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1.
四川西部川西云杉人工林非同化器官营养元素含量与分布   总被引:9,自引:3,他引:6  
刘兴良  宿以明  刘世荣  马钦彦 《生态学报》2003,23(12):2573-2578
采用分层切割法取样 ,测定川西云杉人工林非同化器官营养元素含量。非同化器官 N、P、K、Ca、Mg含量具有显著差异 ,均呈现干皮 >枝 >根 >干的规律。随枝条年龄的增加 ,枝条中 N、P、K含量随之降低 ,Ca增加 ,Mg变化不明显。随树高度的增加 ,冠层枝、干、树皮 N、K呈增加趋势 ,且均呈显著直线相关 ,Ca显著降低 ,P、Mg变化不明显。随林木根径的增加 ,根系营养元素含量均呈降低的趋势。32年生川西云杉个体生物量和营养元素积累量分别为 31 .1 61 kg和 2 68.693g,其中根、干、皮、枝和叶生物量分别占总生物量的1 4.82 %、42 .2 3%、9.98%、1 9.69%和 1 3.2 0 % ,营养元素积累量分别占总量的 8.33%、1 6.93%、1 9.2 8%、2 6.2 6%和 2 9.2 0 % ;N、P、K、Ca、Mg积累量分别占总积累量的 34.71 %、8.75 %、2 5 .79%、2 7.2 6%和3.49%。  相似文献   

2.
锐齿栎森林生态系统主要营养元素的层次分布   总被引:3,自引:0,他引:3  
应用标准地 -标准木 -分层切割法和破坏性取样化学分析法 ,在林分器官、个体、群体和系统 4个水平上测定了秦岭锐齿栎林的生物量、营养含量和积累量。结果显示 :光合器官N、P、K和 Mg含量季节变化是从展叶到落叶逐渐下降 ,Ca则相反。枝内 N、P、K含量随枝径增加明显下降 ,Ca、Mg含量变化有所不同。树干木质部和树皮 N、P、K、Ca和 Mg含量与树干圆盘高度呈显著的正相关或正相关。根系 N、P、K、Ca和 Mg含量随根径的增加呈显著的降低趋势。 69年生锐齿栎林木生物量为 1 2 35.782 kg,营养积累量为 1 4.498kg,林木不同器官的生物量、营养含量和积累量存在较大的差异 ;叶和皮在林分营养积累和分配中具有重要意义。2 6年生锐齿栎林生态系统生物量为 1 95.7998t· hm- 2 ,营养总贮量达 390 .1 739t· hm- 2 (包括 0~ 60 cm土壤 ) ,土层占总量的 99.39% ,各层次营养积累量排序为 :土壤层 乔木层 枯枝落叶层 >灌木层 >草本层。 2 6年生锐齿栎林营养年吸收量、存留量和归还量分别为 334、374、1 38.870和 1 95.50 2 kg· hm- 2 ,且各元素的循环情况各不相同 ;林分平均归还率为0 .585,各元素的归还率不同 ,林分吸收的营养元素多一半归还予林地。  相似文献   

3.
 根据广西英罗港红树植物群落的演替过程, 研究了5个主要演替阶段红树植物群落优势种地上部分的7种元素 (N、P、K、Ca、Mg、Na、Cl)含量、群落元素积累量及其与土壤肥力的关系。结果表明:1)红树植物不同器官元素含量大小为:N、P、K均为花果>叶>枝>皮>干,Ca为皮>枝、叶>花果>干,Mg为花果>叶>皮>枝>干, Na、Cl为叶、花果>皮>枝>干;2)同一器官中各元素含量均以Cl、Na最多, 其次是N、Ca、K, 然后是Mg, 最少是P;3)随着进展演替, 红树植物群落优势种的N、P、K含量呈明显减少  相似文献   

