The biomechanical effect of the collar of a femoral stem on total hip arthroplasty

To investigate the biomechanical effect of collars, finite element analyses are carried out through two hip joints that are implanted using collared and collarless stems, respectively, and an intact hip joint model. For the analyses, the sacrum, coxal bone, and the cancellous and cortical bones of a femur are modelled using finite elements based on X-ray computed tomographic images taken from a 27-year-old woman. From the results, it is found that a collar with perfect calcar contact prevents stem subsidence and decreases the proximal–lateral gap and the lateral stem tilting. Therefore, it can impart reasonable biomechanical stability for total hip arthroplasty. However, its low load transmission ability and increased stem tilting effect due to the imperfect contact between the collar and the calcar are found to be serious problems that need to be solved. Results of clinical follow-up are presented for supporting the computational results.     

Relative sea‐level change regulates organic carbon accumulation in coastal habitats

Because coastal habitats store large amounts of organic carbon (C_org), the conservation and restoration of these habitats are considered to be important measures for mitigating global climate change. Although future sea‐level rise is predicted to change the characteristics of these habitats, its impact on their rate of C_org sequestration is highly uncertain. Here we used historical depositional records to show that relative sea‐level (RSL) changes regulated C_org accumulation rates in boreal contiguous seagrass–saltmarsh habitats. Age–depth modeling and geological and biogeochemical approaches indicated that C_org accumulation rates varied as a function of changes in depositional environments and habitat relocations. In particular, C_org accumulation rates were enhanced in subtidal seagrass meadows during times of RSL rise, which were caused by postseismic land subsidence and climate change. Our findings identify historical analogs for the future impact of RSL rise driven by global climate change on rates of C_org sequestration in coastal habitats.     

GI引导下的采煤塌陷地生态恢复优先级评价

生态恢复优先级评价是恢复生态学研究的热点之一,而退化生态系统被恢复为何种类型是确定生态恢复优先级的前提和重点。以徐州市为研究区,将城市绿色基础设施(GI)作为塌陷地生态恢复的目标,在GIS技术支撑下,从塌陷斑块恢复为GI的适宜性及其对维持GI景观连接度的重要性两个方面,综合评价了采煤塌陷地生态恢复优先级。研究结果表明,徐州市超过半数的采煤塌陷斑块具有较高的GI生态适宜性,相对集中在5个片区;各塌陷斑块维持景观连接度的重要性分布不均匀,贾汪片区中部及北部塌陷斑块对维持景观连接度的作用非常显著;二者叠加后各塌陷斑块的综合适宜度具有明显差异,将其划分为5个生态恢复优先等级,较高优先等级分布于贾汪片区中部、董庄片区北部、庞庄西片区中部,建议将其纳入城市绿色基础设施予以优先恢复并立法保护。     

淮南采煤塌陷湖泊浮游植物功能群的季节演替及其驱动因子

在淮南矿区设置潘谢潘集站(PXPJ)、潘谢顾桥站(PXGQ)和潘谢谢桥站(PXXQ)等3个塌陷湖泊站点,分别代表3种典型矿区湖泊水文生态条件,于2013—2014年分4个季度采样并分析了3个湖泊浮游植物功能群组成、季节演替规律及其与环境和生物因子的关系。结果显示,3个湖泊的浮游植物种类可归入16个功能群,其主要优势功能群反映了小型富营养化湖泊水体的生境特征。PXPJ春季S1、X2和Y为主要优势功能群,分别以伪鱼腥藻(Pseudanabaena sp.)、具尾蓝隐藻(Chroomonas caudata Geitler)和卵形隐藻(Cryptomonas ovata Ehr.)为代表种属,随后3个季节C为第1优势功能群,以链形小环藻(Cyclotella catenata)为代表物种。PXGQ春夏秋3个季节中均以伪鱼腥藻为代表的S1功能群占绝对优势地位,冬季向C(以链形小环藻为代表)和D(以尖针杆藻为代表)为主的功能群演替。PXXQ春季X2和Y为主要优势功能群,分别以具尾蓝隐藻和卵形隐藻为代表,夏秋季以伪鱼腥藻为代表的S1功能群占据优势地位,冬季向C(链形小环藻为代表)和E(长锥形锥囊藻为代表)功能群为主的群落结构演替。水温和光照条件是驱动淮南采煤塌陷湖泊浮游植物功能群季节演替的关键环境因子,而营养盐和生物因素是导致3个湖泊功能群组成差异的重要原因。     

