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1.
大量排放的畜禽粪便若利用不当则会对环境构成威胁,经微生物发酵、制成高效有机肥料是粪肥与秸秆综合利用的一种重要方式。试验以牛粪添加不同比例的小麦秸秆为原料,在接种和非接种微生物的条件下进行堆腐,研究了腐解过程有机组分及腐殖物质的动态变化。结果表明,随着腐解进行,乙醇溶性组分含量逐渐降低;水溶性组分含量先升高再降低;半纤维素和纤维素含量随腐解进行呈现一定波动,但总体呈降低趋势;木质素含量呈增加趋势;全碳含量降低,腐殖物质碳占全碳的比例逐渐增加,H/F比值逐渐升高。秸秆的加入比例越高越有利于木质素的积累,牛粪所占比例越大则越有利于腐殖物质的形成。接种微生物可促进有机物料中各有机组分的分解,并有利于腐殖物质的形成。  相似文献   

2.
青海省东部农业区气候干旱冷凉、土壤肥力低,导致该地区有机物料腐解规律与其他地区不同。因此,明确该地区农作物秸秆腐解规律变化特征对于青藏高原地区有机物料还田具有重要意义。本试验采用尼龙袋填埋法,以马铃薯秸秆(MLS)、油菜秸秆(YC)、菊芋秸秆(JY)、小麦秸秆(MG)和绿肥毛叶苕子(MS)为试验材料,研究物料还田后的腐解规律,并利用有机组分含量预测腐解方程的特征参数。结果表明,各处理的腐解残留率均表现出前期(0~42 d)快速下降,后期缓慢下降的特征。至腐解结束,MLS、YC、JY、MG、MS的腐解残留率分别为37.86%、40.75%、47.18%、48.35%、18.08%。纤维素、半纤维素和木质素腐解率分别为63%~84%、53%~69%、23%~40%。相关系数矩阵分析结果显示,物料腐解速率与纤维素含量、半纤维素含量、木质素含量、土壤温度、气温、降水呈显著或极显著负相关,与土壤湿度呈极显著正相关。物料质量残留率与腐解时间的关系可用双库指数衰减模型模拟,方程的决定系数均大于0.96。通过多元逐步回归得到该地区有机物料的腐解方程,且物料的初始纤维素、半纤维素和木质素含量可以很好地预...  相似文献   

3.
土壤中无机纳米粒子对玉米秸秆有机质分解的影响   总被引:5,自引:0,他引:5  
该文从纳米尺度分析土壤颗粒对作物残体有机质分解的影响。将黑土B层提取出的纳米粒子溶液施入正在腐解的秸秆中,在不同的培养时期提取腐解产物,并用重铬酸钾—硫酸容量法测定有机质各分解组分含量和傅里叶红外光谱仪分析主要分解组分 功能团。含量分析结果表明:无机纳米粒子对水溶性有机化合物的生成在腐解前期和后期有显著抑制作用;腐解前期促进碱溶性有机化合物和碱溶性富里酸的生成,在后期没有显著影响;整个腐解过程均促进秸秆腐解生成小分子化合物,并降低水溶性胡敏酸含量。红外光谱分析结果表明:无机纳米粒子在腐解前期和中期抑制碳水化合物生成,腐解中期促进碳酸盐物质生成;整个腐解周期均能显著提高脂肪链结构、甲基、亚甲基生成。该研究证明土壤无机纳米微粒对有机质分解转化有显著影响。  相似文献   

