锌镉超富集植物滇苦菜中碳酸酐酶对镉的响应

A number of higher plants are able to hyperaccumulate cadmium(Cd). However, it is unknown whether cadmium(Cd) plays a biological functional role in the carbonic anhydrase(CA) of hyperaccumulators. A hydroponic experiment was conducted to explore the potentially physiological function of Cd in CA and the accumulation and tolerance of Cd in the Zn/Cd hyperaccumulator Picris divaricata Vant. P. divaricata was exposed to nutrient solutions with six Cd concentrations(0, 5, 10, 25, 50 and 75 μmol L~(-1)). After 12 d, plants were harvested for the analysis of plant biomass, Cd concentration and CA activity. The Cd concentrations in plant increased with the increasing Cd in nutrient solution, reaching 640 and 3 100 mg kg~(-1) in shoot and root, respectively, at the 75 μmol L~(-1) Cd treatment. Meanwhile, plant growth was enhanced by the Cd treatments at 5–25 μmol L~(-1), but it was significantly inhibited when the plants were exposed to solutions with higher Cd concerntrations(50 and 75 μmol L~(-1)). Exposure to Cd significantly increased the CA activity in P. divaricata, which reached a maximum value of 21.27 U mg~(-1) proteins at the 25 μmol L~(-1)Cd treatment, and the CA activity and shoot Cd concentration were positively correlated at solutions Cd of ≤ 25 μmol L~(-1). Moreover, two protein bands appeared on the denatured gel electrophoresis of purified CA, indicating that P. divaricata may have CA isomers with their respective molecular weights at around 60 and 55 k Da, at least one of which is Cd-bound. In addition, trace amounts of Cd in purified CA significantly increased with the supplied Cd concentration in nutrient solution(5–25 μmol L~(-1)). The results suggested that Cd may play a biological role by enhancing the activities and forming the active Cd-specific CA in the hyperaccumulator P. divaricata.     

间作条件下超积累和非超积累植物对重金属镉的积累研究

通过温室盆栽试验,研究了超积累植物龙葵、非超积累植物黑麦草、苋菜分别与玉米间作条件下对重金属Cd的积累特性。结果表明,几种间作作物中地上部生物量最大的是龙葵,其次是苋菜,最小的是黑麦草,其中土壤Cd浓度为1.59 mg/kg时,龙葵地上部生物量分别是苋菜、黑麦草的2.41、10.6倍;土壤Cd浓度为1.92 mg/kg时,龙葵地上部生物量分别是苋菜、黑麦草的2.42、9.06倍,3种富集植物地上部生物量的差异达到显著水平。玉米间作条件下超积累植物龙葵各器官中Cd含量表现为叶茎籽粒根,即地上部大于根部;而苋菜中Cd含量表现为根茎叶,黑麦草中Cd含量表现为根部地上部,即非超积累植物Cd含量为根部大于地上部。土壤中Cd含量为1.59 mg/kg时,龙葵地上部Cd累积量分别为苋菜、黑麦草的28.0、59.9倍;龙葵的富集系数是苋菜、黑麦草的28.2、59.3倍,转运系数分别是苋菜、黑麦草的8.08、55.9倍。土壤中Cd含量为1.92 mg/kg时,龙葵地上部Cd累积量分别为苋菜、黑麦草的30.8、43.5倍;龙葵的富集系数分别是苋菜、黑麦草的29.4、41.4倍,转运系数分别是苋菜、黑麦草的7.98、53.6倍。综上可知,超积累植物龙葵对土壤中Cd的吸收与转运能力远远大于非超积累植物苋菜、黑麦草,龙葵是最理想的与玉米间作的Cd污染土壤修复的植物修复材料。     

