Short-term effects of post-fire mulching with straw or wood chips on soil properties of semi-arid forests

Few studies have compared the variability of soil properties using different types of mulches in semi-arid forests.This study evaluated the changes in physico-chemical soil properties in a semi-arid forest of Central Eastern Spain,where straw and pine wood chips were distributed as mulch three months after a wildfire.Soils were sampled under burned and unmulched and burned and mulched plots three and nine months after the treatments.The data was processed using Principal Component Analysis(PCA)and Analytical Hierarchical Cluster Analysis(AHCA).Mulching with straw or wood chips did not have any significant effects on the texture and chemical properties of burned sites few months after the treatment.In contrast,significant changes are expected over time in organic matter,nutrients and many ions.There were no significant differences in soil properties between the two mulches.These low changes were confirmed by PCA coupled with AHCA,which did not show a clear distinction among the three soil conditions.However,a noticeable and significant variability of many of these properties over time was evident.This study shows that mulching does not degrade of soil properties in the short-term after a wildfire and after post-fire treatments,and thus helps protect semi-arid forest ecosystems against the negative impacts of high-severity fires.

Post-fire cyclic behavior of reinforced concrete shear walls

The effects of fire exposure,reinforcement ratio and the presence of axial load under fire on the seismic behavior of reinforced concrete(RC) shear walls were investigated.Five RC shear walls were tested under low cyclic loading.Prior to the cyclic test,three specimens were exposed to fire and two of them were also subjected to a constant axial load.Test results indicate that the ultimate load of the specimen with lower reinforcement ratio is reduced by 15.8%after exposure to elevated temperatures.While the reductions in the energy dissipation and initial stiffness are 59.2%and 51.8%,respectively,which are much higher than those in the ultimate load.However,this deterioration can be slowed down by properly increasing reinforcement due to the strength and stiffness recovery of steel bars after cooling.In addition,the combined action of elevated temperatures and axial load results in more energy dissipation than the action of fire exposure alone.

Tree Planting:How Fast Can It Accelerate Post-fire Forest Restoration?——A Case Study in Northern Da Hinggan Mountains,China

In 1987,a catastrophic fire burned over 1330000 ha in the densely forested area of the Da Hinggan Mountains in the northeastern China.After the fire,intensive management including burned trunk harvesting and coniferous tree planting had been conducted to accelerate forest restoration.To study the long term effect of these activities on forest recovery,we used a simulation modeling approach to study long-term(300 years) forest dynamics under current planting and natural regeneration scenarios.Results indicate that under tree planting scenario in the severely burned area,the dominant species Dahurian larch(Larix gmelinii) can reach pre-fire level(60% of the area) within 20 years and the maximum abundance can reach nearly 90% within 100 years.While under natural regeneration scenario,it needs about 250 years to reach its pre-fire level.From the perspective of timber production,tree planting can bring twice as much timber volume as that under natural regeneration within 300 years,which is the average longevity of L.gmelinii.It needs about 70 years to reach the timber volume of pre-fire level under the planting scenario,whereas it requires at least 250 years to reach the timber volume of pre-fire level under natural regeneration scenario.Another dominant species Asian White birch(Betula platyphylla) responded negatively to the planting of coniferous species.In general,tree planting of coniferous species after fire can greatly accelerate forest restoration in terms of species abundance and target timber volume,with desirable ecological and economic returns.

Salvage logging versus natural regeneration post-fire practices in a forest: Soil chemical and microbial aspects

The increase in forest-wildfire events around the world has revived the old debate regarding the practice of salvage logging and its effectiveness in comparison to the unlogged, natural regeneration of burned forests. Since the logging of burned trees may have undesirable outcomes in soil systems, such as soil compaction and nutrient losses, these changes could further cause disturbances to soil microbial-community activity. The aim of this study was to examine chemical and biological changes in soil under two post-fire practices: salvage logging and unlogged, natural regeneration of burned areas, in the recently burned Byria Forest in Israel. Results indicated that salvage logging had a short- lived effect on soil chemical and biological properties that was confined mostly to the first year after logging. Soil moisture was greatly affected by salvage logging, and drier conditions were found in the logged compared to the unlogged burned areas. Moreover, logging had a negative effect on microbial biomass, with reduced biomass in the logged compared to unlogged areas, which was more evident during the first year after fire. These findings support the recommendations in the literature to postpone post-fire practices such as logging or, in turn, to combine the two practices in order to create a mosaic of burned-logged and burned-naturally regenerated areas.