4.
  【目的】  秸秆腐解与元素转化涉及复杂的生物化学过程,提高土壤氮素水平是加速秸秆腐解和养分释放的关键措施。研究不同施氮水平下潮土中小麦秸秆腐解特性、养分释放特征及其结构组分变化规律,深入了解秸秆腐解过程与机制,为完善作物秸秆还田技术、实现秸秆资源的高效利用及农田可持续发展提供科学依据和技术支撑。  【方法】  本试验点位于河南省原阳县,土壤类型为潮土,种植制度为小麦–玉米轮作,以小麦秸秆为研究对象,设置0 (SN0)、180 (SN1) 和240 (SN2) kg/hm2 3个氮肥用量,进行187天的秸秆包填埋试验,利用超高分辨场发射扫描电镜 (SEM)、固态核磁共振 (13C-NMR) 等方法研究小麦秸秆腐解过程中的养分释放和结构组分动态变化规律。  【结果】  1) 小麦秸秆腐解呈现前期快后期慢的特征,前两周为快速腐解期,该阶段秸秆平均腐解率为46%,整个玉米季 (100天) 秸秆平均腐解率为71%;高氮营养环境对前两周的秸秆腐解率无显著影响;从第二周开始,施用氮肥处理加速了秸秆腐解,SN1和SN2处理秸秆腐解率平均高于SN0处理6个百分点,但SN1和SN2处理间无显著差异;秸秆碳释放率与秸秆腐解率变化趋势基本一致。2) 腐解187天后,秸秆氮磷钾养分最终释放率大小顺序为钾 (96%~97%) > 氮 (52%~86%) > 磷 (29%~45%),其中钾在前两周基本完全释放,而氮、磷释放率在后期有负增长现象。3) 纤维素、半纤维素腐解率与秸秆腐解规律基本一致,均表现出前期快后期慢的特点,而木质素则在中后期腐解较快;纤维素、半纤维素和木质素最终腐解率分别为78%~87%、86%~91%和66%~73%(187天后)。4) 扫描电镜结果显示,小麦秸秆结构逐渐遭到破坏,表面变得粗糙,断层增多,空洞增大,纤维束变得松散,形成近似网状结构;高氮处理下小麦秸秆表观结构受破坏程度大于不施氮处理。5) 核磁共振结果显示,不同有机碳官能团信号强度分布表现为:烷氧碳 (47.02%~60.13%) > 烷基碳 (11.41%~17.38%) > 双烷氧碳 (10.79%~13.31%) > 甲氧基碳/烷氮碳 (7.53%~12.02%) > 芳基碳 (2.70%~7.18%) > 羧基碳 (1.07%~2.60%) > 酚基碳 (0.75%~2.02%);腐解过程中烷基碳、甲氧基碳/烷氮碳、酚基碳和羧基碳相对含量显著增加,而烷氧碳相对含量显著降低。6) 相关分析表明,秸秆残余物所有有机碳官能团均与腐解率、碳释放率有显著或极显著相关性;有机碳官能团中只有烷氧碳、甲氧基碳/烷氮碳与氮释放率有显著相关性;烷氧碳、双烷氧碳与纤维素、半纤维素和木质素腐解率均呈极显著负相关,羧基碳和甲氧基碳/烷氮碳均与木质素腐解率呈现极高的正相关性。  【结论】  施用氮肥能够促进小麦秸秆腐解和碳释放,其效果在秸秆还田两周后才能显现出来;在腐解过程中,秸秆残余物中代表易分解碳水化合物的烷氧碳相对含量随腐解时间延长而不断降低,且占比均高于其它碳官能团,对指示秸秆腐解进程具有重要意义;固态核磁共振技术更有利于监测秸秆腐解过程中不同有机碳官能团结构变化,从而更深刻地认识秸秆腐解机制。  相似文献   

5.
鸡粪腐解过程不同溶解性腐殖物质结合形态锌的动态   总被引:2,自引:0,他引:2  
以鸡粪为材料,添加不同比例的铜锌进行腐解试验,研究了腐解过程中不同溶性(水溶性、氢氧化钠溶性、氢氧化钠-焦磷酸钠混合液溶性)腐殖物质结合形态锌浓度的动态变化、受铜含量的影响及其与有效锌的关系。结果表明,粪肥原样水溶性锌(H2O-Zn)占其全锌量的0.74%,在腐解过程中逐渐下降;随着粪肥中添加锌量的增加(Cu/Zn为1: 1、1: 2、1: 3处理),H2O-Zn含量也相应增加,但平均含量占其全锌的比例低于对照处理,同时也随着腐解时间延长呈减少趋势。铜含量的增加对H2O-Zn提取有促进作用。腐解初期,粪肥原样中NaOH浸提取锌含量占其全锌量的62.41%,在腐解过程其比例大幅度下降;NaOH腐殖物质结合态锌(NaOH-Zn)随着加入锌的增大而有所增加,随着铜含量增加,NaOH溶性腐殖物质结合态锌的含量也有增加趋势,而随着腐解时间呈下降趋势。粪肥原样中NaOH-Na4P2O7提取腐殖物质络合锌含量占其全锌量的13.59%,随腐解时间推移呈增加趋势;NaOH-Na4P2O7提取腐殖物质络合态锌(NaOH-Na4P2O7-Zn)的量随着加入锌量的增加,其变化不大,且铜含量对NaOH-Na4P2O7提取腐殖物质络合态锌的量影响很小。在堆腐前,在各个处理样中,50%~85%的可溶性锌分配在NaOH的溶液,10%~50%分配在碱性混合液,0~5%在水溶液;至腐解后期,58%~92%分配在NaOH-Na4P2O7溶液,6%~41%分配在NaOH的溶液,0~2%分配在水溶液。随着锌含量增加,H2O-Zn和NaOH-Zn的分配比例逐渐增加,而NaOH-Na4P2O7-Zn的分配比例减少。在堆腐粪肥中,水溶性锌、NaOH溶性腐殖物质结合态锌与有效锌浓度之间显极正显著或正显著相关,而NaOH-Na4P2O7-Zn溶性腐殖物质络合态锌与水溶性锌,NaOH溶性腐殖物质结合态锌及有效锌浓度都显极负显著或负显著相关。  相似文献   

