Assessment of metal contamination in surface sediments of Jiaozhou Bay, Qingdao, China

An assessment of metal contamination in surface sediments of the Jiaozhou Bay, Qingdao, one of the rapidly developing coastal economic zones in China, is provided. Sediments were collected from 10 stations and a total of 15 heavy metals were analyzed. Concentrations of metals show significant variability and range from 210 to 620 ppm for Ti, 2.7 to 23 ppm for Ni, 4.2 to 28 ppm for Cu, 5.2 to 18 ppm for Pb, 12 to 58 ppm for Zn, 0.03 to 0.11 ppm for Cd, 5 to 51 ppm for Cr, 1.5 to 9.9 ppm for Co, 5.3 to 19 ppm for As, 12 to 32 ppm for Se, and 19 to 97 ppm for Sr. Based on concentration relationships and enrichment factor (EF) analyses, the results indicate that sediment grain size and organic matter played important roles in controlling the distribution of the heavy metals in surface sediments of the Jiaozhou Bay. The study shows that the sediment of the Jiaozhou Bay has been contaminated by heavy metals to various degrees, with prominent arsenic contributing the most to the contamination. The analysis suggests that the major sources of metal contamination in the Jiaozhou Bay are land-based anthropogenic ones, such as discharge of industrial waste water and municipal sewage and run-off. Notably, the elevated heavy metal concentrations of the Jiaozhou Bay sediments could have a significant impact on the bay's ecosystem. With the rapid economic development and urbanization around the Jiaozhou Bay, coastal management and pollution control should focus on these contaminant sources, as well as provide ongoing monitoring studies of heavy metal contamination within the bay.

Food sources of three bivalves living in two habitats of Jiaozhou Bay (Qingdao, China): Indicated by lipid biomarkers and stable isotope analysis

Food Sources of three filter-feeding bivalves from two habitats (intertidal oyster Crassostrea gigas, mussel Mytilus galloprovincialis. and subtidal cultured scallop Chlamys farreri) of Jiaozhou Bay (Qingdao,China) were determined by fatty acid and stable isotope in analysis. Cultured scallop was characterized by significant diatom markets such as 16:1/16:0 close to 1 and high ratio of 20:5(n - 3)/22:6(n - 3), hence we assume that the scallop mainly feeds on diatoms. Fatty acid biomarkers specific to bacteria and terrestrial materials were also found in considerable amounts in scallop tissue, which suggested that there were Substantial bacterial and terrestrial input into the food of the species. Intertidal oyster and mussel, however, exhibited significant flagellate marker. 22:6(n - 3). and lower level of diatom markers. which indicated that flagellates are also part of intertidal bivalves' Planktonic food Sources: meanwhile, high level of Chlorophyta fatty acid marker, Sigma 18:2(n - 6) + 18:3(n - 3), suggested that Ulva pertusa (Chlorophyta) seaweed bed supplied important food sources to intertidal bivalves. Additionally, result of stable isotope analysis showed that phytoplankton contributed 86.2 to 89.0% to intertidal bivalves' carbon budget; macroalga U. pertusa origin source had a contribution of MIX, to 11.0%, which indicated its role Lis in important supplemental food source to intertidal bivalves. From this study. it is concluded that the dietary difference of three bivalves probably relates to the different potential food sources in the scallop farm and intertidal zone in Jiaozhou Bay.

Spatial and temporal relationships between precipitation and ANPP of four types of grasslands in northern China