重金属污染土壤的植物修复研究Ⅲ.金属富集植物Brassica juncea对锌镉的吸收和积累

采用温室盆栽试验研究了印度芥菜对土壤中锌镉污染的忍耐、积累能力 ,以检验这种植物修复Zn、Cd污染土壤的可能性及其潜力。在加入Zn 5 0 0和 1 0 0 0mgkg- 1 的土壤中 ,印度芥菜生长 66天后 ,叶片中积累Zn的平均浓度分别达 2 80和 662mgkg- 1 ,地上部带走的Zn分别为每盆 2 1 95和 341 2 μg。在加入Cd 2 0 0mgkg- 1 的土壤中生长的印度芥菜 ,叶片中积累Cd浓度为 1 61mgkg- 1 ,地上部带走的Cd为每盆 381 μg。和普通植物相比 ,印度芥菜更能将Zn和Cd从根运输到地上部。Zn 5 0 0mgkg- 1 处理的土壤在种植印度芥菜后其NH4NO3提取的Zn显著高于不种植物的处理 ;土壤添加Cd 2 0 0mgkg- 1 的处理NH4NO3提取的Cd也显著高于不种植物的处理 ,可能的原因是植物根分泌出特殊的分泌物 ,专一性地螯合溶解根系附近的难溶态Zn和Cd,从而提高土壤溶液中的浓度。印度芥菜对Zn、Cd有较强的忍耐和富集能力 ,是Zn、Cd污染土壤修复有潜力的植物。     

Zn accumulation and subcellular distribution in the Zn hyperaccumulator Sedurn alfredii Hance

Zn accumulation and subcellular distribution in leaves of the hyperaccumulating ecotype （HE） and non-hyperaccumulating ecotype （NHE） of Sedum alfredii Hance were studied using radiotracer and gradient centrifugation techniques. Leaf Zn accumulation in the HE of S. alfredii was 18.5-26.7 times greater than that in the NHE when the plants were grown at 1-500μmol Zn L-1. Leaf section uptake of 65Zn was highly dependent on external Zn levels. Greater 65Zn uptake in HE was noted only at external Zn levels 〉 100μmol L-1. Zinc subcellular distribution in the leaves of the two ecotypes of S. alfredii was： cell wall 〉 soluble fraction 〉 cell organelle. However, more Zn was distributed to the leaf cell wall and soluble fractions for HE than for NHE. In the leaf of HE, 91%-94% of the Zn was found in the cell walls and the soluble fraction and only 6%-9% Zn was distributed in the cell organelle fraction. For NHE, about 20%-26% Zn was recovered in the cell organelle fraction. In stems, Zn distribution to the ceil wail fraction was approximately two fold greater in the HE than that in the NHE. For the hyperaccumulating ecotype of S. alfredii, the cell wall and the vacuole played a very important role in Zn tolerance and hyperaccumulation.     

超累积植物油茶中Al的吸收和累积

Oiltea camellia (Camellia oleifera Abel.), an aluminium (Al) hyperaccumulator, grows well on acid soils in tropical or subtropical areas. In this study, the growth of oiltea camellia in response to Al application and the characteristics of Al uptake and accumulation were investigated using laboratory and field experiments. The growth of oiltea camellia seedlings in the nutrient solution tended to be stimulated by addition of Al. Results of the field experiment showed that oiltea camellia accumulated 11000 mg kg-1 Al in leaves within 10 months, and the average rate of Al accumulation in new leaves was about 1100 mg kg-1 month?1; however, the monthly rate varied and was highest in spring and autumn. The results of the laboratory experiment on Al uptake by oiltea camellia seedlings in CaCl2 solutions with various forms of Al showed that large amounts of Al supplied as Al3+ and Al complexes Al-malate (1:1) and Al-F (1:1) were influxed into oiltea camellia roots, whereas Al supplied as Al-citrate (1:1), Al-F (1:6), Al-oxalate (1:3), and Al-oxalate (1:1) complexes exhibited low affnity to oiltea camellia roots. The kinetics of Al3+ cumulative uptake in excised roots and intact plants showed a biphasic pattern, with an initial rapid phase followed by a slow phase. The Al cumulative uptake was una?ected by low temperature, which indicated that Al uptake in oiltea camellia was a passive process. The effcient influx of Al into the roots and the high transport rate in specific seasons were presumed to account for the plentiful Al accumulation in leaves of oiltea camellia.     