6.
基于长期定位试验的松嫩平原还田玉米秸秆腐解特征研究   总被引:12,自引:6,他引:6  
为了研究松嫩平原还田玉米秸秆的腐解特征和养分释放规律,该试验采用尼龙网袋法,设置埋土和覆盖地表2种玉米秸秆还田方式,进行连续4 a的定位观测。结果表明:1)还田玉米秸秆的腐解速率和养分释放率都表现为埋土处理大于覆盖地表。秸秆腐解主要集中在还田的前3年,3 a累计腐解率达到91.70%和81.96%,其中第1年腐解率分别为60.63%和45.53%。2)还田玉米秸秆中养分释放的快慢顺序为KPCN。埋土和覆盖处理秸秆中钾的释放主要在还田第1年,释放率达到了96.26%和84.04%;而磷、碳和氮的释放则主要集中在还田前3年,其中磷释放率为92.03%和83.29%;碳释放率为90.96%和82.06%;氮释放率为91.70%和81.96%。3)还田玉米秸秆中半纤维素的腐解速度快于纤维素,木质素最慢。其中埋土和覆盖处理秸秆半纤维素2 a腐解率为88.78%和86.30%;纤维素2 a腐解率为80.42%和70.86%;而木质素3 a累计腐解率为78.63%和66.48%。  相似文献   

7.
膨化预处理玉米秸秆提高还原糖酶解产率的效果   总被引:6,自引:3,他引:3  
为了提高玉米秸秆的可发酵还原糖转化率,采用膨化技术对玉米秸秆木质纤维素进行预处理。扫描电镜观察,玉米秸秆的纤维束受到破坏,木质素包裹作用减弱,纤维素酶的空间作用面积提高。红外光谱分析表明有部分半纤维素和少量木质素水解;X射线衍射测定纤维素结晶度降低了12.68%。通过进一步纤维素酶解试验,与未处理的相比膨化处理后原料酶解时间可缩短16 h,未经膨化处理原料还原糖的酶解产率为13.48%,膨化处理后原料还原糖的酶解产率可达24.91%。结果表明,膨化预处理技术可明显提高玉米秸秆木质纤维素的能源化利用效率。该  相似文献   

8.
王娜  李萍  宗毓铮  张东升  郝兴宇 《核农学报》2020,34(7):1613-1619
为揭示不同还田方式下北方旱作小麦秸秆腐解规律,以小麦秸秆为试验材料,采用尼龙网袋法,于2014-2015年度在山西临汾保护性耕作长期定位试验区进行试验,设置秸秆还田旋耕(SRT)、秸秆覆盖免耕(SNT)2个处理,分析不同耕作方式下小麦秸秆的纤维素、半纤维素、木质素、有机碳、全氮含量以及秸秆腐解率、有机碳矿化率、全氮释放率的变化。结果显示,经过375 d的田间腐解,SRT秸秆腐解率为50%,SNT秸秆腐解率为31%。SRT秸秆的纤维素、半纤维素、木质素的平均腐解率分别为65%、45%、53%,SNT分别为56%、30%、39%;SRT秸秆有机碳的矿化率为57%,SNT为40%;SRT秸秆全氮素释放率为15%,SNT为36%。研究表明,SRT可加快秸秆腐解与组成成分的分解,SNT有利于秸秆氮素的释放,可减少农田氮投入。SNT秸秆有机碳矿化率低可减少农田碳循环速率,提高麦田固碳能力。本研究结果对我国北方旱作小麦秸秆还田管理具有一定的借鉴参考价值。  相似文献   

