肥力的重要指标。 相似文献
5.
长期施氮肥对黄棕壤微生物生物性状的影响及其调控因素 总被引:2,自引:0,他引:2
基于黄棕壤小麦-甘薯轮作的长期定位试验,探究不同施氮处理土壤微生物生物量碳(MBC)、氮(MBN)含量和酶活性的变化及其潜在调控因子,为科学施氮提高土壤质量和改善土壤生态功能提供依据。试验选取始于2011年4个施氮处理:不施肥(CK)、不施氮肥(PK)、施化学氮肥(NPK)和化学氮肥配施有机肥(NPKM),调查两季作物收获后土壤MBC和MBN含量、酶活性及微生物碳氮利用效率的变化,并通过冗余分析(RDA)和结构方程模型(SEM)明确调控弱酸性黄棕壤中MBC和MBN变化的潜在因素。小麦和甘薯两季的结果表明:施氮肥降低了土壤MBC、MBN含量和蔗糖酶(SSC)、脲酶(SUE)活性,与NPK处理相比, NPKM处理增加了MBC、MBN含量和SSC、SUE活性。长期施用氮肥提高了土壤有机碳(SOC)和土壤养分[全氮(TN)和矿质态氮(MN)]含量,但施氮肥显著降低土壤p H以及微生物的碳氮利用效率。与小麦季相比,甘薯季土壤SOC和MN含量有所下降,而MBN含量和SSC活性有所升高。RDA和SEM结果表明,氮肥的施用强化了MBC与MBN、SSC与MBC以及SUE与MBC之间的关联性;不同施氮处理下土壤p H、有机碳、氮含量以及微生物的碳氮利用效率的变化直接或间接地影响土壤MBC、MBN含量和SSC、SUE活性,其中p H是调控土壤MBC变化的直接因素,而土壤SSC和SUE活性与MBC、MBN含量相互影响。长期施用氮肥降低了黄棕壤MBC、MBN含量和酶活性,化学氮肥配施有机肥有利于缓解生物性状的下降,土壤p H是影响MBC变化的主要因素,小麦-甘薯轮作中土壤微生物强烈的碳代谢过程利于增加MBN。 相似文献
6.
有机物料输入稻田提高土壤微生物碳氮及可溶性有机碳氮 总被引:27,自引:6,他引:27
土壤微生物量碳、氮和可溶性有机碳、氮是土壤碳、氮库中最活跃的组分,是反应土壤被干扰程度的重要灵敏性指标,通过设置相同有机碳施用量下不同有机物料处理的田间试验,研究了有机物料添加下土壤微生物量碳(soil microbial biomass carbon,MBC)、氮(soil microbial biomass nitrogen,MBN)和可溶性有机碳(dissolved organic carbon,DOC)、氮(dissolved organic nitrogen,DON)的变化特征及相互关系。结果表明化肥和生物碳、玉米秸秆、鲜牛粪或松针配施下土壤微生物量碳、氮和可溶性有机碳、氮显著大于不施肥处理(no fertilization,CK)和单施化肥处理,分别比不施肥处理和单施化肥平均高23.52%和12.66%(MBC)、42.68%和24.02%(MBN)、14.70%和9.99%(DOC)、22.32%和21.79%(DON)。化肥和有机物料配施处理中,化肥+鲜牛粪处理的微生物量碳、氮和可溶性有机碳、氮最高,比CK高26.20%(MBC)、49.54%(MBN)、19.29%(DOC)和32.81%(DON),其次是化肥+生物碳或化肥+玉米秸秆处理,而化肥+松针处理最低。土壤可溶性有机碳质量分数(308.87 mg/kg)小于微生物量碳(474.71 mg/kg),而可溶性有机氮质量分数(53.07 mg/kg)要大于微生物量氮(34.79 mg/kg)。与不施肥处理相比,化肥和有机物料配施显著降低MBC/MBN和DOC/DON,降低率分别为24.57%和7.71%。MBC和DOC、MBN和DON随着土壤有机碳(soil organic carbon,SOC)、全氮(total nitrogen,TN)的增加呈显著线性增加。MBC、MBN、DOC、DON、DOC+MBC和DON+MBN之间呈极显著正相关(P<0.01)。从相关程度看,DOC+MBC和DON+MBN较MBC、DOC、MBN、DON更能反映土壤中活性有机碳和氮库的变化,成为评价土壤肥力及质量的更有效指标。结果可为提高洱海流域农田土壤肥力,增强土壤固氮效果,减少土壤中氮素流失,保护洱海水质安全提供科学依据。 相似文献
7.
