为探明荒漠植物沙柳(Salix psammophila)根围AM真菌时空异质性,2009年5月、8月和10月分别从内蒙古荒漠植物沙柳根围分0~10,11~20,21~30,31~40和41~50 cm 5个土层采集土壤样品,研究了AM真菌时空分布及与土壤因子的相关性.结果表明,沙...为探明荒漠植物沙柳(Salix psammophila)根围AM真菌时空异质性,2009年5月、8月和10月分别从内蒙古荒漠植物沙柳根围分0~10,11~20,21~30,31~40和41~50 cm 5个土层采集土壤样品,研究了AM真菌时空分布及与土壤因子的相关性.结果表明,沙柳根围AM真菌平均孢子密度为282个/100g,平均总定殖率0.642;从土壤中共分离AM真菌3属20种,其中球囊霉属(Glomus)15种、无梗囊霉属(Acaulospora)4种、盾巨孢囊霉属(Scutellospora)1种.AM真菌孢子密度、菌丝定殖率和丛枝定殖率随时间变化先升后降,最大值出现在8月;泡囊定殖率随时间变化先降后升,最大值出现在10月;随土壤深度增加,孢子密度和定殖率下降,最大孢子密度和最高定殖率均出现在10月份0~10 cm土层.孢子密度与土壤温度、pH极显著正相关,与土壤速效P极显著负相关;泡囊定殖率与土壤碱解N显著正相关;丛枝定殖率与土壤温度、湿度和pH极显著正相关,与土壤碱解N极显著负相关;菌丝定殖率与易提取球囊霉素极显著正相关.总球囊霉素和易提取球囊霉素与土壤碱解N和有机C极显著正相关.球囊霉素含量的动态变化能够综合反映土壤AM真菌分布和活动、有机C动态和养分循环进程,应作为荒漠土壤质量和功能评价的新指标进一步深入研究.展开更多
Response pattern was investigated for seedlings of Salix psammophila, a dominant shrub in Maowusu sandland, to the simulated precipitation change by artificially controlling water supply at four levels. The growth cha...Response pattern was investigated for seedlings of Salix psammophila, a dominant shrub in Maowusu sandland, to the simulated precipitation change by artificially controlling water supply at four levels. The growth characters, in terms of plant height, stem diameter, total branch number, total leaf number and area, total bifurcation ratio, total branch length and branch number, branch length, leaf number and leaf area of each branch order, and leaf, branch and root biomass significantly increased when water supply increased. That water supply had significant effect on biomass allocation showed different investment pattern of biomass resource of the seedlings grown under different water supply treatments. Stomatal density of abaxial leaf surface decreased, and stomatal apparatus length and width of adaxial and abaxial leaf surface increased with the increase of water supply, while Stomatal density of adaxial leaf surface was not affected by water supply. Water supply obviously affected the diurnal changes of photosynthetic rate, and the photosynthetic rate of the seedlings showed strongly midday depression grown under the 157 5 mm water supply, but not grown under higher water supply. Additionally the assimilation light response curves and fluorescence efficiency more showed that water supply improve photosynthesis capacity. Finally, S.psammophila seedlings stood out by their slow growth and relatively high investments in root growth in order to reduce tissue losing rate and consumption of water resource for keeping water balance under water stress. The seedlings that grown under rich water supply did by their fast growth and relatively high investments in branch and leaf growth in order to improve the power of capturing light energy for higher photosynthesis.展开更多
The liquefied product of Salix psammophila wood was separated by thin-layer chromatography (TLC) and column chro-matography, and its structure was identified by nuclear magnetic resonance (NMR) spectra in our study. T...The liquefied product of Salix psammophila wood was separated by thin-layer chromatography (TLC) and column chro-matography, and its structure was identified by nuclear magnetic resonance (NMR) spectra in our study. The separation result indi-cates that the sample of liquefied S. psammophila contained at least two categories of components. The structure of the main compo-nents was guaiacyl C-1, C-2 of the hydroxyphenyl propane, i.e., the aromatic nucleus protons of lignin. Degradation and polycon-densation reactions occurred when the S. psammophila wood was liquefied in phenol. Polycondensation reactions occurred among the depolymerization products from cellulose, the aromatic depolymerization products from lignin and the products of the displace-ment reactions between phenoxide ion and cellulose.展开更多