9.
城市污泥与调理剂混合堆肥过程中有机质组分的变化   总被引:5,自引:4,他引:1  
【目的】研究城市污泥堆肥过程中各项有机质组分及碳、 氮在堆肥过程中的形成与转化,以期改善堆肥的生物有效性,促进其土地利用。【方法】在工厂规模化下,以城市污泥、 蘑菇渣锯末以及返混料按照6∶3∶1的质量比混合形成堆肥物料,辅以强制通风措施和翻抛,进行为期18 d的高温堆肥试验。堆肥期间定期采样,测定指标包括温度、 C/N值、 pH、 含水率、 有机质降解率、 水溶性组分、 半纤维素、 纤维素和木质素,研究堆肥期间不同阶段堆肥物料中有机质组分的动态变化。【结果】堆体温度随着发酵时间的延长呈现先升高后降低的趋势,最高温度达到71.3℃; 含水率由60.7%降低到51.4%,pH呈现先升高后降低的趋势,总体处于6.0~7.5之间; 总有机碳含量持续下降,氮素含量表现为高温期持续下降随后呈上升的趋势; 初始阶段,堆肥物料中四种成分含量分布为: 水溶性组分纤维素半纤维素木质素,至堆肥结束变化为: 纤维素水溶性组分木质素半纤维素,经过堆肥之后水溶性组分及半纤维素含量分别由39.5%和20.1%下降为27.9%和14.4%,纤维素含量由初始的21.8%上升至29.5%,木质素含量相对稳定不变。物料经过堆肥化处理后达到腐熟标准,水溶性组分和半纤维素含量分别降低了38.6%和38.8%,纤维素和木质素含量在高温期分别降解了11.7%和18.5%; 物料总量降低了9.8%。水溶性组分的主要降解阶段为高温期,期间降解部分占总降解量的65.5%; 半纤维素的主要降解阶段为稳定期,稳定期降解部分占总降解量的69.1%,且有继续降解的趋势; 纤维素和木质素仅在高温期有少量降解; 氮素则表现为高温期铵态氮的损失及稳定期硝态氮的积累。【结论】堆肥化处理在实现污泥减量化基础上,污泥中有机质得到了稳定化,有利于城市污泥的土地利用。  相似文献   

10.
菌酶共降解玉米秸秆的工艺研究   总被引:6,自引:1,他引:5  
陈合  张强 《农业工程学报》2008,24(3):270-273
该文研究玉米秸秆菌酶共降解工艺,利用黄孢原毛平革菌固体发酵去除部分木质素,再添加外源纤维素酶、木聚糖酶降解纤维素和半纤维素.黄孢原毛平革菌培养12 d时木素过氧化物酶(LiP)酶活达到最大值11.3 u/g,15d时漆酶(Lac)酶活达到最大值0.0992 u/g,秸秆降解集中在10~20 d,第25d时菌解结束,干基总损失率为18.94%;再经过6 d的酶解,纤维素、半纤维素的相对含量分别从27.1%、20.3%下降到13.1%、11.9%.玉米秸秆经菌酶共降解,木质素、纤维素、半纤维素的降解率分别达到67.0%、60.4%、33.0%,每克秸秆还原糖含量达0.507 g.结果表明,菌酶共降解为玉米秸秆的生物利用提供了一种新方法.  相似文献   

11.
新疆棉花秸秆产量巨大,但是棉花秸秆的木质素和纤维素含量较高,不易被分解,很难作为饲料利用。本文研究了棉花秸秆在不同条件(土壤水分、棉花机械长度)处理下的分解速率。从土壤水分条件来看,棉花秸秆在50%土壤饱和含水量下的分解最为理想,其分解率在100 d后达到54.08%;从棉花秸秆粉碎程度来看,棉花秸秆粉碎越细越有利于其分解,但是3 cm处理100 d后分解率为54.12%,而1 cm处理100 d后分解率只有47.42%,说明棉花秸秆分解需要一定的孔隙度。另外,棉花秸秆分解之后对土壤肥力也有很大影响。此次试验结果可为推广大田试验提供科学依据。  相似文献   