喀斯特峰丛洼地不同植被类型土壤微生物量碳氮磷和养分特征 总被引:1,自引:0,他引:1
8.
《Soil Science and Plant Nutrition》2013,59(6):849-860
A long-term experiment (LTE) on a rice-wheat system was initiated in 1963 at the Kyushu National Agricultural Experiment Station, in Fukuoka, Japan, to determine the effects of continuous application of rye grass/wheat straw, rice straw and rice straw compost, alone or in combination with inorganic N on crop yields. Increase in rice yields and enhancement of total soil C and N contents with the application of organic residues in this LTE have been reported earlier. However, evaluation of the changes in the soil microbiological properties and the decomposable C fraction of soil organic matter that is needed for soil quality assessment is still lacking. Soil samples were collected after rice harvest in 2003 from the organic residue treatments and unfertilized control, air-dried and incubated for 1 month under aerobic [50% water-filled pore space (WFPS)] and flooded conditions prior to the analysis of the amount of microbial biomass C (MBC), soil respiration and the amount of potential mineralizable N (PMN). The contents of total C (TC), total N (TN), organic C (OC), hot water-extractable C (HWEC) and permanganate-oxidizable C (POC) were determined from air-dried soils. Organic residue incorporation brought about significant increases in the contents of TC, TN, OC, POC, HWEC and PMN. The largest accumulation of total C (23%) and N (72%) in the soil was from rice straw compost, compared with that from rice straw (C, 7% and N, 33%) and rye grass/wheat straw (C, 9% and N, 29%). Incorporation of rice straw compost also increased the amount of MBC under both aerobic and flooded conditions and basal soil respiration under aerobic conditions only. An efficient utilization of C by microorganisms was indicated by a significantly lower metabolic quotient (qCO2) in the composted and uncomposted rice straw treatments compared with the control in the “-” N treatment under aerobic conditions. Similarly, the flush of CO2 after rewetting of dry soil per unit of HWEC was lower in the organic matter treatments, indicating a more efficient C utilization and lower C losses per unit of available C. The content of HWEC was significantly correlated with the basal soil respiration (at 50% WFPS), the amounts of MBC, PMN and with the increase in the content of soil organic C in the residuetreated soils. In the treatments without inorganic N fertilizer, grain yield was significantly correlated with the amounts of total organic C, HWEC, MBC (at 50% WFPS), basal soil respiration (at 50% WFPS) and the amount of PMN. 相似文献
9.
Mirai WATANABE Shigeki YAMAMURA Takejiro TAKAMATSU Masami K. KOSHIKAWA Seiji HAYASHI Tomoyoshi MURATA Shoko S. SAITO Kazuyuki INUBUSHI Kazunori SAKAMOTO 《Soil Science and Plant Nutrition》2010,56(1):123-132
Volcanic acidification has created unique ecosystems that have had to adapt to the acidic environments in volcanic regions. To characterize the primary microbial properties of strongly acidified soils in such environments, we investigated microbial biomass, nitrogen transformations and other relevant chemical properties in the surface soils of solfatara and forests from Osorezan, a typical volcanic region in Japan, and compared the results to common Japanese forest soils. Soil microbial biomass C (MBC) and N (MBN) were determined using the chloroform fumigation–extraction method. Potential net N mineralization and net nitrification were measured in aerobic laboratory incubations. Long-term acidification in the Osorezan soils by volcanic hydrogen sulfide deposition caused low soil pH (3.0–3.8), base cation deficiency and increased concentrations of toxic ions such as Al3+ . The proportions of MBC to total carbon (MBC/TC ratio) and MBN to total nitrogen (MBN/TN ratio) were lower than those in common Japanese forest soils. The extreme acidic conditions may have inhibited microbial survival in the Osorezan acid soils. Net N mineralization occurred at rates comparable to those in common Cryptomeria japonica forest soils, probably because of the presence of acid-tolerant soil microorganisms. Net nitrification was completely inhibited and autotrophic ammonia oxidizers were not detected by the MPN method. The inhibition of nitrification prevents nitrogen leaching from the soils, thus maintaining a nitrogen cycle in the volcanic acid region in which (and NH3 ) is recycled among microorganisms and plants. 相似文献
10.