4.
何斌  秦武明  余浩光  刘运华  覃林  覃永华 《生态学报》2007,27(12):5158-5167
对马占相思人工林6种营养元素(N、P、K、Ca、Mg、S)的含量、积累、分布和生物循环特点以及随林分年龄的变化趋势进行了研究.结果表明(1)林木不同组分营养元素含量的大小次序为树叶>干皮>活枝>枯枝或树根>干材;各组分和凋落物中营养元素含量以N最高,其次是Ca或K,然后是S和Mg,P最低;林地土壤中,以K的含量最高,其次是Ca、Mg、N和P,S最低;随林龄的增加,0~40cm土壤N、P和S含量呈增加趋势;(2)4年、7年生和11年生林分营养元素总积累量分别为1022.08、1997.08和2633.45 kg·hm-2,其中乔木层营养元素贮存量依次占73.64%、82.39% 和83.65%,林下植被层依次占13.74%、8.74%和6.20%,地表现存凋落物层依次占12.62%、8.87%和10.16%;乔木层以N积累量最大,占总贮存量的53.90%~60.07%,P最小,仅占0.90%~1.23%;(3)马占相思林中不同组分营养元素积累量的分配随林龄的增长发生变化,由4年生以树叶和树枝占主导,逐渐转移到7年生和11年生以干材和树皮为主导;(4)林分营养元素年积累量依次为7年生(235.06 kg·hm-2·a-1)>11年生(200.26 kg·hm-2·a-1)>4年生(188.16kg·hm-2·a-1);林木各组分营养元素年积累量总的变化趋势为树干>树叶>树枝>根系>树皮,同一组分各营养元素年积累量与各组分营养元素积累量变化顺序一致,即为N>Ca>K>S>M>P;(5)林分营养元素年吸收量分别为382.35、432.04 kg·hm-2·a-1和403.15 kg·hm-2·a-1,年归还量分别为194.19、196.98 kg·hm-2·a-1和202.89 kg·hm-2·a-1,营养元素的循环系数分别为0.51、0.46和0.50,利用系数为0.51、0.26和0.18,周转期为3.88、8.35和10.86.可见,马占相思人工林早期营养元素利用率低,归还速率较快,林分生长到近熟期(11a)时营养元素的周转期较长,但其归还速率仍然较快,有利于林地地力的恢复、维持和提高.  相似文献   

5.
何斌  秦武明  余浩光  刘运华  覃林  覃永华 《生态学报》2007,27(12):5158-5167
对马占相思人工林6种营养元素(N、P、K、Ca、Mg、S)的含量、积累、分布和生物循环特点以及随林分年龄的变化趋势进行了研究。结果表明:(1)林木不同组分营养元素含量的大小次序为树叶>干皮>活枝>枯枝或树根>干材;各组分和凋落物中营养元素含量以N最高,其次是Ca或K,然后是S和Mg,P最低;林地土壤中,以K的含量最高,其次是Ca、Mg、N和P,S最低;随林龄的增加,0~40cm土壤N、P和S含量呈增加趋势;(2)4年、7年生和11年生林分营养元素总积累量分别为1022.08、1997.08和2633.45 kg•hm-2,其中乔木层营养元素贮存量依次占73.64%、82.39% 和83.65%,林下植被层依次占13.74%、8.74%和620%,地表现存凋落物层依次占12.62%、8.87%和10.16%;乔木层以N积累量最大,占总贮存量的53.90%~60.07%,P最小,仅占0.90%~1.23%;(3)马占相思林中不同组分营养元素积累量的分配随林龄的增长发生变化,由4年生以树叶和树枝占主导,逐渐转移到7年生和11年生以干材和树皮为主导;(4)林分营养元素年积累量依次为7年生(235.06 kg•hm-2•a-1)>11年生(200.26 kg•hm-2•a-1)>4年生(188.16kg•hm-2•a-1);林木各组分营养元素年积累量总的变化趋势为:树干>树叶>树枝>根系>树皮,同一组分各营养元素年积累量与各组分营养元素积累量变化顺序一致,即为N>Ca>K>S>M>P;(5)林分营养元素年吸收量分别为382.35、432.04 kg•hm-2•a-1和403.15 kg•hm-2•a-1,年归还量分别为194.19、196.98 kg•hm-2•a-1和202.89 kg•hm-2•a-1,营养元素的循环系数分别为0.51、0.46和0.50,利用系数为0.51、0.26和0.18,周转期为3.88、8.35和10.86。可见,马占相思人工林早期营养元素利用率低,归还速率较快,林分生长到近熟期(11a)时营养元素的周转期较长,但其归还速率仍然较快,有利于林地地力的恢复、维持和提高。  相似文献   

