氟对骨组织代谢调节因子的影响

过量氟不仅对骨细胞具有直接作用，而且可通过骨代谢调节因子（甲状旁腺素、骨钙素、降钙素）的间接作用，引起骨损害。因此，认识骨代谢调节因子，对深入探讨氟病具有重要的理论意义。     

利用自制骨炭除氟剂处理农村高氟地下水研究

在不同实验条件下将家畜骨制成骨炭除氟剂,通过除氟效果的比较筛选出最佳除氟剂制备方法。利用所制得的骨炭进行除氟静态吸附实验,研究了骨炭对氟的吸附效果以及温度、pH和地下水中常见阴阳离子等不同影响因素对骨炭除氟效果的影响。实验结果表明温度对骨炭除氟效果影响不大;低pH条件有利于骨炭对氟的去除;地下水常见阴阳离子中,Ca2＋和Mg2＋对骨炭除氟有一定的促进作用,而阴离子则起到不同程度的抑制作用。除氟后的骨炭可以利用NaOH浸泡方法进行再生,经三次再生后其吸附容量仍可达原来的94.3%,说明骨炭除氟剂具有良好的再生能力且可反复用于水中除氟。     

不同配比南极磷虾粉饲料对网箱养殖俄罗斯鲟生长及氟累积的影响

配制南极磷虾粉替代饲料中鱼粉比例分别为0%、10%、20%、30%的4组饲料饲喂俄罗斯鲟(Acipenser gueldenstaedtii)200 d后,分析南极磷虾粉替代部分鱼粉对网箱养殖俄罗斯鲟生长和鱼体组织氟残留的影响。结果表明:(1)随着南极磷虾粉替代比例的升高,俄罗斯鲟的末重、增重、特定生长率、蛋白质效率先上升后下降,饲料系数先降低后升高,10%组显著高于对照组和其它试验组(P0.05);(2)实验结束时,俄罗斯鲟肌肉、肝脏和鱼鳔的氟浓度低于检测限,但鳃、皮、脊骨和背骨呈现剂量浓度效应,各试验组较对照组显著升高(P0.05)。综上所述,在本实验条件下,在俄罗斯鲟饲料中加入10%比例的南极磷虾粉时获得最佳生长效果和较低的组织氟累积。     

Effect of ABA,arginine and sucrose on protein content of date palm somatic embryos

Abscisic acid (ABA), arginine and sucrose were evaluated for their effects on the morphology, germination rates and protein content of date palm somatic embryos (SE). Different concentrations of these supplements in the culture medium were used. The comparative study of SE length and thickness between treated and untreated SE revealed no differences, except for ABA (20 μM), which increased thickness. A decrease of water content (WC) in favor of an increase in dry weight (DW) was observed in all treated SE, especially with sucrose (90 g l⁻¹) and ABA (20 μM). Only ABA (20 and 4 μM) caused a proliferation rate of the cultures higher than those in the control. Although all the tested compounds increased protein content, ABA (20 μM) was more effective in protein enrichment than arginine and sucrose treatments. The SDS-PAGE protein profiles showed a significant difference between treated and untreated SE. A protein band of 22 kDa, identified as glutelin in a previous work, was accumulated after treatment with 20 μM ABA or 3 mM arginine. These findings may contribute to further understanding of the mechanisms involved in the accumulation of specific storage proteins in several plants.     

Oxidation of methane in the rhizosphere of rice plants

Oxidation of CH₄ in the rhizosphere of rice plants was quantified using (1) methyl fluoride, a specific inhibitor of CH₄ oxidation, and (2) measuring changes in plant-mediated CH₄ emission after incubation under air, N₂, or 40% O₂. No significant rhizospheric CH₄ oxidation was observed from rice plants in the ripening stage. CH₄ emission from rice plants 1 week before panicle initiation increased by 40% if CH₄ oxidation in the rhizosphere was blocked. The growth stage of the rice plant is an important factor determining the rhizospheric CH₄ oxidation. Fluctuation of rhizospheric CH₄ oxidation during the growing season may help to explain the observed seasonal CH₄ emission patterns in field studies. Measurements from four rice varieties showed that one variety, Pokkali, had higher rhizospheric CH₄ oxidation. This was probably because Pokkali was in an earlier growth stage than the other three varieties. Both in the early and in the late growth stages, incubation under N₂ caused a much stronger CH₄ flux than inhibition of CH₄ oxidation alone. Apparently, N₂ incubation not only blocked CH₄ oxidation but also stimulated methanogenesis in the rhizosphere. Incubation under a higher O₂ atmosphere (40% O₂) than ambient air decreased the CH₄ flux, suggesting that increasing the oxidation of the rice rhizosphere may help in reducing CH₄ fluxes from rice agriculture. The O₂ pressure in the rhizosphere is an important factor that reduces the plant-mediated CH₄ flux. However, inhibition of methanogenesis in the rhizosphere may contribute more to CH₄ flux reduction than rhizospheric CH₄ oxidation.     