尕海湿地植被退化过程中土壤有机碳矿化特征

为了揭示植被退化对湿地土壤碳矿化过程的影响,以甘南尕海4种不同植被退化梯度的湿地(未退化(UD)、轻度退化(LD)、中度退化(MD)及重度退化(HD))为研究对象,采用室内恒温培养和碱液吸收法研究不同土层土壤有机碳(SOC)矿化速率和累积矿化量,结合一级动力学方程,分析土壤半矿化分解时间(T1/2)、有机碳矿化潜势(C0)等参数对植被退化的响应。结果表明:(1)不同植被退化梯度湿地SOC矿化速率在培养期内呈现出基本一致的变化趋势,表现为,培养初期(0~4天)矿化速率快速下降,且数值较高,培养中后期缓慢下降(4~41天)并趋于平稳;各培养温度下,不同植被退化梯度湿地土壤在各土层有机碳矿化速率大小均为UD>LD>MD>HD。(2)在整个培养期间,各植被退化梯度湿地土壤有机碳矿化速率均随土层加深而降低,表层0-10 cm的矿化速率(1.14~16.23 mg/(g·d))均显著高于10-20 cm(1.05~2.85mg/(g·d))和20-40 cm土层(0.94~1.26 mg/(g·d))。(3)4种植被退化梯度湿地在不同温度下的土壤有机碳累积矿化量均值排序为5°C(34.54 mg/g)<15°C(46.67 mg/g)<25°C(58.28 mg/g)<35°C(86.46 mg/g)。(4)一级动力学方程的C0值随植被退化程度增加呈递减趋势,而C0/SOC随着温度的升高而降低。因此,植被退化能显著降低高寒湿地土壤有机碳矿化速率,而气候变暖能够显著增加湿地土壤有机碳矿化量。     

土壤侵蚀/水土保持与气候变化的耦合关系

通过综述土壤侵蚀对碳循环的影响、全球气候变化对土壤侵蚀的影响以及水土保持植被恢复对碳循环与土壤碳素积累的影响,研究土壤侵蚀/水土保持与气候变化的耦合关系。结果表明:因侵蚀造成的土壤碳素损失是巨大的,但土壤侵蚀是碳源还是碳汇过程依然存在争议,焦点集中于因侵蚀造成土壤团聚体解体,暴露在空气中的土壤有机碳的矿化速率的大小;随着全球气温升高以及降雨格局的变化,全球土壤侵蚀强度和范围都在不断增加,但土壤侵蚀对全球气候变化的响应程度依然值得深入研究;水土保持生态恢复主要通过改变下垫面性质来改变土壤有机碳含量、影响土壤CO2释放并促进土壤碳素积累,对抑制大气CO2浓度升高能产生积极影响。尽管土壤侵蚀/水土保持与气候变化的耦合关系方面的研究已取得重大进展,但仍有待于在土壤侵蚀过程中碳素变化模型、土壤侵蚀过程中氮素迁移转化特征以及侵蚀劣地生态恢复过程中土壤碳素积累机制等方面加强研究。     

杉木和米槠人工林土壤可溶性碳组分动态及其对凋落叶输入的响应

可溶性碳组分是土壤有机碳库中最活跃的部分,作为土壤碳周转初期变化的敏感指标,其含量受到凋落叶等植物残体输入、森林类型及季节性水热变化的共同调节。采用土壤原位培养法,以亚热带米槠(Castanopsis carlesii)人工林与杉木(Cunninghamia lanceolata)人工林为对象,分析生长季内土壤可溶性碳(DOC)与热水溶性碳(HWSC)含量动态变化及其对凋落叶输入的响应趋势。结果表明,凋落叶输入、森林类型和培养月份均极显著影响土壤可溶性碳组分含量(p<0.001)。杉木人工林土壤DOC与HWSC含量整体较高,分别高出米槠人工林15.09%和13.06%,但后者的土壤可溶性有机质芳香化程度更高。经过1个生长季的培养,2种人工林土壤DOC与HWSC含量均明显增加。凋落叶增加生长季米槠人工林土壤DOC与HWSC的含量,但对杉木人工林的影响具有季节差异。研究结果表明杉木人工林土壤DOC与HWSC含量更高,但凋落叶输入促进米槠人工林DOC与HWSC含量,更易于随淋溶过程流失。     