Effects of phosphate-solubilizing bacteria application on soil phosphorus availability in coal mining subsidence area in Shanxi

The effect of phosphate-solubilizing bacteria (PSB) application on phosphorus (P) availability in reclaimed soil in coal mining subsidence region was investigated. Seven treatments were carried out including control, chicken manure (CM), PSB, PSB + tricalcium phosphate (TCP), CM?+?TCP, PSB?+?ground phosphate rock (GPR) and CM?+?GPR. The results showed soil Olsen-P concentration and phosphatase level as well as the yield of pakchoi (Brassica chinensis L.) were significantly higher in PSB application treatments compared to the corresponding CM application treatments. Soil phosphatase, invertase and urease contents were increased most significantly in PSB treatment, 1.18-, 1.31- and 2.32-fold higher than those in the control, respectively. Soil Ca₂-P, Ca₈-P, Fe-P and Al-P concentrations exhibited the greatest increases in PSB?+?TCP treatment, while occluded-P showed minor changes in different treatments. Application of PSB fertilizer reduced the transformation of Olsen-P to Ca₁₀-P, thus increasing P availability in reclaimed soil of coal mining subsidence area.     

采煤塌陷区不同地貌类型植物群落多样性变化及其与土壤理化性质的关系

通过对神府-东胜矿区2种不同地貌类型下沉陷样地及对照样地地表植被进行调查,研究不同地貌类型、不同沉陷位置的群落多样性变化及其与土壤理化性质的关系。研究结果表明:(1)哈拉沟矿区(黄土丘陵地貌)植物种类较丰富,大柳塔矿区(风沙地貌)植被种类较单一;达乌里胡枝子作为风沙地貌沉陷区指示物种,其演替机制符合忍耐作用理论,紫翅猪毛菜作为黄土丘陵沟壑地貌沉陷区指示物种,其演替机制是促进理论和竞争共同作用的结果。(2)沉陷干扰12a后,2个研究区Shannon-Wiener指数分别增加了54.60%,73.85%,风沙地貌研究区土壤含水量和脲酶活性分别增加了8.64%和57.14%,黄土丘陵沟壑地貌研究区土壤有机质增加了47.73%。(3)采煤塌陷后,风沙地貌矿区坡中位置过氧化氢酶活性下降63.50%,土壤体积含水量降低58.70%,植物群落多样性显著降低;坡底位置土壤含水量、土壤养分、植物群落多样性均显著提高,土壤理化性质和植物群落多样性变化协同一致。(4)风沙地貌区植物群落多样性与土壤含水量存在显著正相关关系,黄土丘陵沟壑地貌区植物群落多样性与土壤有机质含量存在显著负相关关系。     