12.
玉米秸秆蒸汽爆破用于厌氧发酵的技术评价   总被引:5,自引:3,他引:2  
蒸汽爆破可破坏木质纤维素结构,提高纤维素、半纤维素的转化利用率,是秸秆类物质利用的一种有效预处理方式。作者研究了玉米秸秆蒸汽爆破处理及其厌氧发酵过程中的能量平衡关系,结果表明相同维压时间下蒸汽爆破处理后玉米秸秆厌氧发酵过程中的能源转化率随着压力增大而增大,而在相同压力条件下均在90 s维压时间时得到最大能源转化率。玉米秸秆蒸汽爆破后在常温条件下厌氧发酵的最小和最大能源转化率分别为8.39%和11.68%,是对照组的1.38倍和1.92倍。但对蒸汽爆破玉米秸秆厌氧发酵的增量效益-费用比分析表明,因玉米秸秆蒸汽爆破处理而引起厌氧发酵产气量增加所形成产气的能量增加量小于蒸汽爆破处理所消耗的能量,从能量转换角度来说蒸汽爆破并不是玉米秸秆厌氧发酵的最经济处理方式。  相似文献   

13.
NaOH处理玉米秸秆厌氧生物气化试验研究   总被引:30,自引:2,他引:28       下载免费PDF全文
提出通过NaOH化学处理以改善玉米秸秆的可生物消化性能、提高玉米秸秆厌氧消化产气量的方法。NaOH添加量为玉米秸秆干物质的8%。对未处理和经NaOH处理的玉米秸秆进行了厌氧消化对比试验研究,厌氧消化负荷率为35,50,65和80 g/L。分析并比较了两者在不同负荷率下的日产气量、累积产气量、单位TS和VS产气量等。结果显示,与未处理玉米秸相比,NaOH处理过的玉米秸的干物质消化率和产气量明显提高,在35,50,65,80 g/L负荷率下,产气量分别提高了13.1%,39.8%,48.3%和47.8%,单位TS、VS的产气率分别提高了13.1%~48.3%、23%~61.3%;两种玉米秸分别在35和65 g/L负荷率下获得了最高单位TS产气量。NaOH化学处理使玉米秸细胞壁结构和化学成分发生了明显的变化,分别有53.2%、46.9%和66.6%的木质素、纤维素和半纤维素被分解,其中1/2~2/3被转化成了易被厌氧菌利用的可溶性物质,这是产气量提高的主要原因之一。研究结果对提高玉米秸的产气效率、实现大规模应用具有重要指导意义。  相似文献   

14.
田红  廖正祝 《农业工程学报》2014,30(14):244-250
为了充分燃烧利用农业生物质与油页岩,采用热重-差示扫描量热(TG-DSC,thermogravimetric-differential scanning calorimetry)技术对玉米秸秆与油页岩混合燃料进行了热重试验,对其各燃烧特性与燃烧机理进行了分析并计算了燃烧动力学参数。结果表明,混烧试样的微分热重(DTG,differential thermogravimetric)曲线出现4个峰值,主要分别是半纤维素热解、纤维素热解、木质素和油页岩热解,以及油页岩焦炭燃烧和油页岩无机盐热解。在DTG曲线第1至第3峰之间出现DSC曲线放热峰,在DTG曲线第3峰至第4峰之间出现DSC曲线吸热峰,需要强化混合燃料的前期燃烧;玉米秸秆与油页岩的质量比例为4∶1时的混合燃料S2,其混烧的可燃特性、着火特性及综合燃烧特性指数均最大,燃尽时间最短,燃尽特性指数较大;在前3个温度区段,混合试样的活化能及频率因子均随温度区段的升高而降低,体现了活化能与频率因子变化的一致性;低温阶段与高温阶段反应级数分别约为1.5及0.7。研究结果可为生物质和油页岩的混烧利用提供参考。  相似文献   

