Regulation of the growth of sprouting roots of black locust seedlings using root barrier panels

How can we regulate an invasive alien species of high commercial value?Black locust(Robinia pseudoacacia L.)has a unique capacity for seed dispersal and high germination.Field surveys indicate that black locust increases its growing area with sprouting roots and the elongation of horizontal roots at a soil depth of 10 cm.Therefore,a method to regulate the development of horizontal roots could be eff ective in slowing the invasiveness of black locust.In this study,root barrier panels were tested to inhibit the growth of horizontal roots.Since it is labor intensive to observe the growth of roots in the fi eld,it was investigated in a nursery setting.The decrease in secondary fl ush,an increase in yellowed leafl ets,and the height in the seedlings were measured.Installing root barrier panels to a depth of 30 cm eff ectively inhibit the growth of horizontal roots of young black locust.

Long-term impact of municipal sewage irrigation on treated soil and black locust trees in a semi-arid suburban area of Iran

The effects of municipal sewage irrigation on the soil and black locust （Robinia pseudoacacia L.） tree were studied. For this purpose, two artificial black locust stands under irrigation of municipal sewage and well water were selected in south of Tehran, Iran. Data were collected using technique of systematic random sampling with 4 replicates in each stand. It was found that the growth of black locust tree, as indicated by diameter at breast height, total height, crown length, average crown diameter, basal area and volume, in sewage irrigation stand was much higher than that of well water irrigation stand （P 〈 0.01）. Plant analysis indicated that concentrations of leaf nutrients （N, E K, Ca, Mg, Na, Fe, Mn, Cu and Zn） were greater in sewage-irrigated trees, without toxicity to the minerals of tree leaf, than those of well waterirrigated trees, and positively correlated with their respective value in soil. Ni, Cr and Pb were not detected in leaf samples. Application of sewage resulted in a 1.5-fold increase in the concentrations of soil nutrients, Ni, Cr and Pb. Among these minerals only Pb and Ni in some soil samples exceeded the toxicity limit. The increase in pH, electrical conductivity （EC） and organic carbon of soil was also observed in sewage irrigation. Results confirm that besides the use as irrigation water, municipal sewages are also a potential source of plant nutrients. However, significant accumulation of heavy metals such as Pb and Ni in soil needs to be monitored.

Ways to Improve Low-Benefit Black Locust Forests in Loess Plateau

This paper presents a general standard for the low-benefit black locust （Robinia pseudoacacia L.） torests m Loess Plateau based on defining the concept of “tri-low forest”, and emphasizes the major factors which result in low-benefit black locust, such as, lack of soil moisture of forest and nutrient, breaching the principle of matching tree species to sites, and high density of forests. Based on different characteristics of low-benefit forests, following the principle of “adjusting measures to local conditions, giving priority to ecological benefits, assisting with economic benefits”, the authors put forward some technical ways to reform low-benefit black locust forests, for example, taking measurements of collecting runoff and storing water, lowering the forest density, introducing mixed forests and transforming species, directive breeding and so on.

Temporal changes in nitrogen acquisition of Japanese black pine(Pinus thunbergii) associated with black locust(Robinia pseudoacacia)

The alien woody legume, black locust （Robinia pseudoaca-cia）, has invaded Japanese black pine （Pinus thunbergii） forests located in Japan’s coastal plain and hill regions where gaps are formed in pine forests after nematode infestation. Nitrogen fixation by legumes acceler-ates N cycling in forest ecosystems. We studied temporal change in the annual tree-ring resolution N stable isotope composition （δ15N, a per mil deviation of δ15N/14N ratio, relative to atmospheric N2δ15N=0‰） at two natural locations of Japanese black pine forest with black locust that differed in the time since black locust establishment （Shohnai in north-east and Kita-Kyushu in southwest Japan）. Analyzed tree-rings covered the period from 1990/1992 to 2009. N acquisition by Japanese black pine from black locust N input to the soil was evidenced by temporal shifting of N stable isotope composition on the annual pine tree rings. With pro-gressive development of the forest stand,δ15N values of earlier tree-ringsδ15N of -5‰） from black pine associated with black locust shifted to-wards values similar to those of black locustδ15N values nearly to-1‰）, which suggests acquisition of N by N2 fixation （Shohnai site）. In con-trast, in a forest where black locust had settled for two or three genera-tions, in a black pine stand （Kita-Kyushu site）, longer periods of N en-richment in the soil were reflected in the elevated tree-ringδ15N values of newly established black pine trees. Based on tree-ringδ15N data from the Shohnai site, we determined that about 10 years after black locust establishment, soil N had already been enriched by black locust N, this, in turn, contributed to N fertilization of surrounding trees in mixed stands.