In order to extend the investigation of the characteristics of desert shrub liquefaction and the structure of liquefied desert shrubs, we studied the liquefaction of Salix psammophila and Caragana intermedia in the pr...In order to extend the investigation of the characteristics of desert shrub liquefaction and the structure of liquefied desert shrubs, we studied the liquefaction of Salix psammophila and Caragana intermedia in the presence of phenol and used FTIR analysis on unliquefied and liquefied S. psammophila and C. intermedia. The results showed that the liquefaction effects are enhanced with an increase in temperature, catalyst content and liquid ratio. FTIR analysis proved that more active functional groups appeared after S. psammophila and C. intermedia were liquefied in the presence of phenol. These results can provide a theoretical basis for the further utilization of liquefied S. psammophila and C. intermedia and the development of desert shrubs in a new utilization field.展开更多
As a metal immobilizer,biochar can be used to remediate contaminated soil.Biochar’s effect on the phytoremediation process in flooded conditions under a scenario of increasing flooding frequency as global climate cha...As a metal immobilizer,biochar can be used to remediate contaminated soil.Biochar’s effect on the phytoremediation process in flooded conditions under a scenario of increasing flooding frequency as global climate change is not well understood.This study investigated bamboo biochar(BBC)effects on growth and metal accumulation of Salix in multi-metal contaminated soil under non-flooded versus flooded conditions.Salix cuttings were cultivated in pots with severely contaminated soil by Cd and Zn,for 120 days,with four treatments including non-flooded treatment,flooded treatment,non-flooded with 3%BBC application(BBC/soil,w/w),and flooded with 3%BBC addition.BBC,flooding,and BBC×flooding significantly decreased the bioavailability of metals in soils(P<0.05).The BBC addition markedly stimulated Cd concentration in leaves under non-flooded(94.20%)and flooded conditions(32.73%)but showed little effect on roots.The BBC significantly boosted Cd and Zn transport from roots to aboveground parts by 68.85%and 102.27%compared with no BBC amendment under non-flooded treatment,while showing insignificant changes under flooded treatment.Although the plant biomass was little affected,BBC significantly increased Cd and Zn accumulation in the whole plant by 52.53%and 28.52%under non-flooded while showing an insignificant impact under flooded conditions.Taken together,BBC enhanced the phytoremediation efficiency of Salix to Cd and Zn in severely polluted non-flooded soil,while flooding offset this effect.The results indicated the effects of BBC varied under different soil moisture,which should be considered in the biochar-assisted phytoremediation to variable and complex environments.展开更多
文摘为探明荒漠植物沙柳(Salix psammophila)根围AM真菌时空异质性,2009年5月、8月和10月分别从内蒙古荒漠植物沙柳根围分0~10,11~20,21~30,31~40和41~50 cm 5个土层采集土壤样品,研究了AM真菌时空分布及与土壤因子的相关性.结果表明,沙柳根围AM真菌平均孢子密度为282个/100g,平均总定殖率0.642;从土壤中共分离AM真菌3属20种,其中球囊霉属(Glomus)15种、无梗囊霉属(Acaulospora)4种、盾巨孢囊霉属(Scutellospora)1种.AM真菌孢子密度、菌丝定殖率和丛枝定殖率随时间变化先升后降,最大值出现在8月;泡囊定殖率随时间变化先降后升,最大值出现在10月;随土壤深度增加,孢子密度和定殖率下降,最大孢子密度和最高定殖率均出现在10月份0~10 cm土层.孢子密度与土壤温度、pH极显著正相关,与土壤速效P极显著负相关;泡囊定殖率与土壤碱解N显著正相关;丛枝定殖率与土壤温度、湿度和pH极显著正相关,与土壤碱解N极显著负相关;菌丝定殖率与易提取球囊霉素极显著正相关.总球囊霉素和易提取球囊霉素与土壤碱解N和有机C极显著正相关.球囊霉素含量的动态变化能够综合反映土壤AM真菌分布和活动、有机C动态和养分循环进程,应作为荒漠土壤质量和功能评价的新指标进一步深入研究.