Precipitation is considered to be the primary resource limiting terrestrial biological activity in water-limited regions. Its overriding effect on the production of grassland is complex. In this paper, field data of 48 sites (including temperate meadow steppe,temperate steppe, temperate desert steppe and alpine meadow) were gathered from 31 published papers and monographs to analyze the relationship between above-ground net primary productivity (ANPP) and precipitation by the method of regression analysis. The results indicated that there was a great difference between spatial pattern and temporal pattern by which precipitation influenced grassland ANPP. Mean annual precipitation (MAP) was the main factor determining spatial distribution of grassland ANPP (r~2 = 0.61,P ＜ 0.01); while temporally, no significant relationship was found between the variance of AN PP and inter-annual precipitation for the four types of grassland. However, after dividing annual precipitation into monthly value and taking time lag effect into account, the study found significant relationships between ANPP and precipitation. For the temperate meadow steppe, the key variable determining inter-annual change of ANPP was last August-May precipitation (r~2= 0.47, P = 0.01); for the temperate steppe, the key variable was July precipitation (r~2 = 0.36, P = 0.02); for the temperate desert steppe, the key variable was April-June precipitation (r~2 = 0.51, P ＜0.01); for the alpine meadow, the key variable was last September-May precipitation (r~2 = 0.29, P ＜ 0.05). In comparison with analogous research, the study demonstrated that the key factor determining inter-annual changes of grassland ANPP was the cumulative precipitation in certain periods of that year or the previous year.

Effect of N fertilizer on the productivity and nutritive values of perennial grass mixtures in the alpine region of Qinghai-Tibetan Plateau, China

A study was conducted on grass mixtures that included smooth bromegrass (SB) + drooping wild ryegrass (DW), smooth bromegrass + Siberian wild ryegrass (SW) + crested wheatgrass (CW) and smooth bromegrass + Siberian wild ryegrass + drooping wild ryegrass + crested wheatgrass in the alpine region of Qinghai-Tibetan Plateau. The study was conducted from 1998 to 2000 to investigate the effects of N application rates and growing year on herbage dry matter (DM) yield and nutritive values. Herbage DM production increased linearly with N application rates. The effect of N application on DM yields was greater (P < 0.05) in the 2nd and 3rd production years than in the establishment year. Dry matter yields of SB + SW + CW and SB + SW + DW + CW can reach as high as 15 000 kg ha(-1) at 345 kg ha(-1) N rate in the 3rd growing year. With increased N application rates, crude protein (CP) contents and 48 h in sacco DM degradability of grasses increased (P < 0.05). No effect (P > 0.05) of N application was detected on organic matter (OM) and acid detergent fibre (ADF) concentration. It can be concluded that for increased biomass production in the alpine region of the Qinghai-Tibetan Plateau, a minimum of 345 kg N ha(-1) should be applied to grass stands in three split application of 115 kg N ha(-1), in early June, early July and late July

辽东次生林土壤呼吸及主要组分分离与量化

土壤呼吸是森林生态系统碳循环的重要组成部分，对土壤呼吸的主要组分根系呼吸和土壤微生物呼吸进行分离并量化，对于了解土壤碳释放规律、估算生态系统土壤碳的年际通量以及预测气候变化条件下根系或土壤微生物对土壤碳释放格局的影响具有重要意义。本文采用挖壕法测定辽东山区蒙古栎林、杂木林和胡桃楸林的土壤表面CO2通量，并同步分析土壤水热因子及土壤有机质、N含量、根系生物量、土壤酶活性、土壤微生物生物量等。研究结果表明：（1）辽东山区次生林0-10cm土壤有机质含量为9.29-18.15%，全氮含量为0.43-0.90%，pH值为5.67-6.19；次生林生长季细根生物量平均为152.61- 447.79 g/m2，粗根生物量平均为255.42-507.42 g/m2，根系总量平均为540.93-955.22 g/m2；土壤酶活性季节变化明显，且具垂直分布特征，蒙古栎林的土壤转化酶、淀粉酶和脱氢酶活性最高，胡桃楸林最低，胡桃楸林过氧化氢酶活性相对最大；土壤微生物量碳、氮的季节变化呈明显的单峰曲线并与土壤温度相关，土壤微生物量碳氮之间具显著相关性（P<0.05）。（2）次生林土壤总呼吸、根呼吸和土壤微生物呼吸具明显的日、季变化规律，生长季根呼吸贡献相对较低，胡桃楸林根呼吸贡献率为34.0-34.8%，蒙古栎林为17.9-28.4%，杂木林为14.7-35.3%；土壤微生物呼吸贡献率为66.0-85.3%，高于根呼吸贡献率，说明辽东山区次生林土壤微生物呼吸决定土壤总呼吸的变化趋势。（3）土壤呼吸与地下5cm土壤温度呈指数函数关系，土壤总呼吸的Q10值为1.29-2.30，微生物呼吸的Q10值为1.28-2.09，根呼吸的Q10值为1.29-3.72；土壤总呼吸、微生物呼吸、根呼吸与土壤含水量均无明显相关关系；蒙古栎林根呼吸与细根生物量显著相关，杂木林根呼吸与粗根生物量及根系总生物量显著相关，胡桃楸林根呼吸与根系生物量总量显著相关（P<0.05）；微生物呼吸与淀粉酶、转化酶、脱氢酶、过氧化氢酶均无显著相关性（除胡桃楸林与过氧化氢酶显著相关）；微生物呼吸与土壤微生物量碳、氮均呈显著线性相关关系（P<0.05）。（4）蒙古栎林土壤总呼吸、根呼吸、土壤微生物呼吸年际碳释放量分别为572.78、147.78和425.59 g C m-2a-1，杂木林分别为403.12、108.92、297.51 g C m-2a-1，胡桃楸林分别为519.47、173.75、345.72 g C m-2a-1；生长季和非生长季通过根呼吸释放的碳量均小于分解土壤有机质的微生物呼吸释放的碳量，非生长季次生林土壤碳释放量为39.21-152.04 g C m-2a-1，占全年呼吸总量的10-29%，说明冬季土壤碳释放量不能忽略。