Ecology,growth and management of black locust(Robinia pseudoacacia L.),a non-native species integrated into European forests

Black locust(Robinia pseudoacacia L.),a species native to the eastern North America,was introduced to Europe probably in 1601 and currently extends over2.3×10~6 ha.It has become naturalized in all sub-Mediterranean and temperate regions rivaling Populus spp.as the second most planted broadleaved tree species worldwide after Eucalyptus spp.This wide-spreading planting is because black locust is an important multipurpose species,producing wood,fodder,and a source of honey as well as bio-oil and biomass.It is also important for carbon sequestration,soil stabilization and re-vegetation of landfills,mining areas and wastelands,in biotherapy and landscaping.In Europe,black locust is drought tolerant so grows in areas with annual precipitation as low as 500-550 mm.It tolerates dry,nutrient poor soils but grows best on deep,nutrient-rich,well-drained soils.It is a fast-growing tree and the height,diameter and volume growth peak before the age of 20.It mostly regenerates vegetatively by root suckers under a simple coppice system,which is considered the most cost-effective management system.It also regenerates,but less frequently,by stool sprouts.Its early silviculture in production forests includes release cutting to promote root suckers rather than stool shoots,and cleaning-respacing to remove low-quality stems,reduce the number of shoots per stool,and adjust spacing between root suckers.In addition,early,moderate and frequent thinning as well as limited pruning are carried out focusing on crop trees.The species is regarded as invasive in several European countries and its range here is expected to expand under predicted climate changes.

Energy partitioning and evapotranspiration in a black locust plantation on the Yellow River Delta,China

Plantations of woody tree species play a crucial role in ecological security along coastal zones.Understanding energy partitioning and evapotranspiration can reveal land–atmosphere interaction processes.We investigated energy fluxes,evapotranspiration,and their related biophysical factors using eddy covariance techniques in a black locust(Robinia pseudoacacia L.)plantation in 2016,2018,and 2019 on the Yellow River Delta.Downward longwave radiation offsets 84–85%of upward longwave radiation;upward shortwave radiation accounted for 12–13%of downward shortwave radiation.The ratio of net radiation to downward radiation was 18–19%over the three years.During the growing season,latent heat flux was the largest component of net radiation;during the dormant season,the sensible heat flux was the dominant component of net radiation.The seasonal variation in daily evapotranspiration was mainly controlled by net radiation,air temperature,vapor pressure deficit,and leaf area index.Black locust phenology influenced daily evapotranspiration variations,and evapotranspiration was greater under sea winds than under land winds because soil water content at 10-cm depth was greater under sea winds during the day.Seasonal patterns of daily evaporative fraction,Bowen ratio,crop coefficient,Priestley–Taylor coefficient,surface conductance,and decoupling coefficient were mainly controlled by leaf area index.The threshold value of daily surface conductance was approximately 8 mm sover the plantation.

Black locust coppice stands homogenize soil diazotrophic communities by reducing soil net nitrogen mineralization