Intensification of crop production in Tonga has resulted in a move to mechanical soil preparation, often with a rotary hoe, and a consequent loss in both chemical physical fertility. An experiment was conducted on a clay loam soil (Typic Argiudoll) on the Forestry Vaini Research Station, Tongatapu Island, Tonga, to investigate the effect of a once‐off application of mulch on yield and quality of watermelon, maize and capsicum grown in rotation over a 1‐yr period. The treatments applied were a nonmulched control, transparent plastic and 200‐mm‐thick applications of locally available coconut sawdust, guinea grass and mature coconut fronds. The fresh fruit yield of watermelon in all the mulch treatments was 7.3–18.1% higher than in the nonmulched control. There was no significant effect of thick vegetative mulch on maize grain dry matter yield; however, the maize yield was significantly lower in the transparent plastic mulch than in the other treatments. The capsicum marketable fruit yield in the following crop was increased by 49–73% in all the vegetative mulch treatments compared to the non‐mulched control. The higher crop yields with the vegetative mulch were attributed to the measured lower soil temperatures and higher soil moisture in these treatments. There was no effect of mulch on soil total N (TN), but soil total C (TC), soil labile C (LC) and the carbon management index (CMI) were increased. 相似文献
11.
[目的]探究设施土壤微生物量碳、氮对菌渣还田的响应,为实现设施瓜菜生产的可持续发展提供理论依据和技术支持。[方法]以草菇菌渣为材料,在山东省莘县进行了田间试验,以常规鸡粪还田为对照(CON),设置5个菌渣(FR)还田量,研究菌渣还田对设施土壤有机碳(SOC)、全氮(TN)和微生量碳(MBC)、氮(MBN)的影响。[结果] 5个菌渣还田处理的菌渣使用量分别为15,30,45,60和75 t/hm~2)相比CON增加了SOC和TN。SOC分别增加了12.0%,11.2%,21.6%,33.1%和31.7%,TN分别增加了3.1%,6.3%,19.9%,29.4%和26.4%。除FR_1以外,其他4个菌渣还田处理相比增加了MBC和MBN,MBC分别增加了16.1%,19.9%,36.8%和50.7%,MBN分别增加了3.3%,37.7%,40.4%和60.9%。相比CON,高量菌渣还田处理增加了MBC/SOC和MBN/TN。相关分析表明,MBC,MBN与SOC和TN均呈极显著正相关。[结论]菌渣还田可以提高土壤有机碳、土壤全氮和土壤微生物碳、氮。土壤微生物碳、氮含量随着菌渣还田量的增加而增加,因此菌渣还田是提高设施土壤微生物活性及土壤肥力的有效措施。 相似文献
12.
Weixing Liu Wenhua Xu Yi Han Changhui Wang Shiqiang Wan 《Biology and Fertility of Soils》2007,44(2):259-268
Temporal dynamics of microbial biomass and respiration of soil and their responses to topography, burning, N fertilization,
and their interactions were determined in a temperate steppe in northern China. Soil microbial indices showed strong temporal
variability over the growing season. Soil microbial biomass C (MBC) and N (MBN) were 14.8 and 11.5% greater in the lower than
upper slope, respectively. However, the percentage of organic C present as MBC and the percentage of total N present as MBN
were 16.9 and 26.2% higher in the upper than lower slope, respectively. Neither microbial respiration (MR) nor metabolic quotient
(qCO2) was affected by topography. Both MBC and MBN were increased by burning, on average, by 29.8 and 14.2% over the growing season,
and MR and qCO2 tended to reduce depending on the sampling date, especially in August. Burning stimulated the percentage of organic C present
as MBC and the percentage of total N present as MBN in the upper slope, but did not change these two parameters in the lower
slope. No effects of N fertilization on soil microbial indices were observed in the first growing season after the treatment.
Further research is needed to study the long-term relationships between changes in soil microbial diversity and activity and
plant community in response to burning and N fertilization. 相似文献
13.