Evaluation of the post-fire erosion and flood control works in the area of Cassandra(Chalkidiki, North Greece)

We quantified morphological and hydrographical characteristics of two drainage basins（Chanioti and N. Skioni） on Cassandra peninsula of Chalkidiki（North Greece）, and evaluated the effectiveness of post-fire flood and erosion control works. The drainage basins were chosen because of their severe damage by fire, post-fire potential for erosion and flood due to the steep relief, and the importance of the area for residential and tourism development. The first measures taken in the area after the fire were salvage cutting of burned trees, a total ban on grazing, and construction of three types of works, log erosion barriers（LEBs）, log check dams and contour branch barriers. Almost all necessary post-fire works were completed in both catchments but many construction failures were recorded. Approximately 75 % of the LEBs and45 % of the contour branch barriers functioned properly,while the remainder failed. Nearly 80 % of the log dams were sedimented to 0–20 % of the dam height, 14.3 %were 20–40 % filled and 5.9 % collapsed. Despite these failures, peak discharge declined by 10.5 % in Chanioti and 20.4 % in N. Skioni catchment. The main reasons for works failures were the rush of construction and the limited supervision of workers, which resulted in floods during the years that followed.

Below-ground growth characteristics of 13-year-old Pinus densiflora on different contour conditions in a post-fire plantation in Samcheuk,Korea

We estimated the growth volume of artificially reforested Pinus densiflora in a post-fire area on three different contour conditions by comparing and analyzing the vertical and horizontal distributions of below-ground roots on each contour. The main roots at the south-facing slope (SS) developed in a long and straight form, and those on the north-facing slope (NS) in a twisted form. The side roots developed more than the main roots on the Ridge. The depth of taproots decreased in the following order: SS > NS > Ridge. The roots on the SS developed in a pile-form root structure whereas those in the Ridge and NS developed concentrically near the root collar. The amount of root development decreased in the following order: SS > NS > Ridge. The ratio of fine roots from the whole-root development decreased in the following order: Ridge > SS > NS. These results can guide considerations of growth differences according to the planting contour conditions for future establishment of P. densiflora artificial plantations.

Biomass growth characteristics of 13-year-old Pinus densiflora S.et Z.in a post-fire plantation on different contour conditions in Samcheuk,Korea

We used preliminary data to estimate the growth volume of artificially reforested Pinus densiflora in a post-fire area on three different contour conditions. We compared the growth of P. densiflora on a south-facing slope(Ssth), north-facing slope(Snth) and ridge area(Ridge), using 7 trees selected from each stand aspect. The tree height, diameter and growth volume were measured and the dry weight of each plant part were compared and analyzed. The results revealed that the total dry weight was highest on Ssth(5992.3 g), followed by Snth(4833.2 g) and lowest on Ridge(3160.1 g). The height growth was highest on Snth(285.8 cm), followed by Ssth(274.5 cm) and lowest on Ridge(211.5 cm). The diameter growth was greatest on Ssth(7.37 cm), followed by Snth(7.10 cm) and lowest on Ridge(5.72 cm). The volume growth was highest on Ssth(4257.7 cm3), followed by Snth(3750.7 cm3) and lowest on Ridge(2093.7 cm3). Therefore, we should consider and include the concept of slope orientation together with differences in habitat environments in afforestation projects when creating artificial forests with P. densiflora. These study results can serve as important preliminary data for future establishment of artificial forest of P. densiflora in a post-fire plantation.

火灾后全取代率型钢再生混凝土梁抗弯性能

为了研究火灾后全取代率型钢再生混凝土(SRRAC)梁的受弯性能,利用有限元模型分析了受火时间、再生粗骨料取代率、钢材及再生混凝土强度参数对构件受弯性能的影响。结果表明:受火时间对构件的抗弯性能影响较为显著,受火时间在30~60 min时混凝土承载力下降幅度在17.9%~29.4%,受火时间在60 min以上时混凝土承载力下降幅度在10%以内;取代率、型钢强度与混凝土强度对承载力影响较小;在受火时间相同而不同取代率的构件内部温度相差不大。