Background:Black locust(BL,Robinia pseudoacacia)is considered a promising tree species for reforestation due to its great ability to fix nitrogen.However,after two or three coppice-harvesting rotations,the productivity of BL declines.Whether soil microbial communities are affected and how these groups correlate with the nitrogen mineralization process across multi-generation stands remains unclear.Methods:We investigated the composition and structure of free-living nitrogen-fixing microorganisms(diazotrophs)by sequencing the marker gene nifH and compared these results to levels of soil nitrogen mineralization in the bulk soil and rhizosphere in black locust plantations on Mount Tai,China.Results:The results showed multi-generation BL coppice plantations decreased the total soil nitrogen(N),soil phosphorus(P),soil microbial biomass N(MBN),soil microbial biomass C(MBC),soil nitrification rate(Rn),soil ammonification rate(Ra),and net soil N mineralization rate(Rm),but significantly increased the concentration of soil NH_(4þ)-N to maintain sufficient NO_(3)^(-)N.The dominant species in bulk soil and rhizosphere changed from Rhodopseudomonas(22.62%and 15.76%),unclassified_c_Alphaproteobacteria(22.37%and 29.28%),unclassified_o_Rhizobiales(15.40%and 13.31%),Bradyrhizobium(12.00%and 11.74%)in seedling plantations to Bradyrhizobium(45.95%and 47.86%)and Rhodopseudomonas(43.56%and 41.84%)in coppice plantations,respectively.Mantel test and Redundancy analysis(RDA)revealed that Rn,Ra,and Rm were the most important factors shaping the diazotrophic communities.Conclusions:Our results suggest that the multi-generation BL coppice plantation can homogenize soil diazotrophic communities,which is mainly regulated by the available N loss caused by nitrogen mineralization.Strengthening the management technology of coppice plantations will provide more beneficial external consumption.

Establishment of a transgenic system in fast-growing black locust (Robinia pseudoacacia L.)

The AhDREB1 gene, cloned from Atriplex hortensis L., was transferred into black locust （Robiniapseudoacacia L.） by an Agrobacterium-mediated transformation. The results suggest that stems of black locust sub-cultured in vitro for 20 d are suitable for genetic transformation. The optimum concentrations of kanamycin and cefotaxime were 30 and 150 mg.L-1, respectively. Important factors affecting the transformation efficiency were studied by means of a L9（3^4） orthogonal design. An effective system for genetic transformation in black locust was developed as follows： the stems were pre-cultured for 2 d, immersed in the Agrobacterium solution （OD600 = 0.7） with 10 mg·L^-1 acetosyringone for 21 min and then co-cultured for 2 d. The selection pressures, changing from low to high, could improve transformation efficiency. The transgenic plants were identified by a PCR method. The PCR results indicated that the AhDREB1 gene had been integrated into the genome of black locust and two lines of the transgenic plants were obtained.

Ruminal in situ disappearance kinetics of six nutritive ingredients in leaves and stems of young tetraploid black locust in growing steers

Tetraploid black locust （Robinia pseudoacacia） is a woody plant with larger leaves and richer nutritional content than normal diploid black locust, with greater biomass and wider adaptability than herbaceous plant forage. However, currently no stock- breeders have adopted it as a major forage in China and other countries for a lack of information on the evaluation of nutritional ingredients of leaves and stems of young tetraploid black locust （YTBL） by in situ digesting tests. The objectives of this study were： 1） to assess the nutritive value of YTBL that bourgeoned from root stumps in the spring by determining the ruminal in situ disappearance kinetics of dry matter （DM）, organic matter （OM）, crude protein （CP）, ether extract （EE）, neutral detergent fiber （NDF） and acid detergent fiber （ADF） from leaves, stems and a mixture of both leaves and stems （MLS） of YTBL; 2） to compare these kinetic estimates with those of Leymus chinensis, a widely used ruminant forage in China. All samples were evaluated in situ by using five ruminally cannulated crossbred steers （550±22.7 kg BW）. The results of 48 hours, the representative incubation period, indicate that in situ disappearance rates of DM and OM in YTBL leaves, stems and MLS are on average about 40% and can attain the level of digestibility of L. chinensis. In situ disappearance rates of leaves, stems and MLS of YTBL for CP and EE were 41% and 58% respectively, rates higher than those of L. chinensis. But the disappearance rates of NDF and ADF were, on average, respectively 30.62% and 24.89% and lower than those ofL. chinensis. By analyzing synthetically all of our results it could be inferred that MLS of YTBL offers effective ruminal degradability of DM, NDF, ADF, CP, EE and OM, similar to the nutrients of L. chinensis. This supports our contention that the YTBL leaves, stems and MLS are suitable feed for those ruminants requiring high levels of nutrients, such as dairy cows and Boer goats, instead of plant forage, which is decidedly lacking in some parts of the world.