辽东山区次生林林窗环境因子动态

林窗是森林生态系统中的一种特殊结构，影响着整个森林生态系统的结构、物种组成、演替及生态系统功能。我国现有森林资源以次生林为主体，而林窗是森林演替的重要环节，因此通过次生林林窗特征及其内部环境因子动态研究，能够明确林窗在次生林演替中的重要作用。本论文以辽东山区次生林为对象，选取人工砍伐形成的三个不同大小的林窗，林窗按照面积大小分三个梯度来选取，从大到小分别为大林窗,中林窗和小林窗。通过野外调查、观测，较系统的研究了三个不同大小林窗的环境因子变化以及植物多样性与环境因子的相关关系。旨在明确林窗内各环境要素的变化规律及不同大小林窗间的差异，为东北山区的次生林管理经营与管理提供参考。 对林窗内环境因子（光量子通量密度、温度、空气湿度和土壤水分）、土壤氮素有效性以及植物多样性分析结果表明：（1）光量子通量密度日变化趋势均为单峰型，到达峰值的时间均在中午以前，且峰值出现的位置均在林窗中心偏北部。光量子通量密度在生长季开始时强度较大，而在生长旺季强度偏小；面积较大的林窗中心光量子通量密度没有显著差异，但林窗边缘与林内差异显著（P<0.05）。（2）空气温度日变化趋势为单峰型，非生长季面积小的林窗其温度高于面积大的林窗，生长季则面积大的林窗温度较高；林窗内南部的湿度高于林窗北部，而温度则为林窗北部高于林窗南部。（3）土壤水分在两个深度层次间无显著差异，但在雨季的土壤含水量明显高于其它月份；林窗内部不同位置，面积较大的林窗内部各点差异不显著，但面积小的林窗其中心与林窗内部各点差异显著（p<0.05）；土壤温度日变化与气温的变化一致，但其变幅较小，这可能与土壤和大气间的热量传递有关。（4）林窗内土壤硝态氮含量存在着明显的季节性，林内与林窗中心及林窗边缘差异显著，且面积较大的林窗硝态氮含量高于面积较小的林窗；面积较小林窗的氨态氮含量较高。矿化速率变化与硝态氮的变化一致。（5）各林窗内植物多样性在中林窗和小林窗边缘范围内都存在着物种多样性增加的趋势，而大林窗并未表现明显的物种多样性增加的趋势；环境因子与物种多样性指数在各林窗中均无显著的相关性。