火灾后钢筋混凝土板力学性能评估方法

钢筋混凝土楼板是火灾中最容易破坏的结构构件,需要对其火灾后的承载能力进行评估并加固。考虑升温阶段、降温阶段及火灾后阶段材料本构关系的不同,考虑高温下混凝土保护层的爆裂对温度场及力学性能的影响,提出了火灾后钢筋混凝土楼板力学性能分析的有限元计算模型。同时,针对典型的钢筋混凝土板加固方法,在前述有限元模型的基础上建立了火灾后加固的钢筋混凝土板有限元计算模型,利用该模型对典型的火灾后加固钢筋混凝土板的承载能力进行了计算分析。模型中采用单元生死技术实现了混凝土高温下的爆裂及火灾后加固的数值模拟,模型可用于火灾后及加固后钢筋混凝土板力学性能的评估。分析表明,经历火灾后,钢筋混凝土板的承载能力降低幅度较大,板存在明显残余挠度。加固后,钢筋混凝土板的承载能力得到较大程度的恢复。

杨氏针灸流派絮刺火罐特色技术治疗中风后肌张力障碍的临床诊疗专家共识

中风是一种由各种血管原因导致的急性或局灶性脑功能障碍,其发病原因主要包括脑出血和脑缺血,具有较高的发病率、致残率和病死率[1],是全球死亡和长期残疾的主要原因,给医疗系统和家庭带来了巨大的经济负担[2-3]。尽管中风的发病率在全球范围内有所下降,但最近的全国性流行病学调查表明,中国估计有1100万中风流行病例,240万新的中风病例和110万与中风相关的死亡[4-5]。中风后肌张力障碍成为中风后遗症加重的重要因素。

升麻治疫思想探析

本文从阴阳毒、阴火、大气下陷等医论出发,探析不同医家运用升麻的治疫思想。升麻辛凉轻扬,可解百毒、辟障邪,多治温热疫、瘥后证。仲景以疫毒已发、未发之别区分阴阳毒,阳毒者,升麻合蜀椒、雄黄汗以发之、阴毒者,升麻合鳖甲解毒散结;李东垣则总以心火独盛为致疫关键,发于头面者,升麻合风类药、苦寒之品清热解毒、升阳泻火,脾胃内伤者,升麻合甘温补脾土之品以泻阴火;疹毒客于肺胃者,则以辛凉气轻之品为主,透疫达表、解毒去实;余邪搏击大气者,则循同气相求之理,升提大气,举陷托邪。

重庆市2022年8月森林火灾火烧区特点及火后泥石流易发性评价

2022年8月重庆市江津区、巴南区、北碚区相继爆发森林火灾,总过火面积约35 km^(2)。火灾后火烧迹地植被及土壤结构遭到破坏,坡表堆积了厚度1~5 cm不等的灰烬层,受强降雨影响一旦爆发火后泥石流,将对附近村镇基础设施及群众生命财产构成严重威胁。通过遥感解译、现场调查及试验,查明了本次森林火灾火烧区空间分布特征,实测了火烧迹地灰烬层厚度、土壤饱和导水率等参数。结果表明研究区重度、中度和轻度火烧区分别占9.6%、34.0%和56.4%,其对应的坡面灰烬-结构扰动层平均厚度分别为5.10,3.28,1.15 cm。基于专家经验预测模型对火烧区共95条潜在泥石流沟道进行火后泥石流易发性评价,其中1条为高等易发,43条为中等易发,44条为低等易发,7条为不易发,分别占总数的1.05%、45.26%、46.32%、7.37%。考虑到现状条件下各泥石流沟域内中度和重度火烧区仍残留有大量灰烬、泥沙等松散固体物源,且土壤表现出较强的斥水性,中等及高等易发性沟道在雨季一旦受集中降雨影响,爆发火后泥石流的可能性较大。研究成果可为火烧迹地火后泥石流灾害预防与风险管理提供科学依据。

基于复杂网络的火后泥石流成灾机理的建模方法

为更加全面地对火后泥石流致灾因素进行定性分析,达到灾害防控目的,基于复杂网络理论,通过梳理既有的致灾机理研究,萃取了包含致灾因素和过程事件在内的39个节点,建立了火后泥石流触发网络。随后,基于有向网络的结构特点拓展了综合度的概念,并通过综合出(入)度、中介中心性、连边脆弱度3项复杂网络拓扑特征提出了节点风险扩散度指标(NRD)用于评估网络中的关键节点。最后,以3种攻击方式针对PDFTN,对比该网络的连通度变化,以验证NRD识别结果的有效性。结果表明:NRD能够有效识别出有向网络中的关键节点,其中NRD识别出的火后泥石流关键致灾因素为地表径流,该结果与现有研究结论一致。因此,致灾因素对火后泥石流灾害结果的影响可以通过本文提出的NRD指标进行有效表征,从而为火后泥石流灾害防控提供辅助决策依据。