Black locust (Robinia pseudoacada L.) clonal seed orchards in Hungary

Black locust （Robinia pseudoacacia L.） is one of the most important stand-forming tree species in Hungary and its impor- tance is increasing in many countries. The main aim of the discussed new selection programme is to identify black locust clones with good performance and good form for setting up clonal seed orchards. As a result of selection programme 16 new black locust clones have been improved. In spring 2002 a black locust seed orchard was established with the newly selected clones. About 40% of the plants can be considered to belong to the height growth rate class 1 and 2. Hungary was the first country where micropropagated black locust planting material was used for seed orchard establishment.

Age-related Changes of Carbon Accumulation and Allocation in Plants and Soil of Black Locust Forest on Loess Plateau in Ansai County, Shaanxi Province of China

在高原生态系统吸引了的瓷器黄土的碳(C) 隐遁上的重新造林的效果很在最近的年里研究注意。黑蝗虫树(Robinia pseudoacacia L.) 在重新造林和水和土壤保存努力为他们的重要使用被珍视。这种森林类型越过黄土高原是普遍的，并且一定是任何在这个易碎的生态的区域为 C 隐遁努力计划的一个必要部件。在重新造林仍然保持不明确以后，看台的长期的效果在 C 累积和分配上变老。我们在黄土高原上检验了黑蝗虫森林(后来种的 5， 9， 20， 30， 38，和 56 年) 的年龄顺序在植物(树，灌木，牧草，和叶垃圾) 和土壤(0100 厘米) 评估 C 累积和分配。Allometric 方程为估计树部件的生物资源被开发(叶，树枝，茎没有吠叫，吠叫并且根) 与一个破坏采样方法。我们的结果证明那个黑蝗虫森林生态系统常常积累了 C，从 31.42 Mg C/ 哈(1 Mg = 10 < 啜 class= “ a-plus-plus ” > 6 g ) 在到在 38 年的 79.44 Mg C/ha 的 5 年。在旧森林阶段(38 ～ 56 年) ，在植物生物资源的 C 的数量显著地减少了(从 45.32 ～ 34.52 Mg C/ha ) 由于树的高死亡。然而，旧森林能在土壤连续地积累 C (从 33.66 ～ 41.00 Mg C/ha ) 。在灌木生物资源的 C 与看台年龄增加了，当在牧草层和叶垃圾的 C 股票是年龄无关的时。重新造林在森林土壤导致了 C 重新分配。C 存货与看台年龄常常增加了的表层土(020 厘米) 。然而，在 2030， 3050， 50100，和 20100 厘米层，在亚顶土壤的 C 存储是年龄无关的。这些结果建议作为一个时间的因素，继任在植被在地区性的 C 动力学在黑蝗虫森林里并且也在 C 累积和重新分配起一个关键作用。

黄土高原健康和衰退刺槐林径向生长对气候的响应

全球气候变化导致的区域森林生长衰退和死亡普遍发生,并对森林生态系统结构和组成以及主要生态系统服务功能产生重要影响,然而相关研究在国内还显偏少。根据黄土高原延安羊圈沟小流域人工刺槐林健康和衰退个体分别构建了刺槐健康和衰退树轮年表,并对人工刺槐林健康和衰退年表特征及对气候响应敏感性进行了对比分析。结果表明刺槐衰退年表质量较低,其年表统计参量,包括平均敏感度、样芯间相关系数、信噪比和样本群体代表系数均要低于刺槐健康年表。刺槐衰退年表在生活史早期(1985—2007年)与生长健康年表的波动趋势相类似,而在生活史晚期(2008—2016年)与健康年表指数出现生长分离现象,生长速率明显偏低。年表与气候要素响应分析表明刺槐生长衰退年表对气候要素响应敏感性要低于刺槐生长健康年表,但是两者均含有干旱胁迫气候信号,主要体现在与温度呈负相关关系,与降雨和干旱指数的正相关关系。年表与极端气候年份的时序叠加分析表明,生长健康和衰退年表对极端干旱年份响应敏感性均较高,表明极端干旱胁迫条件对刺槐生长健康和衰退个体均有抑制性影响;生长健康年表对极端湿润年份响应敏感性明显高于衰退年表,表明刺槐健康个体比衰退个体更能有效利用湿润年份有利条件,而具有较高的生长速率。研究揭示出黄土高原健康和衰退刺槐个体生长趋势变化及对气候响应敏感性均存在明显差异性,将为气候变化背景下人工刺槐林生长衰退和死亡预测模型建立提供科学依据,因而对黄土高原人工刺槐林生态恢复和保护及可持续经营具有科学价值。