煤矿井田区地表沉陷对植被景观的影响——以山西省晋城市东大煤矿为例

借助地表沉陷预测模型,预测了地表沉陷状况,依据地表沉陷对景观的破坏程度划分出重度影响区和轻度影响区;在遥感及地理信息系统技术的支持下,把植被景观现状与地表沉陷影响区叠加,通过沉陷前后景观格局的变化分析,对山西省晋城市东大煤矿的生态影响进行了探索性评价研究。结果表明:1) 重度影响区地表会出现盆型、马鞍型和波浪型等塌陷或裂缝,土壤侵蚀的作用将导致土壤养分空间格局发生明显变化。塌陷或裂缝周围生境恶化,成为养分流失源,植被恢复困难;养分汇处土壤水、肥条件优越,植被演替迅速,适当的人为干扰可以加快区域生态环境的恢复步伐。2) 地表沉陷后,植被景观破碎及隔离程度严重,原有的稳定态景观格局被打破,随着地形、土壤的空间变化,植被开始新一轮发展演替。由于原先占绝对优势的退化植被类型白羊草(Bothriochloa ischemum)-百里香(Thymus mongolicus)型优势度下降,同时,大部分次优势景观的内部生态功能受影响不大,这对景观整体的生物多样性以及次优势景观类型的演替是有益的,但是,重度影响区对斑块的隔离呈直线性,这对物种迁移的障碍是明显的。因此,重视井田区的封育与引种工作,科学规划、合理布局,在此基础上,引导植被演替沿着白羊草-百里香型—白羊草-黄背草(Themeda japonica)型—灌木丛—阔叶林的方向发展是可行的。     

Biomechanical analysis of lumbar interbody fusion cages with various lordotic angles: a finite element study

Inappropriate lordotic angle of lumbar fusion cage could be associated with cage damage or subsidence. The biomechanical influence of cage lordotic angle on lumbar spine has not been fully investigated. Four surgical finite element models were constructed by inserting cages with various lordotic angles at L3-L4 disc space. The four motion modes were simulated. The range of motion (ROM) decreased with increased lordotic angle of cage in flexion, extension, and rotation, whereas it was not substantially changed in bending. The maximum stress in cage decreased with increased lordotic angle of cage in all motion modes. The maximum stress in endplate at surgical level increased with increased lordotic angle of cage in flexion and rotation, whereas it was not substantially changed in extension and bending. The facet joint force (FJF) was much smaller than that for the intact conditions in extension, bending, and rotation, while it was not substantially changed in flexion. In conclusion, the ROM, stresses in the cage and endplate at surgical level are sensitive to the lordotic angle of cage. The increased cage lordotic angle may provide better stability and reduce the risk of cage damage, whereas it may increase the risk of subsidence in flexion and rotation.     

采煤沉陷裂缝区土壤含水量变化对柠条叶片叶绿素荧光的响应

采煤塌陷引起的土壤环境因子的变化对矿区植物生长的影响越来越受到人们的关注,快速叶绿素荧光诱导动力学分析技术被称为植物受胁迫状态的有效探针,能够快速获取胁迫下光系统II光化学活性和电子传递的信息。研究采煤塌陷裂缝区植物叶片叶绿素荧光的变化是揭示煤炭开采塌陷胁迫对植物个体生长影响的关键环节,能为大尺度下采煤沉陷区植物损伤机理研究提供基础。对于黄土高原半干旱矿区,土壤水分无疑是植物生长最重要的限制因素,而植物叶片叶绿素荧光变化采煤塌陷影响下土壤含水量变化的响应如何尚不清楚。为了弄清采煤沉陷裂缝影响下土壤含水量变化对柠条叶片叶绿素荧光响应的影响,选取神东煤田大柳塔矿区52302工作面为实验场地,在分析了采煤塌陷裂缝对土壤含水量的影响的基础上,以生态修复物种柠条为研究对象,对采煤塌陷裂缝区不同土壤含水量下柠条叶片快速叶绿素荧光诱导动力学曲线进行监测。结果显示:(1)由于煤炭井工开采在地表形成大量裂缝,破坏了土体结构,增加了土壤水分的蒸发面,加速了土壤水的散失。土壤水分含量随着与裂缝之间距离的增加而增加,从距离裂缝0 cm到300 cm,土壤平均含水量从5.63%增加到15.07%;(2)裂缝区土壤水分降低,柠条受到干旱胁迫程度加重,叶片快速叶绿素荧光诱导动力学曲线由O—J—I—P变形为O—K—J—I—P曲线。干旱胁迫通过干扰柠条叶片PSII电子供体侧、受体侧以及电子传递链的功能,严重的损害了柠条叶片光合机构的正常功能。