15.
Litter quality is an important determinant of soil organic matter formation. Changes of organic components were investigated along decomposition of black locust (Robinia pseudoacacia L.) leaf litter and black pine (Pinus nigra Arn.) needle litter in the native adjacent coeval forest stands. To this purpose, data from proximate analyses were compared with those from CPMAS 13C NMR. Newly shed leaf litter of black locust had significantly higher concentrations of ADSS (acid detergent soluble substances) as well as lower concentrations of cellulose and AUR (acid unhydrolyzable residues that include lignin) and higher AUR-to-Cellulose ratio than that of black pine. The 13C CPMAS NMR spectra of newly shed leaf litter of black locust and black pine revealed that O-Alkyl-C components (including cellulose and hemicelluloses) accounted, respectively, for 53.8% and 61.4% of the total area of the spectra. All other C fractions were relatively more abundant in black locust than in black pine. Within individual sampling periods, relationships between residual litter mass and concentrations of ADSS, cellulose and AUR were examined, as were relationships between residual litter C and NMR fractions. Four periods were defined based on the slopes of the decomposition curve, with the length of period I defined by the start of a net decrease of AUR. Proximate analyses and NMR data showed changes in chemical composition over the decomposition process, as well as changes in decay rates of the residues, following different paths in the two litters. ADSS decayed faster in black locust litter; in contrast cellulose and AUR decayed faster in that of black pine. AUR concentration increased in both litters during decomposition; however, compared to black pine, the remaining litter of black locust was richer in AUR, despite the lower initial concentration, and had a higher AUR-to-Cellulose ratio. Phenol-C and Aryl-C decayed faster in black locust litter, while Alkyl-C decayed faster in that of black pine. In both litters, mass loss in periods was negatively correlated to concentration of AUR at the start of the periods. C loss in periods was negatively correlated to the concentration at the start of the periods of MC-to-PC (an index of lignin content) in black locust litter and positively correlated to Alkyl-C and O-Alkyl-C in that of black pine. Phenol-C, O-Alkyl-C and Aryl-C were the most decomposable C fractions in black locust. O-Alkyl-C and Alkyl-C were the most decomposable C fractions in black pine. Limit value was lower in black pine than in black locust. Consequently the different pattern of litter decomposition can affect the size of C sequestration in the forest floor and the quality of accumulated organic carbon.  相似文献   

16.
连续式秸秆发酵饲料制备机的研制与试验   总被引:2,自引:2,他引:0  
为解决目前秸秆饲料转化技术周期长、占用空间大等问题,基于优先分解部分半纤维素的体外发酵工艺,研制了一种适用于农作物秸秆的连续式秸秆发酵饲料制备机,以实现秸秆发酵饲料的快速高效生产。该文分别以玉米、水稻和小麦3种秸秆为原料、以木质纤维素分解菌复合系MC1为发酵剂,进行了周期为3d的、连续梯度发酵试验,对机器进行性能检测及相应的改进。通过试验发现以玉米秸秆为原料时,机器运行效果最佳。发酵3d后,玉米秸秆变得松散柔软,半纤维素少量分解,纤维素和木质素基本不分解。该机操作简单、使用方便,发酵过程中能耗低,周期短,可实现秸秆发酵饲料的连续批次生产,生产效率高。  相似文献   

17.
Decomposition processes in tropical semi-evergreen forests are still poorly understood. The influence of soil properties and litter quality on decomposition rate was studied in two semi-evergreen forests of Guadeloupe, a forest plantation and a secondary forest, located on different soils. Leaf litter of four tree species was enclosed in litterbags for a 14-month period. Non-linear correlations were calculated between mass loss and the concentration of major leaf components (soluble C, N, lignin, cellulose, tannins, total soluble phenols) in order to determine the best predictor of leaf litter decomposition. Soil physico-chemical properties and ratios between some of the above-mentioned litter quality parameters were also examined as mass loss predictors. In addition, non-linear correlations were calculated between mass loss and litter quality parameters, at successive periods. Litter quality was the main determinant of litter decomposition in the studied forests. Several litter quality parameters were correlated with leaf disappearance, varying according to stages of decomposition. Between 1 month and 2.5 months, the mass loss was correlated negatively with the initial phenol content and with initial lignin:N and (lignin+phenol):N ratios. From 2.5 to 5.5 months, the mass loss was correlated negatively with the initial phenol content and positively with the initial cellulose content. At later stages of decomposition (9-14 months), the mass loss was correlated negatively with the initial tannin content. Differences in soil characteristics and fauna did not seem to be enough to affect decomposition.  相似文献   