Species composition and influencing factors of understory woody species in Robinia pseudoacacia plantations on the Loess Plateau

Black locust(Robinia pseudoacacia L.)plantations have contributed significantly to soil and water conservation and ecological reconstruction on China’s Loess Plateau.Understanding the impact of stand and environment on species composition of understory woody plants will improve the stability of existing black locust plantations.Ten stands were selected in second-generation black locust plantations in tableland and gully areas of the Loess Plateau.The number of understory tree species in the tablelands was significantly lower than in the gully stands.Regenerated black locust(19.76%)and Rubus corchorifolius L.f.(64.85%)were the most abundant understory tree and shrub species,respectively,in the tableland stands;Broussonetia papyrifera(L.)L’Hér.ex Vent.(6.77%)and Acanthopanax senticosus(Rupr.Maxim.)Harms.(37.22%)were most abundant in the gully stands.Species richness(S),Shannon diversity(H),and evenness index(J)of the understory plants were significantly lower in the tableland stands than in the gully stands.More diverse understory species and community structures occurred in the gully stands.Differences in species diversity among landform positions may be attributed to differences in soil moisture.In addition,77.57%of the variation in understory species composition was explained,among which shrub and herb coverage,stand age,leaf area index,slope and total soil phosphorus in the 10-20 cm layer were the main factors.Soil organic carbon and total potassium significantly impacted S,H and J.Considering the environmental conditions and the biological characteristics of the plants investigated,R.corchorifolius should be given priority in the development of tableland stands,while B.papyrifera and Celtis sinensis Pers.should form mixed forests with black locust in gully stands.This management could promote biodiversity and stability of the existing black locust plantations but also optimize regional landscape patterns.

黄土高原刺槐人工林立地指数变化及评价

【目的】在黄土高原研究刺槐人工林优势木平均高及立地指数(基准林龄15年时优势木平均高)对气候和立地因子的响应,建立模型评价立地质量。【方法】对样地调查及文献搜集数据,用外包线法确定优势木平均高的单因子响应规律和适宜函数形式,然后建立多因子耦合模型并用实测数据率定,籍此评价立地指数空间差异。【结果】地形部位对优势木平均高的影响差异较大,相对得分表现为沟底1.000>塬面0.906>梁坡下部0.837>梁坡中部0.438>沟坡0.210>梁坡上部0.176>梁峁顶0.000。当年均降水量小于550 mm时,优势木平均高随年均降水量升高快速增加,之后渐趋平缓;优势木平均高随年均气温升高呈先增后减,最适范围是7.5~11.0℃。建立了耦合气候和立地因子影响的优势木平均高模型,拟合度较好(R^(2)=0.72)。依据对优势木平均高的影响,将年均气温和降水量都分为4级(<6.0℃,太冷,不能生长;6.0~7.5℃,冷,不宜或较宜生长;7.5~11.0℃,温,最宜生长;>11.0℃,暖,较宜或不宜生长。<400 mm,太旱,不能生长;400~450 mm,旱,不宜生长;450~550 mm,润,较宜生长;>550 mm,湿,最宜生长),据此确定了黄土高原不能刺槐造林的区域,提出了可刺槐造林区域的气候分区,其中温湿区、温润区、暖湿区和温旱区的平均立地指数均为中等或以上(>7.5 m),宜于刺槐生长;但冷旱/润区和暖润区立地较差,整体不宜刺槐生长。对各气候分区,计算了各立地类型(地形部位与坡向的组合)的立地指数,评价了立地质量。【结论】黄土高原刺槐人工林的立地指数同时受气候和立地因子影响。综合考虑这些影响的气候分区和立地评价可以指导精细的刺槐造林立地选择和林分科学经营。