火龙罐辅助针刺治疗中风后便秘疗效及对胃肠神经递质和肠道菌群的影响

目的:观察火龙罐辅助针刺治疗中风后便秘疗效及对血清胃肠神经递质和肠道菌群的影响。方法:将86例中风后便秘患者按随机数字表法分为对照组和观察组各43例,对照组给予枸橼酸莫沙必利分散片治疗,观察组给予火龙罐辅助针刺治疗。比较2组治疗前后自主排便次数(SBMs)、排便困难程度(DID)、Bristol粪便性状(BFT)及钡餐在半结肠、直肠、全结肠的通过时间。比较2组治疗前后血清胃肠神经递质[一氧化氮(NO)、5-羟色胺(5-HT)、血管活性肠肽(VIP)、胃饥饿素(Ghrelin)、P物质(SP)、胃动素(MTL)],肠道菌群(变形菌门、脱铁杆菌门、放线菌门)的水平。比较2组临床疗效及安全性。结果:治疗后,观察组总有效率97.7%,高于对照组81.4%(P<0.05)。治疗后,2组SBMs、BFT评分均增加(P<0.05),且观察组高于对照组(P<0.05),DID评分均降低(P<0.05),且观察组低于对照组(P<0.05)。治疗后,2组钡餐在半结肠、直肠、全结肠通过的时间均缩短(P<0.05),且观察组短于对照组(P<0.05)。治疗后,观察组血清NO、5-HT、VIP水平均降低(P<0.05),且低于对照组(P<0.05)。治疗后,2组胃肠SP、MTL水平均升高(P<0.05),观察组胃肠Ghrelin水平升高(P<0.05),且观察组SP、MTL、Ghrelin水平均高于对照组(P<0.05)。治疗后,观察组肠道变形菌门、脱铁杆菌门、放线菌门相对丰度均降低(P<0.05),且低于对照组。观察组不良反应发生率为2.3%,低于对照组的25.6%(P<0.05)。结论:火龙罐辅助针刺可有效缓解中风后便秘患者的临床症状,改善血清胃肠神经递质和肠道菌群水平。

针刺华佗夹脊穴联合雷火灸治疗中风后偏瘫的疗效及对血清神经元特异性烯醇化酶和S100β蛋白水平的影响

目的 探讨针刺华佗夹脊穴联合雷火灸治疗中风后偏瘫的疗效及对血清神经元特异性烯醇化酶(NSE)和S100β蛋白水平的影响。方法 选取2021年1月至2022年1月于武汉市中医医院就诊的中风后偏瘫病人92例,按照随机数字表法分为对照组和观察组(n=46),两组病人均接受常规营养神经、活血化瘀等药物治疗,对照组病人除基础治疗外加用雷火灸,观察组病人在对照组的基础上给予针刺华佗夹脊穴治疗,治疗周期4周。观察两组肢体肿胀程度、功能独立性量表(FIM)评分、Berg平衡功能量表(BBS)评分、疗效、血清NSE和S100β蛋白水平及不良反应发生率。结果 治疗2周、4周后,两组肢体肿胀积分[(1.43±0.59)分比(1.67±0.41)分、(0.16±0.32)分比(0.31±0.29)分]及血清NSE[(0.31±0.08)μg/L比(0.39±0.10)μg/L、(0.18±0.05)μg/L比(0.25±0.07)μg/L]、S100β蛋白[(21.99±5.67)μg/L比(25.08±6.41)μg/L、(14.34±3.65)μg/L比(18.26±4.70)μg/L]水平均显著降低,且观察组低于对照组(P<0.05);治疗2周、4周后,两组FIM评分[(68.54±10.22)分比(62.39±8.49)分、(83.54±15.61)分比(73.37±11.24)分]、BBS评分[(28.54±6.39)分比(25.21±4.70)分、(37.82±8.64)分比(32.87±7.21)分]均显著升高,且观察组高于对照组(P<0.05);观察组整体疗效优于对照组(P<0.05);观察组不良反应发生率(4.35%)与对照组(2.17%)比较差异无统计学意义(P>0.05)。结论 针刺华佗夹脊穴联合雷火灸对中风后偏瘫病人疗效显著,可有效提高FIM评分及降低血清NSE、S100β蛋白水平,改善病人平衡能力及肢体肿胀症状,且安全性较高。