T. Murata N. Nagaishi R. Hamada H. Tanaka K. Sakagami T. Kato 《Biology and Fertility of Soils》1998,27(4):342-348
The effect of short-term bark compost (Ba) and leaf litter (Li) applications on the labile soil organic matter (SOM) status
was investigated. The SOM status studied in this paper includes soil microbial biomass, soil available N, hot water extractable
C (HwC) and N (HwN) and soil neutral sugar-C composition. The soil microbial biomass C (MBC) and N (MBN), soil available N,
HwC and HwN increased upon application of Ba and Li. No quantitative relationship was observed between application of organic
material and MBC, MBN or soil available N. A positive linear correlation was observed between MBN and HwC but not between
MBN and soil available N. Among the various soil neutral sugar C, xylose C (Xyl) content in Ba plots showed a remarkable increase
but mannose C (Man) did not differ among Fer (fertilizer), Ba or Li plots. Soil neutral sugar C had a positive linear correlation
with soil available N, MBN and HwC. The proportion of MBN : TN is positively correlated with the Xyl/Man ratio. The increase
in the proportion of MBN in SOM seems to occur with the increase of SOM derived from plant debris.
Received: 20 October 1997 相似文献
14.
有机无机复混肥优化运筹对稻田肥力的影响 总被引:2,自引:0,他引:2
通过田间试验探讨了不施分蘖肥的有机无机复混肥运筹模式对机插水稻土壤总碳(TC)、总氮(TN)、微生物碳(MBC)、微生物氮(MBN)、土壤呼吸强度以及线虫特征等土壤肥力关键指标的影响。结果表明,有机无机复混肥作基肥施用,不施分蘖肥,穗肥施用一次(处理FMT)或二次(处理FMO)时水稻产量能够达到或超过单施化肥处理水平。与单施化肥相比,有机无机复混肥处理显著提高了土壤微生物量碳(MBC)和氮(MBN),MBC平均提高14.5%,MBN提高21.4%;土壤呼吸强度也得到明显提高,平均增幅31.8%,然而有机无机复混肥对土壤总碳(TC)和全氮(TN)无显著影响。有机无机复混肥处理降低了耕层(0~10 cm)土壤线虫密度,并导致食细菌线虫优势属头叶属和真头叶属相对丰度下降,食细菌线虫次优属绕线属、连胃属及植食性线虫潜根属相对丰度有所提高。应用土壤养分指标(TC、TN)、生物指标(MBC、MBN、线虫数量、土壤呼吸强度)进行主成分分析和聚类分析,结合水稻产量、肥料利用率,表明有机无机复混肥运筹是一项集培肥、增产、操作性强的施肥方式。 相似文献
15.
This study was conducted to investigate the effects of slope aspect and position on microbial biomass C (MBC) and some hydrolytic enzyme activities involved in soil N, P, and S cycles in a rangeland ecosystem of west central Iran. Soil samples were collected from three slope positions (summit, backslope, and footslope) of contiguous north- and south-facing slopes. Results indicated higher silt and clay content, soil organic C (SOC), total N (TN), and C/N ratio on the north-facing slope. Furthermore, MBC, alkaline phosphomonoesterase (ALP), acid phosphomonoesterase (ACP), arylsulfatase (ARS), urease (URS), L-asparaginase (LAS), and L-glutaminase (LGL) activities were greater by 46.1, 65.9, 58.6, 59.6, 52.6, 62.8, and 65.7%, respectively, on the north-facing slope compared to the south-facing one. Higher ratios of enzyme activities to MBC were observed on the north-facing slope. In contrast, per cent of inorganic N and microbial quotient were greater on the south-facing slope. The activity of ALP, ACP, ARS along with SOC, TN, and MBC values decreased from summit to footslope. Overall, our findings indicate that north-facing slope and summit position support greater microbial biomass and hydrolytic diversity. 相似文献
16.