黄土高原草地和刺槐根际AM真菌对刺槐和侧柏生长、土壤性质及叶片光合特性的影响

为揭示黄土高原刺槐造林引起的丛枝菌根(Arbuscular Mycorrhizal,AM)真菌群落变异与其功能间的相关机制,以采自陕西省长武县王东沟流域的草地土壤(简称草地菌剂)和35 a生刺槐(Robinia pseudoacacia)根际土壤(简称刺槐菌剂)作为菌剂,在盆栽条件下研究不同接种处理(刺槐菌剂:CH;草地菌剂:GL;不接菌剂的对照:Non)下刺槐和侧柏(Platycladus orientalis)植株生长状况、菌根侵染率、土壤酶的活性、微生物量C、微生物量N、总球囊霉素及易提取球囊霉素的含量、叶绿素相对含量、光合气体交换参数及叶绿素荧光参数。研究结果表明:①与对照植株相比,GL对刺槐植株生长无显著影响,而对侧柏植株生长具有显著促进作用;CH显著降低了刺槐植株的生长,而对侧柏植株则具有显著促生作用。②GL处理下刺槐根系丛枝侵染率较高;CH处理下侧柏根系丛枝侵染率较高。③GL增加了刺槐根际微生物量N以及侧柏根际过氧化氢酶和蔗糖酶的活性;CH增加了刺槐根际微生物量N和过氧化氢酶的活性以及侧柏根际微生物量C和球囊霉素的含量。④GL提高了侧柏叶片净光合速率、气孔导度和F_(v)/F_(m),降低了胞间CO_(2)浓度;CH增加了刺槐叶片叶绿素相对含量、净光合速率、蒸腾速率、F_(v)/F_(m)、ΦPSII和ETR。⑤GL和CH的侵染力及其对土壤酶的活性、微生物量和叶片光合特性的影响与其对刺槐和侧柏植株生长状况的影响密切相关,其中叶光合特性的变化对植株生长变化的贡献最大。综上,草地和刺槐根际AM真菌群落存在差异以致其对不同宿主植物的促生功能发生了改变;故在黄土高原造林及刺槐纯林改造中,切实做到“适地-适菌-适树”是最大限度发挥AM真菌促生功能的关键。

黄土高原南北样带尺度人工刺槐林对气候响应的敏感性分析

根据黄土高原南北样带尺度的人工刺槐林(Robinia pseudoacacia)的年轮宽度资料,分析了该地区刺槐树木生长趋势,以及刺槐年表对气候响应随降雨梯度变化规律。研究结果表明延安以北的刺槐样点(绥德、神木)年轮指数近期趋于下降,树木有生长衰退现象;而延安以南刺槐样点(延安、富县、宜君、永寿)年轮指数近期趋于上升,树木无生长衰退现象。气候响应结果表明,刺槐年表对气候响应均以延安样点最为敏感,表现年表与温度的负相关关系,以及年表与降雨和干旱指数的正相关关系,而延安以北和以南刺槐样点对气候响应敏感性均较低。黄土高原中部延安地区地处森林草原过渡带,刺槐生长对外界环境变化最为敏感,年表中气候信号也较强;延安以南地区地处森林植被带,气候条件较为适宜刺槐林生长,因而年表中气候信号较弱;延安以北地区地处草原植被带,气候条件比较恶劣,刺槐生长对干旱气候已有一定适应性特征,因而年表中气候信号也较弱。

杨树刺槐混交林沙地土壤的水分-物理性质

研究了刺槐与杨树混交林后沙地土壤水分 物理性质变化的状况 .结果表明 ,刺槐与杨树混交后 ,土壤水分 物理性质得到了改善 ,表现在土壤最大持水量增加 ,毛管持水量、田间持水量得以提高 ,土壤有效持水量也有了较大幅度的提高 .刺槐与杨树混交后土壤总孔隙度、非毛管孔隙度、毛管孔隙度得到提高 ,并由此而改善了混交林土壤的渗透性能 .表 4参