氟化钠对雏鸡半数致死量的测定

为弄清氟对禽类的毒性影响,选用1日龄罗曼褐蛋鸡56只,随机分为7组,每组8只,经饮水添加不同量的氟化钠,1次性灌喂,观察7d内动物中毒死亡情况,计算LD50等指标。结果：急性LD50及其95％可信限分别为960．48mg／kg,594．72～1326．24mg／kg。结论：鸡对氟的耐受量较大,禽产品中氟残留量不容忽视,它可能危及人类健康。     

三个品种茶树氟富集特性及其在亚细胞中的分布

【目的】研究茶树对氟吸收、富集规律及其解毒机理。【方法】通过水培试验,结合差速离心方法研究平阳特早、乌牛早和凫早2号氟富集的特性及根和叶片中氟的亚细胞分布,比较不同品种之间的差异。【结果】3个品种茶树根、茎和叶氟含量均随着培养介质氟浓度的增加而升高,0—10 mg•L-1氟处理下,地上部分氟含量大于根部氟含量（转运系数＞1）,且茶树吸收的氟中56%贮存在地上部分。除对照组外,大部分氟积累在叶片和根系的细胞壁（76.84%—91.58%）和可溶性部分（53.24%—80.35%）,氟的添加均增加了氟在3个品种茶树细胞壁和可溶性部分中的分配比例,减少了其在细胞器中的富集。加氟处理下,平阳特早和乌牛早叶片亚细胞组分氟含量的变化趋势为：细胞壁＞可溶性部分＞细胞器;凫早2号为可溶性部分＞细胞壁＞细胞器。低氟（0—5 mg•L-1）氟处理下,茶树根系亚细胞氟含量变化趋势为：细胞器≥细胞壁＞可溶性部分;高氟（10—50 mg•L-1）氟处理下,则为细胞壁＞可溶性部分≥细胞器。【结论】转运系数、地上部分氟的贮存率和氟在亚细胞组分的分布表明,茶树具有较强的向上运输氟的能力;氟在茶树根和叶中的亚细胞分布与茶树的品种和溶液氟处理的浓度有关,叶片中总氟含量与各亚细胞组分氟含量之间及其各亚细胞组分氟含量之间的关系与品种有关,根系表现与品种无关;细胞壁和可溶性部分是茶树高氟处理下氟主要的存储部位,说明细胞壁沉淀和细胞内的区隔化作用可能是茶树能够解除氟毒的重要原因。     

含氟废水深度处理的研究

以火力发电厂的废树脂为载体 ,制备了负载锆水合氧化物的氟离子吸附树脂 ,并探讨了该负载树脂对氟离子的吸附和脱附性能 .结果表明 :制备该负载树脂的适宜锆浓度为 0 5mol L ,负载树脂吸附和脱附的适宜pH值分别为4 0和 12 0 .该负载树脂的吸附符合Langmuir型吸附等温线 ,通过这种等温线可以得出 ,CF- =1mg L时负载树脂的平衡吸附量qe 为 5 0 0 0mg L .利用该负载树脂对模拟火电厂的含氟废水进行处理 ,取得了较好的效果 .     

氟离子对西伯利亚鲟胚胎发育的影响

本试验在水温17±1℃的条件下,采用半静态式生物毒性试验方法,探讨了氟离子(F-)对西伯利亚鲟胚胎发育的影响。结果表明,100~600 mg/L氟暴露会导致胚胎孵化延迟,氟暴露组半数孵化时间(MHT)比对照组推迟9~22 h。氟暴露同时导致胚胎死亡率显著增加(P<0.05),出膜仔鱼活力减弱、存活时间缩短、畸形率显著升高(P<0.05),出现卵黄囊畸形、脊椎畸形、眼部充血等畸形症状。试验得出F-致西伯利亚鲟胚胎144 h半致死浓度(LC50)为447.61 mg/L,孵化安全浓度(SC)为4.48 mg/L,导致仔鱼畸形的半数效应浓度(EC50)为536 mg/L。氟对西伯利亚鲟胚胎的安全质量浓度低于我国部分高氟地区地下水、地表水及人为氟污染水域中氟含量,提示天然水体中氟可能会对鱼类胚胎产生负面影响,应引起重视。     

工业氟污染对山羊硬组织损害的研究

40只6～10月龄本地山羊在氟重污染牧场放牧18个月,对逐月牧草水溶氟,不同时期骨氟、枯草期血钙及碱性磷酸酶作了测定。同时应用X射线及扫描电镜对下颌、肋骨与牙齿结构作了观察。结果指出,随着骨氟增加,血钙降低、碱性磷酸酶升高、骨皮质变薄、密度降低、骨表面疏松多孔,牙齿磨灭不齐、钙化不良、釉质与本质结构改变。干早气候是枯草期牧草氟升高的先决条件,枯草期牧草高氟与钙的负平衡是形成骨质疏松的主要原因,而青草或与枯草期牧草氟含量及动物缺钙程度的不同是引起牙齿磨灭不齐、缩短寿命的关键因素。