山核桃集约经营过程中土壤微生物量碳氮的变化 总被引:1,自引:1,他引:1
[目的]研究不同集约经营历史山核桃林的土壤微生物量碳氮的演变规律,为山核桃林地土壤管理提供科学依据。[方法]在浙江省临安市分别采集并分析了经营历史为5,10,15,20a的山核桃林土壤样品,并与天然混交林(0a)进行比较。[结果]天然混交林改造为山核桃纯林并经集约经营后,林地土壤微生物量碳(MBC)、微生物量氮(MBN)、MBC/MBN,MBC/SOC均表现出先下降而后上升的趋势,经过10a经营后降到最低水平,与0a相比,0—10cm土层MBC,MBN和MBC/SOC分别降低了52.1%,32.0%和31.0%。经营10a的林地土壤MBC/MBN显著低于前期经营林地,而MBN/TN在经营过程中的差异并不显著。[结论]山核桃集约经营后,林地土壤微生物量碳氮含量显著下降。 相似文献
17.
Yichao Rui Shiping Wang Zhihong Xu Yanfen Wang Chengrong Chen Xiaoqi Zhou Xiaoming Kang Shunbao Lu Yigang Hu Qiaoyan Lin Caiyun Luo 《Journal of Soils and Sediments》2011,11(6):903-914
Purpose
Small but highly bioactive labile carbon (C) and nitrogen (N) pools are of great importance in controlling terrestrial C and N fluxes, whilst long-term C and N storage is determined by less labile but relatively large sizes of C and N pools. Little information is available about the effects of global warming and grazing on different forms of C and N pools in the Qinghai?CTibet Plateau of China. The aim of this study was to investigate the effects of warming and grazing on the sizes of different soil labile C and N pools and N transformation in this region.Materials and methods
A free-air temperature enhancement system in a controlled warming?Cgrazing experiment had been implemented since May 2006. Infrared heaters were used to manipulate temperature, and a moderate grazing intensity was simulated by Tibetan sheep. After 3 years?? warming, soil samples were taken from the four treatment plots: no warming with no grazing; no warming with grazing; warming with no grazing; and warming with grazing. Concentrations of inorganic N in the 40?Ccm soil profiles were measured by a flow injection analyser. Microbial biomass C (MBC) and microbial biomass N (MBN) were measured by the fumigation?Cextraction method, and soluble organic C (SOC) and soluble organic N (SON) were determined by high-temperature catalytic oxidation. Total N (TN), C isotope composition (??13C) and N isotope composition (??15N) were determined using an isotope ratio mass spectrometer. Net N transformation under low temperature was studied in a laboratory incubation experiment.Results and discussion
Warming and grazing treatments affected soil C and N pools differently, and these effects varied with soil depth. Warming significantly increased TN, MBC, MBN, and SON and decreased ??13C at the 10?C20 and 20?C30 cm soil depths, whilst grazing generally decreased SON at the 10?C20 and 20?C30 cm, and MBC at 20?C30 cm. At the 0?C10 cm depth, neither warming nor grazing alone affects these soil parameters significantly, indicating that there could be considerable perturbation on the soil surface. However, grazing alone increased NO 3 ? ?CN, total inorganic N, SOC and ??15N at the 0?C10 cm depth. Incubated at 4°C, warming (particularly with grazing) led to net immobilization of N, but no-warming treatments led to net N mineralization, whilst nitrification was strong across all these treatments. Correlations between MBC and SOC, and TN and MBN or SON were positive. However, SON was less well correlated with TN and MBN compared with the highly positive correlations between SOC and MBC.Conclusions
It is clearly demonstrated that warming and grazing affected labile C and N pools significantly, but differently after 3 years?? treatments: Warming tended to enlarge labile C and N pools through increased litter inputs, whilst grazing tended to increase inorganic N pools, decrease SON and accelerate N cycling. Grazing might modify the mode that warming affected soil C and N pools through its strong impacts on microbial processes and N cycling. These results suggested that interactive effects of warming and grazing on C and N pools might have significant implications for the long-term C and N storage and productivity of alpine meadow ecosystem in the Qinghai?CTibet Plateau of China. 相似文献18.