黄土高原刺槐人工林地表凋落物对土壤呼吸的贡献

于黄土高原沟壑区王东沟小流域26年刺槐人工林(Robinia pseudoacacia)中,设置对照(CK)、去除凋落物(no litter,NL)和倍增凋落物(double litter,DL)3个处理,利用Li-8100系统测定各处理的土壤呼吸速率。结果表明,添加或去除凋落物显著影响土壤呼吸(P=0.091-0.099),与对照(CK)的土壤呼吸速率(3.23μmol m-2s-1)相比,添加凋落物(DL)使土壤呼吸速率增加26%,去除凋落物(NL)使土壤呼吸速率减少22%。NL、CK和DL的累积土壤呼吸分别为631、787和973 g C m-2a-1。各处理土壤呼吸速率与土壤温度呈显著的指数关系(R2=0.81-0.90,P<0.0001),但与土壤水分的关系不明显。NL、CK和DL的Q10依次为1.92、2.29和2.31。地表凋落物对土壤呼吸年平均贡献量为20%。相关性分析表明,各测定日地表凋落物贡献与土壤温度(r=0.54,P<0.05)或土壤水分关系显著(r=0.68,P<0.05)。刺槐人工林地表凋落物的输入量为213 g C m-2a-1,大于凋落物引起的呼吸量156 g C m-2a-1。在黄土区通过植被恢复治理水土流失过程中,随着地表凋落物的积累,林地生态系统的碳汇功能将逐步得到加强。

杨树刺槐混交林及纯林土壤酶活性的季节性动态研究

测定了 2 2年生杨树、刺槐混交林及纯林根际和非根际土壤中与氮、磷养分转化相关的酶活性的季节性动态变化 .结果表明 ,混交后非根际土壤的脲酶、蛋白酶、磷酸酶活性比纯林提高 5 0 %～ 10 0 % ;但对于根际土壤 ,混交后杨树有所提高 ,而刺槐则有所下降 .说明混交后更有利于氮、磷养分的转化 。

黄土丘陵区两种主要退耕还林树种生态系统碳储量和固碳潜力

黄土丘陵区是中华文明的起源地,而原有植被却遭受严重破坏。因此,自20世纪70年代末开始的三北防护林工程、退耕还林工程和天然林保护工程等大型生态恢复工程,在本区均有大面积分布。这些工程已经对生态恢复起到重要作用,并将对全球碳素循环起到积极作用。以黄土丘陵区的主要造林树种——油松(Pinus tabulaeformis Carr.)和刺槐(Robinia pseudoacacia L.)为研究对象,共设置样方28个,测定森林乔木、灌木、草本生物量及凋落物碳储量;钻取并分析土样516份,获得土壤有机碳储量。结合文献数据和农田碳储量数据,建立0—86年生油松林和0—56年生刺槐纯林生态系统碳储量-林龄序列;在此基础上分析造林对生态系统碳储量和固碳潜力的影响。结果表明,造林后的油松林和刺槐林生态系统的植被、凋落物及土壤碳储量逐渐增加;在没有人为干扰的情况下,19、27、36、86年生油松林生态系统碳储量分别为70.76、143.43、167.30、271.23—332.26Mg/hm2;8、17、39年生刺槐林生态系统碳储量分别为80.37、94.08、140.77 Mg/hm2。受间伐干扰、45、52年生油松林生态系统碳储量分别为136.42、168.56 Mg/hm2,相对于没有人为干扰的油松林,其植被碳储量明显下降,而土壤碳储量保持稳定甚至升高。受乱砍滥伐干扰的71年生油松林和56年生刺槐林的生态系统碳储量分别为118.87、76.99 Mg/hm2,相对于没有人为干扰的森林,其植被碳储量和土壤碳储量均呈明显下降趋势。种植油松林之后的86a时间内,其生态系统固碳潜力为211.61—272.64 Mg/hm2;而种植刺槐林、在39a时间内的生态系统固碳潜力为81.15 Mg/hm2。