18.
Residue quality is a key factor governing biodegradation and the fate of C in soil. Most investigations of relationships existing between crop residue quality and soil decomposition have been based on determining the relative proportions of soluble, cellulose, hemicellulose and lignin components. However, cell wall cohesion is increased by tight interconnections between polysaccharides and lignin that involve cross-linking agents (phenolic acids). The aim of this study was to determine the role of lignin composition and phenolic acids on short- to medium-term decomposition of maize roots in soil. Sixteen maize genotypes, presenting a range of chemical characteristics related to root lignin and phenolic acids, were used. The main components were characterized by Van Soest (VS) extraction and cell wall acid hydrolysis, and the non-condensed Syringyl and Guaicyl lignin monomers, esterified phenolic acids and etherified phenolic acids were determined. Maize roots were then incubated in soil under controlled conditions (15 °C, −80 kPa moisture) for 796 days. Results showed that VS extraction over-estimated the structural hemicellulose content and that VS lignin was more recalcitrant than Klason lignin. The tremendous effect of cell wall chemical characteristics was shown by marked variations (almost two-fold differences in C mineralization), between the 16 maize roots. Decomposition was controlled by soluble residue components in the short term whereas lignin and the interconnections between cell wall polymers were important in the long-term. Notably the cell wall domain rich in non-condensed lignin and esterified phenolic acids was prone to decomposition whereas the presence of etherified ferulic acids seemed to hamper cell wall decomposition.  相似文献   

19.
The decomposition of perennial ryegrass straw was examined under mesophilic and thermophilic temperatures. Thermophilic conditions were used to define the composting process. The change in lipids, sugars, soluble polysaccharides, cellulose, and lignin was determined during a 45-day incubation. C, H, O, and N steadily decreased in both temperature treatments. The lignin content, as measured by the Klason or 72% H2SO4 method, decreased by 10% under mesophilic and 29% under thermophilic conditions. The Klason lignin C loss was 25 and 39% under mesophilic and thermophilic incubations, respectively. The changes in element (C, N, H, and O) ratios indicated that 94% of the lignin fraction was altered during both low- and high-temperature incubations. The changes in the lignin-like fraction as shown by elemental ratios were more extensive than those indicated by the Klason method, showing that this lignin determination has limited value in describing plant residue decomposition. The decomposition of the straw components and the concomitant degradation of the lignin fraction represent an important decomposition process that facilitates the composting of ryegrass straw with a high C:N ratio.  相似文献   

20.
四种含木质纤维素原料在牛粪液中的酸化   总被引:3,自引:1,他引:2  
为了有效转化木质纤维素原料,提高其资源化、能源化利用潜力,研究了干稻秸、玉米秸、草坪草、新鲜状态玉米秸和风干玉米秸这4种木质纤维素原料在牛粪液环境中的酸化发酵规律。监测发酵过程,以质量减少率分析了原料降解效率,以溶解性化学需氧量(soluble chemical oxygen demand,SCOD)评价酸化产物的积累。结果表明,4种原料在牛粪液中的降解效果明显,规律不同。草坪草的质量减少最快且最多,质量减少率为73.25%。稻秸在10d时与草坪草质量减少率均达到50%,总质量减少率为72.01%。鲜玉米秸在18d时质量减少率为68.36%,接近草坪草和稻秸,总质量减少率为71.64%。干玉米秸总质量减少率最低,为57.6%;木质纤维素总量的降解效率依次为:稻秸>草坪草>鲜玉米秸>干玉米秸。其成分中,各原料半纤维素的降解效率最好,其次为纤维素和木质素;干、鲜玉米秸产生有机酸种类和数量较多,稻秸、草、鲜玉米秸、干玉米秸的产生挥发性脂肪酸(volatile fatty acid,VFA)总量最大值依次为3.91、0.54、7.16、10.99g/L。将酸化产物作为厌氧发酵原料角度分析,稻秸和草坪草在酸化过程中可实现SCOD积累,对厌氧发酵有利,而干、鲜玉米秸的酸化作用对厌氧发酵不利。  相似文献   

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