植物是影响土壤有机碳含量和土壤团聚体稳定性的重要因素。选取华南典型花岗岩侵蚀区荒草地、桉树林、湿地松林和木荷林4种植被类型径流小区的土壤为研究对象,分析测定不同坡位、不同土层深度的土壤有机碳特性和团聚体稳定性等指标,评价不同植被类型对土壤养分的分布特性以及团聚体稳定性差异,明确花岗岩侵蚀退化区较为理想的生态恢复措施,旨在为合理利用土壤、重建坡面植被和改善土壤结构提供科学依据。结果表明:土壤总有机碳(TOC)、全氮(TN)和溶解性有机碳(DOC)含量随土层加深逐渐降低,而林地小区土壤碳氮比(C/N)则相反,荒草地碳氮元素的坡面变异系数(CV)显著高于其他3种林地,其中桉树林地TOC、TN、DOC和C/N的坡面分布的变异系数较荒草地分别降低40%,56.18%,68.5%和25.81%;湿地松林地TOC、TN、DOC和C/N的坡面分布的变异系数较荒草地分别降低62.73%,33.71%,46.46%,58.06%;木荷林地TOC、TN、DOC和C/N的坡面分布的变异系数较荒草地分别降低41.82%,38.2%,51.18%,48.39%,表明林地较荒草地更有利于土壤碳氮在坡面的均质化和有机质的积累。荒草地和木荷林地0.25 mm粒径以上的团聚体在上、中坡位的质量分数显著高于其他植被类型,而林下植被生物量较高的木荷林地的平均质量直径(MWD)和几何平均直径(GMD)显著高于其他植被类型。其中木荷小区水稳性团聚体平均质量直径(MWD)较荒草地、桉树和湿地松分别高20.10%,19.58%,23.20%;几何平均直径(GMD)较荒草地、桉树和湿地松分别高20.00%,19.54%,22.23%,表明在花岗岩侵蚀区林地空间结构较好的林草模式有利于土壤有机碳的积累和土壤结构的稳定。 相似文献
19.
Tutua Shane Zhang Yaling Xu Zhihong Blumfield Tim 《Journal of Soils and Sediments》2019,19(11):3786-3796
Purpose
This study aimed to investigate the benefits of retaining harvest residues on the dynamics of soil C and N pools following clear-cut harvesting of a slash pine plantation in South East Queensland of subtropical Australia.
Materials and methodsImmediately following clear-cut harvesting, macro-plots (10?×?10 m) were established on a section of the plantation in a randomised complete block design with four blocks and three treatments: (1) residue removal (RR0), (2) single level of residue retention (RR1) and (3) double level of residue retention (RR2). Soils were sampled at 0, 6, 12, 18 and 24 months following clear-cutting and analysed for total C and N, microbial biomass C (MBC) and N (MBN), hot water–extractable organic C (HWEOC), hot water–extractable organic N (HWEON), NH4+–N and NOx?–N.
Results and discussionThe study showed that although soil total C decreased in the first 12 months following clear-cutting, harvest residue retention increased soil total C and N by 45% (p?<?0.001) and 32% (p?<?0.001), respectively, over the 12–24 months. NH4+–N, HWEOC, HWEON and MBC showed initial surges in the first 6 months irrespective of residue management, which declined after the 6th month. However, residue retention significantly increased HWEOC and HWEON over the 12–24 months (p?<?0.001).
ConclusionsThis study demonstrated that harvest residue retention during the inter-rotation period can minimise large changes in C and nutrient pools, and can even increase soil C and nutrient pools for the next plantation rotation.
相似文献20.
间作白三叶对苹果/白三叶复合系统土壤微生物量碳、氮及酶活性的影响 总被引:2,自引:0,他引:2
以渭北黄土高原苹果园土壤为研究对象,设置传统苹果(Malus domestica Borkh.)园清耕及间作白三叶(Trifolium repens L.)两个处理,测定和分析了不同土层(0—5 cm,5—10 cm,10—20 cm及20—40 cm)的土壤微生物量碳(SMBC)、氮(SMBN)、4种土壤酶活性、有机碳(SOC)和全氮(TN)等指标,从土壤微生物碳、氮及酶活性的角度探讨间作白三叶对苹果/白三叶复合系统土壤的影响。结果表明:间作白三叶能够显著提高土壤微生物量碳、氮的含量和土壤酶活性,提高土壤微生物对有机碳和全氮的利用效率,其作用随着土层深度的增加而降低,在表层土壤效果更为显著。土壤微生物量碳、氮及土壤酶活性与土壤有机碳、全氮呈极显著相关或显著性相关。苹果园土壤微生物量碳、氮及土壤酶活性能敏感响应生草间作,可以作为评价果园生草对果园土壤影响的良好指标。 相似文献