蓝藻腐烂含硫衍生污染物释放规律初步研究

[目的]研究蓝藻腐烂含硫衍生污染物的释放规律。[方法]基于蓝藻水华引发的饮用水异味问题,建立含硫衍生污染物测试的顶空固相微萃取-气相色谱-质谱联用检测方法,以采集的蓝藻水样与蓝藻进行实验室封闭腐烂模拟,连续进行10 d蓝藻腐烂的异味物质(主要是含硫衍生物)的质谱分析和释放量检测,并对腥臭味含硫衍生污染物进行定量分析。[结果]在太湖贡湖湾水源地水样、实验室蓝藻腐烂水样和藻样中Scan方式扫描均检测出β-环柠檬醛、吲哚、甲基吲哚、苯酚、甲基苯酚和硫醇硫醚类等蓝藻代谢产物或次生代谢产物。含硫衍生污染物在腐烂过程中的释放表现出一定的规律性,蓝藻腐烂分解过程中β-柠檬醛的释放量变化不明显,蓝藻腐烂水样中二甲基三硫的最大释放量出现在第7或第8天,二甲基二硫在第4天出现最大释放量,二甲基硫在蓝藻腐烂时释放在第8或第9天出现最大值。实际水样中的二甲基三硫的最大浓度为2 344.79 ng/L,远远超过嗅阈值。[结论]2007年5月底贡湖湾的污水团是大量蓝藻堆积腐烂所致。     

Impact of experimental drought and rewetting on redox transformations and methanogenesis in mesocosms of a northern fen soil

The impact of climate change on the greenhouse gas balance of peatlands is debated as they function both as sinks of carbon and significant sources of methane. To study redox transformations influencing methane production, we incubated two intact soil monoliths from a northern temperate fen and compared a permanently wet treatment to a treatment undergoing an experimentally induced drought for 50 days. Net turnover of dissolved inorganic carbon (DIC), methane (CH₄) and electron acceptors in the saturated zone was calculated using a mass balance approach, and sulfate gross reduction rates were determined using a ³⁵S radiotracer. Thermodynamic energy yield of different electron accepting processes was calculated and related to the observed respiration patterns. Permanently wet conditions lead to a depletion of electron acceptors within 50 days and onset of methanogenic conditions. During drought, electron acceptors were renewed and methanogenesis was temporarily suppressed in most of the peat for another 20-50 days after rewetting. Methanogenesis began, however, apparently locally before electron acceptors were fully depleted in the remainder of the peat, and iron and sulfate reduction occurred simultaneously. Anaerobic production of DIC could mostly but not fully be explained by reduction of nitrate, sulfate and ferric iron. Sulfate gross reduction rates of up to ∼450 nmol cm⁻³ d⁻¹ determined with ³⁵S-SO₄ and potentially explained the surplus of 50-60 mmol m⁻² of DIC production in one treatment; however, the sulfate pools were too small to sustain such rates beyond some hours to days. Furthermore, anaerobic DIC production proceeded at constant rates after depletion of dissolved inorganic electron acceptors, although not being balanced by methane production. An unknown electron acceptor was thus consumed, and sulfate and potentially other electron acceptors recycled, either by humic substances, by aerenchymatic oxygen transport, or by oxygen in the capillary fringe at low levels of air filled porosity.     

油菜硫营养及其与品质的关系

对缺硫指标、缺硫症状 ;硫肥的效果和影响因素 ;硫营养对蛋白质、含油量和脂肪酸组成、硫甙含量、硫甙组分的影响等几个方面对油菜硫营养生理和硫营养与品质的关系进行了综述。     

Band-applied elemental sulfur to enhance the phytoavailability of phosphorus in alkaline calcareous soils

Summary Applications of elemental sulfur (S°) increase the phytoavailability of P in alkaline high-Ca soils through the production of H₂SO₄ which is induced by microbial oxidation of S. Concentrated S bands, allowing time release acidity, may aid in maintaining the phytoavailability of both residual and fertilizer P. Greenhouse and field studies were therefore conducted to determine the effectiveness of band-applied S° for increasing the phytoavailability of residual and fertilizer P for spring wheat (Triticum aestivum L.) and corn (Zea mays L.). We also used inoculation of S° with Thiobacillus thioparus to determine whether it is necessary or helpful in alkaline soils to initiate acidification. Treatments were inoculation, S°, S° + inoculation, triple superphosphate, triple superphosphate + S°, triple superphosphate + inoculation, and triple superphosphate + S° + inoculation applied to three alkaline soils: Typic Argiborolls, Borollic Calciorthids, and Ustollic Haplargids. P availability was determined by plant uptake of P, NaHCO₃-extractable P, dry-matter yield, grain yield and grain-protein production, and on available-P index (NaHCO₃-extractable P, post-harvest, + plant uptake of P). Application of S° with triple superphosphate gave a significantly higher available-P index than triple superphosphate alone on all three soils. Inoculation of S° with T. thioparus increased soil acidity; however, in some cases this treatment eliminated the beneficial effect of S°. Grain yields of wheat increased with S° applications at one of two field sites. These results suggest that applying S° with triple superphosphate may be an effective means of increasing soil P availability and the efficiency of superphosphate fertilizers on alkaline high-Ca soils.     