自然侵蚀量和容许土壤流失量与水土流失治理标准

在总结分析国内有关自然侵蚀量、容许土壤流失量研究成果的基础上,探讨自然侵蚀量与容许土壤流失量的关系,讨论制订水土流失治理标准的思路。认为水土流失治理标准的确定有3个参考值：1）标准值,即一定条件下的容许土壤流失量,是水土流失治理至少要达到的目标,且随着对不同土地利用类型的功能需求与可实施的最佳水土保持措施、以及所在水土流失类型区的侵蚀危害与治理约束条件的不同而不同;2）理想值,即正常自然侵蚀状态下的土壤流失量;3）极端值,即土壤流失量为0,不发生水土流失。水土流失治理应是先控制到现时生态环境与社会经济条件下的容许土壤流失量范围内,逐步达到自然正常侵蚀量或制止水土流失的发生;还应引入环境伦理、环境美学及景观设计等理念,最终实现土地的可持续利用、区域生态系统的健康稳定及人与自然的和谐友好发展。     

渤黄海区域渔船碳排放特征

渔船二氧化碳排放是全球温室气体排放评估中通常被忽视的领域,对全球变暖过程具有不可忽略的驱动作用。渤黄海是中国重要的海上粮仓和生态环境治理区域,查明渤黄海渔船生产作业过程对温室气体排放贡献较大的环节,对区域碳循环研究、碳排放管理及减排降碳措施制定具有重要意义。为探明渤黄海区域海洋渔船二氧化碳排放的时空变化特征,揭示渔业生产活动对气候变暖的影响程度,该研究基于2020和2021年的海量渔船管理及动态船位数据,提取了航段位移、航段内渔船航速、发动机负荷因子、排放因子等状态参数,构建了渔船二氧化碳排放动态计算模型,分析了渤黄海区域9种作业类型渔船的二氧化碳排放强度,给出了渔船年度及月度排放的空间分布特征。结果表明：1）渤黄海区域各类机动渔船在2020和2021年的二氧化碳排放总量分别为450万和945万t,总体呈现出近岸低、外海高的分布特征,热点区域主要分布在渤海湾渔场、滦河口渔场、海东渔场、烟威渔场、石岛渔场、石东渔场、海州湾渔场及大沙渔场。2）拖网和刺网渔船是二氧化碳年度累计排放的主要贡献者,但就单船单位航行时长二氧化碳排放量而言,辅助船最高,围网渔船次之。3）不同年份相同月份的渔船二氧化碳排放空间分布呈现出一定的相似性,伏季休渔期开始前强碳源主要出现在黄海中南部区域,休渔期结束后强碳源主要出现渤海中部、山东半岛东部以及黄海中部海域一带,年度内渔船二氧化碳排放重心总体上是由沿岸海域向中部开阔海域方向扩散。该研究通过渔船动静态异质数据推演二氧化碳的时空变化,对评估渔业生产所引起的气候效应具有理论指导作用。     

Intercropping of Sonchus asper and Vicia faba affects plant cadmium accumulation and root responses

The cadmium(Cd)pollution of farmland soil is serious in the world.The present study investigated the effects of intercropping Vicia faba and the hyperaccumulator Sonchus asper on the Cd accumulation and root responses(morphology and secreted organic acids)of plants grown on soil from a mining area in Yunnan Province,China,under different Cd stress levels(0,50,100,and 200 mg kg^-1).Intercropping increased the biomass of both S.asper and V.faba,as well as the Cd accumulation and Cd trans...