辽东山区次生林生态系统主要林型土壤磷素特征

磷是植物生长发育所必需的营养元素之一，由于磷在土壤中的难溶性和难移动性，使得磷在陆地生态系统的循环越来越受到重视，尤其是在明确土壤磷素存在形态和分布特征的基础上，探讨土壤磷素与土地利用方式以及植被生长发育状况之间的关系，对于指导土地利用和恢复植被建设具有重要意义。本研究以辽东山区天然次生林主要林型胡桃楸林、杂木林（由蒙古栎、花曲柳和山杨等树种组成）和蒙古栎林为主要研究对象，系统研究了辽东山区天然次生林土壤磷素的分布特征，并比较研究了落叶松人工林取代天然次生林后土壤磷素的变化特征。主要结论如下： 1. 辽东山区天然次生林土壤磷素特征：（1）次生林0-30 cm土壤全磷含量的变化范围为326.5 mg kg-1-984.9 mg kg-1，土壤总有机磷含量、总无机磷含量、Olsen-P含量和土壤微生物量磷含量占全磷含量的比例变化范围分别为47%-76%、24%-53%、1.23%-1.40%和2.67%-3.45%，土壤全磷与土壤有机碳、全氮之间呈显著正相关，说明次生林土壤有机质含量是影响土壤磷素含量的主要因素之一；土壤Olsen-P和微生物量磷季节变化明显，均表现为夏季最高，且土壤Olsen-P和微生物量磷的季节变化规律不受植被类型的影响；另外，土壤Olsen-P、土壤微生物量磷的季节变化均与土壤含水量相关。（2）三个林型土壤酸性磷酸酶与土壤有机碳、全氮、全磷、Olsen-P和微生物量磷之间存在密切的相关性，酸性磷酸酶可以作为评价次生林土壤磷素状况的一个指标。（3）不同林型土壤各形态无机磷分布不同，胡桃楸林以Fe-P（铁结合的磷酸盐）和Ca-P（钙结合的磷酸盐）为主，杂木林和蒙古栎林以O-P（闭蓄态磷）为主；不同林型土壤各形态无机磷随季节的变化规律不同，与Olsen-P的关系也不同，胡桃楸林土壤Olsen-P与Al-P（铝结合的磷酸盐）之间具有显著的相关性，杂木林土壤Olsen-P与Fe-P和Ca-P之间相关性显著，蒙古栎林土壤Olsen-P与Ca-P之间显著相关，说明辽东山区不同林型土壤磷素的有效来源不同。（4）辽东山区有机磷各形态的分布特征为：中等活性有机磷 > 中等稳定性有机磷 > 高稳定性有机磷 > 活性有机磷；土壤活性有机磷的季节变化与Olsen-P变化一致，中等活性有机磷、中等稳定性有机磷和高等稳定性有机磷的含量随季节变化无此规律；胡桃楸林、蒙古栎林土壤Olsen-P与活性有机磷、中等稳定性有机磷和高等稳定性有机磷之间显著相关，杂木林土壤Olsen-P与活性有机磷、中等活性有机磷、中等稳定性有机磷和高等稳定性有机磷之间相关性显著，说明在本研究区土壤有机磷对磷素有效性的贡献较大。（5）三个林型内主要树种叶片磷含量均较高，且叶片N/P < 10，土壤磷素不是辽东山区次生林植被生长的限制性养分因子。 2. 落叶松人工林取代天然次生林后土壤磷素特征的变化：（1）和天然次生林相比，落叶松人工林土壤全磷、总有机磷、Olsen-P、土壤微生物量磷和磷酸酶活性均显著降低（P<0.05），土壤总无机磷含量无明显变化，这说明次生林转变为落叶松人工林后土壤磷素状况下降。（2）随着次生林转变为落叶松人工林和落叶松人工林连栽后，土壤无机磷各形态含量变化显著，土壤Fe-P和Ca-P含量逐渐降低，O-P含量升高，土壤Olsen-P与无机磷形态中的Fe-P和Ca-P之间显著正相关，表明了Fe-P和Ca-P是Olsen-P的主要无机磷来源。（3）落叶松人工林取代次生林后，土壤活性有机磷、中等活性有机磷、中等稳定性有机磷和高等稳定性有机磷含量均降低，土壤Olsen-P与活性有机磷显著正相关，活性有机磷是补充Olsen-P的直接有机磷源；土壤微生物量磷与各有机磷组分及 Olsen-P含量之间均呈显著正相关，这说明微生物量磷在有机磷转化中起着重要作用。