Transformation of methylthio-s-triazines via sulfur oxidation by strain JUN7, a Bacillus cereus species

It is known that methylthio-s-triazines can be transformed to the corresponding 2-hydroxy derivatives through sulfoxides and sulfones in aerobic and flooded soil; however, production of sulfoxides and/or sulfones from methylthio-s-triazines by isolated s-triazine-degrading bacteria has not been reported yet. In the present study, a new bacterial strain, JUN7, was obtained from Japanese soil; the bacterium is capable of transforming simetryn to 2-methylsulfinyl 4,6-bis(ethylamino)-s-triazine (sulfoxide simetryn) and 2-hydroxy-4,6-bis(ethylamino)-s-triazine (2-hydroxy simetryn) in a Luria-Bertani (LB) medium. This is the first isolation of the specific microorganism that mediates sulfur oxidation of methylthio-s-triazines, as far as we know. Strain JUN7 could decrease other methylthio-s-triazines such as dimethametryn and prometryn, but not chlorinated s-triazines (atrazine, simazine, and terbuthylazine) and methoxy-s-triazine (atraton) in 1/10 LB medium. Strain JUN7 did not possessed gene atzA or trzN encoding triazine-degrading enzymes, suggesting that the strain may have another metabolic system. Characterizations of strain JUN7 based on comparative morphology, physiological classification, and comparison of the partial 16S rRNA sequence indicated that it is assigned as a Bacillus cereus species.     

Modeling studies on sulfur deposition and transport in East Asia

A three dimensional regional Eulerian model of sulfur deposition and tranport has been developed. It includes emission, transport, diffusion, gas-phase and aqeous-phase chemical process, dry depostion, rainout and washout process. A looking up table method is provided to deal with the gas-phase chemical process including sulfur transfer. Calculated values have reasonable agreement with observations. Distribution of sulfur deposition and transport in East Asia are also analyzed in the paper. Simulation shows that sulfate (SO ₄ ^2– ) is the main substance to transport in long range transport. Some amount of sulfur emission of different countries transport across boundaries, but the main origin of sulfur deposition in each country in East Asia is from herself. Furthermore, some transport paths on different layers and outlet or inlet zones are found.     

Role of sulfur nutrition in plant and seed metabolism of Glycine max L.

The aim of present investigation has been to explore the effect of sulfur application on plant metabolism, seed yield and seed quality in soybean. The sulfur was supplied in different doses ranging as 1, 2, 4, 6 and 8 meq S L^?1. Plant supplied with 4 meq S L^?1 showed optimal growth. Plant growth and dry matter was reduced under sulfur deficiency (1 and 2 meq S L^?1) and toxicity (6 and 8 meq S L^?1). Application of sulfur increases the tissue sulfur and cysteine concentration in both leaves and seeds. The critical concentration for deficiency (CCD) and toxicity (CCT) of sulfur was observed 0.194 to 0.277% dry weight respectively. Pod yield and seed yield was also suppressed in sulfur deficiency and toxicity. In leaves sugar (reducing, non-reducing and total sugar) and starch was found to be accumulated while in seeds both were depleted under sulfur deficiency and toxicty. Seed storage proteins (albumins, globulins, glutelins and prolamins) were also reduced under sulfur stress. Thus, we conclude that sulfur deficiency and toxicity both affects the plant metabolism, yield and seed quality in terms of carbohydrates and storage proteins of soybean.     

Influence of sulfur supply,ammonium nitrate ratio,and arbuscular mycorrhizal colonization on growth and composition of Chinese chive

Tissue concentrations of phytochemicals formed by Allium species may be influenced by plant nutrient supply or rhizosphere microorganism activity. To test these relations, three plant nutritional factors were varied in two experiments with Chinese chive [Allium tuberosum]: (a) increasing sulfur concentrations in the substrate, (b) two ratios of ammonium to nitrate in supply, and (c) inoculation with arbuscular mycorrhizal (AM) fungi. Shoot dry weight, nutrient composition (nitrate, N, P, S), and organosulfur compounds (measured indirectly as pyruvic acid) were determined.     

厌氧条件下水稻土中铁硫循环与光照的关系

采用恒温厌氧培养试验研究了黑暗、光照、黑暗转光照和光照转黑暗条件下水稻土中硫酸盐还原和铁的氧化还原.结果表明光照是调控土壤铁、硫生物化学转化的一个关键环境因素,光照对铁、硫还原的抑制作用体现在5d后.黑暗培养30 d土壤游离铁的70.07％可被还原;光照培养时35.60 μmol g-1Fe(Ⅲ)先被还原后被氧化,30 d后仍有32.70％的游离铁被还原,转黑暗后被氧化的铁可再次被还原.黑暗时土壤中99.50％的水溶性硫酸盐(WSS)在可5d内被还原,光照培养30 d有42.73％的WSS被还原.水溶性无机碳(WSIC)与体系中Fe(Ⅱ)和WSS之间存在显著相关关系.无光照转换时水溶性有机碳(WSOC)与Fe(Ⅱ)和WSS的转化速率存在显著正相关关系;黑暗条件下WSOC＞ 7.89 μmol g-1时,体系中Fe(Ⅲ)和WSS还原;光照条件下WSOC＞ 8.27 μmol g-1时体系中Fe(Ⅲ)还原,WSOC＞8.40μmol g-1时WSS还原.