文摘Response pattern was investigated for seedlings of Salix psammophila, a dominant shrub in Maowusu sandland, to the simulated precipitation change by artificially controlling water supply at four levels. The growth characters, in terms of plant height, stem diameter, total branch number, total leaf number and area, total bifurcation ratio, total branch length and branch number, branch length, leaf number and leaf area of each branch order, and leaf, branch and root biomass significantly increased when water supply increased. That water supply had significant effect on biomass allocation showed different investment pattern of biomass resource of the seedlings grown under different water supply treatments. Stomatal density of abaxial leaf surface decreased, and stomatal apparatus length and width of adaxial and abaxial leaf surface increased with the increase of water supply, while Stomatal density of adaxial leaf surface was not affected by water supply. Water supply obviously affected the diurnal changes of photosynthetic rate, and the photosynthetic rate of the seedlings showed strongly midday depression grown under the 157 5 mm water supply, but not grown under higher water supply. Additionally the assimilation light response curves and fluorescence efficiency more showed that water supply improve photosynthesis capacity. Finally, S.psammophila seedlings stood out by their slow growth and relatively high investments in root growth in order to reduce tissue losing rate and consumption of water resource for keeping water balance under water stress. The seedlings that grown under rich water supply did by their fast growth and relatively high investments in branch and leaf growth in order to improve the power of capturing light energy for higher photosynthesis.
基金supported by grants 200508010603 and 200711020504 from the key pro-ject of the Natural Science Foundation of the InnerMongolia Autonomous Region
文摘The liquefied product of Salix psammophila wood was separated by thin-layer chromatography (TLC) and column chro-matography, and its structure was identified by nuclear magnetic resonance (NMR) spectra in our study. The separation result indi-cates that the sample of liquefied S. psammophila contained at least two categories of components. The structure of the main compo-nents was guaiacyl C-1, C-2 of the hydroxyphenyl propane, i.e., the aromatic nucleus protons of lignin. Degradation and polycon-densation reactions occurred when the S. psammophila wood was liquefied in phenol. Polycondensation reactions occurred among the depolymerization products from cellulose, the aromatic depolymerization products from lignin and the products of the displace-ment reactions between phenoxide ion and cellulose.
基金This study was financially supported by the Natural Science Foundation of Inner Mongolia(No.200508010603).
文摘In order to extend the investigation of the characteristics of desert shrub liquefaction and the structure of liquefied desert shrubs, we studied the liquefaction of Salix psammophila and Caragana intermedia in the presence of phenol and used FTIR analysis on unliquefied and liquefied S. psammophila and C. intermedia. The results showed that the liquefaction effects are enhanced with an increase in temperature, catalyst content and liquid ratio. FTIR analysis proved that more active functional groups appeared after S. psammophila and C. intermedia were liquefied in the presence of phenol. These results can provide a theoretical basis for the further utilization of liquefied S. psammophila and C. intermedia and the development of desert shrubs in a new utilization field.
基金the National Natural Science Foundation of China(Grant No.32071736)the Fundament Research Funds of Chinese Academy of Forestry(CAFYBB2019SZ001).
文摘As a metal immobilizer,biochar can be used to remediate contaminated soil.Biochar’s effect on the phytoremediation process in flooded conditions under a scenario of increasing flooding frequency as global climate change is not well understood.This study investigated bamboo biochar(BBC)effects on growth and metal accumulation of Salix in multi-metal contaminated soil under non-flooded versus flooded conditions.Salix cuttings were cultivated in pots with severely contaminated soil by Cd and Zn,for 120 days,with four treatments including non-flooded treatment,flooded treatment,non-flooded with 3%BBC application(BBC/soil,w/w),and flooded with 3%BBC addition.BBC,flooding,and BBC×flooding significantly decreased the bioavailability of metals in soils(P<0.05).The BBC addition markedly stimulated Cd concentration in leaves under non-flooded(94.20%)and flooded conditions(32.73%)but showed little effect on roots.The BBC significantly boosted Cd and Zn transport from roots to aboveground parts by 68.85%and 102.27%compared with no BBC amendment under non-flooded treatment,while showing insignificant changes under flooded treatment.Although the plant biomass was little affected,BBC significantly increased Cd and Zn accumulation in the whole plant by 52.53%and 28.52%under non-flooded while showing an insignificant impact under flooded conditions.Taken together,BBC enhanced the phytoremediation efficiency of Salix to Cd and Zn in severely polluted non-flooded soil,while flooding offset this effect.The results indicated the effects of BBC varied under different soil moisture,which should be considered in the biochar-assisted phytoremediation to variable and complex environments.