基于“火与元气不两立”辨证论治脑卒中后疲劳

脑卒中后疲劳是脑卒中常见并发症,患者持续性主观疲惫感影响康复训练进程,导致整体康复疗效不佳,严重影响恢复期患者的日常生活能力和生活质量。脑卒中后疲劳在中医属于虚劳范畴,“火与元气不两立”与脑卒中后疲劳的反复发作和加重关系密切。李东垣认为脾胃为元气之本,脾胃元气亏虚为其病机之本,阴火独胜为其致病关键,脑卒中后疲劳患者脾胃元气亏虚、阴火内生,临床表现为整体虚劳。以补益脾胃元气、升举阳气和泻除阴火为治则,选用补脾胃泻阴火升阳汤、升阳散火汤和补中益气汤等治疗脑卒中后疲劳,可降低患者复发率,利于其完成康复训练,并提高生活质量。

森林火灾对泥石流孕灾环境及成灾机制的影响分析

火后泥石流是最危险的森林火灾次生灾害之一,为了探讨森林火灾对泥石流孕灾环境及成灾机制的影响,本文以湖南新田县过火区域为研究对象,利用遥感解译、野外实地调查、室内实验等方法,开展火后泥石流孕灾因子及成灾机制研究。研究结果表明,森林火灾对岩土体、植被和物源产生重要影响,因岩土体性质和植被烧毁的影响,提高了坡面地表径流和坡面侵蚀,降低了泥石流启动降雨阈值,形成初次以灰烬层为主的泥石流。这与常规泥石流的特点和成灾机制有所不同,可为火后泥石流灾害防治与风险评价提供重要参考和技术支撑。

某厂房火灾后房屋安全性及抗震性检测鉴定项目三项疑难技术问题的解决

本工程以构件截面尺寸检测、钢柱垂直度检测、混凝土钻芯法强度检测、混凝土碳化深度检测、里氏硬度法钢材强度检测、结构构件现状调查和检测的6项基本检测数据为基础,解决了每个构件表面温度的合理推断,提供了一个较为准确的火场温度分布图;解决了火灾后材料性能衰减后的较为合理的参数取值难题;解决了火灾后构件鉴定评级难题。最终完成了一份相对合理的鉴定报告,为加固或拆除的决策提供了科学的依据,为类似火灾后的房屋鉴定提供参考。同时根据鉴定结果一层98%的区域不用拆除,可继续使用,取得了较好社会经济效益。

基于移动三维激光扫描技术的高层建筑火灾调查研究

为了提升高层建筑火灾调查的准确度和效率,提出基于移动三维激光扫描技术的高层建筑火灾事故调查方法。在灾后现场调查中,此方法仅通过人工手持扫描仪获取事故现场的数据,结合自动化软件对收集的现场数据进行处理,实现灾后现场点云数据的全面采集,通过实际工程进行对比验证。结果显示,该方法不仅可以实现灾后现场的快速扫描和高效测量,获取的灾后现场数据可为高层建筑的安全监控提供数据支撑。

CCUS应用下660MW燃煤电站度电成本与电力供应成本分析

为研究燃煤机组进行碳的捕获、利用与封存(CCUS)改造后度电成本与电力供应成本的变化情况,综合当前电-碳双市场发展趋势总结分析出燃煤机组CCUS应用的成本、收益情况并建立仿真模型,同时对配备CCUS的660 MW燃煤电站进行度电成本与电力供应成本的折算分析,最后以碳捕集成本、碳交易价格为变量进行敏感性分析。结果表明:火电机组经CCUS改造后,预测度电成本将于2034—2035年下降至电网区域煤电交易基准价向上浮动20%的范畴,于2039年后实现改造前后度电成本变化率为负数,即改造后度电成本低于改造前度电成本的目标,此外尽管碳捕集成本、碳交易价格将对度电成本和电力供应成本产生不同程度的影响,但在两者的耦合作用下,火电机组CCUS改造项目仍具有良好的经济性效果。