6.
福建柏和杉木人工林营养元素积累与分配   总被引:3,自引:0,他引:3  
对福建三明33a生福建柏和杉木人工林群落营养元素积累和分配进行了研究,结果表明:福建柏和杉木人工林群落乔木层生物量分别为228.8thm-2和235.1thm-2,N、P、K、Ca和Mg等5种元素总积累量分别为1283kghm-2和1060kghm-2,乔木层和群落5种元素积累量的大小顺序均为:K>N>Ca>Mg>P,5种元素总积累量在乔木层各器官的分配量顺序分别为:干材>枝>根>干皮>叶>枯枝、干材>根>干皮>叶>枝>枯枝。福建柏的营养利用效率低于杉木。虽然两种人工林生态系统94%以上的营养元素储存在土壤中,但是土壤中植物容易利用的有效营养元素储量较低,其中有效P在土壤中的储量低于植物中的储量。福建柏和杉木人工林33 a生时乔木层5种营养元素总和的当年存留量分别为30.75kghm-2和16.53kghm-2。  相似文献   

7.
为了更好地指导干热河谷不同恢复模式下人工林经营过程中的养分管理以及造林模式的筛选,以元谋干热河谷10年生印楝和大叶相思为研究对象,对其纯林及混交林内N、P、K、Ca、Mg主要养分元素的积累、分配和循环进行研究.结果表明: 印楝纯林、大叶相思纯林及印楝+大叶相思混交林5种营养元素的总积累量分别为333.05、725.61和533.85 kg·hm-2,印楝纯林各器官养分积累量为枝>干>根>叶>皮,大叶相思纯林与混交林均为枝>干>叶>根>皮.印楝纯林内5种养分元素的积累量为Ca>K>N>Mg>P,大叶相思纯林与混交林一致,均为Ca>N>K>Mg>P.林分养分年存留量为62.72~162.19 kg·hm-2·a-1,总归还量为48.82~88.86 kg·hm-2·a-1,年吸收量为111.54~251.05 kg·hm-2·a-1,均以大叶相思纯林最高,其次是混交林,印楝纯林最低.林分对营养元素的利用系数为0.34~0.39,循环系数为0.35~0.44,周转期为6.54~8.17 a.印楝纯林内N和P的归还量小,循环速率低;大叶相思纯林内N和P的循环速率较大,有利于林地养分的维持;混交林内养分吸收量和归还量为印楝纯林的186.2%和167.2%,N、P和K的循环速率大于印楝纯林,Ca的周转期短于大叶相思纯林的50%.印楝和大叶相思混交种植有利于林地土壤肥力的恢复和生产力的维持.
  相似文献   

8.
不同竹龄雷竹中硅及其他营养元素吸收和积累特征   总被引:5,自引:0,他引:5  
在浙江省临安市的雷竹主产区,分别采集不同竹龄(1 ~4 a)和不同器官(叶、枝、秆)的雷竹样品,分析了Si和其他营养元素含量、吸收和积累特征,以及Si和其他营养元素之间的相互关系.结果表明:雷竹各器官中C含量的大小顺序为竹秆>竹枝>竹叶,Si、N、P、K、Ca、Mg、AI、Fe和Mn含量的大小顺序为竹叶>竹枝>竹秆.除Mn主要积累在竹叶中外,其他9种营养元素主要积累在1年生雷竹的秆中.3~4年生雷竹竹叶的Si平均含量为13.66g·kg-1.雷竹属于Si积累植物.随竹龄的增加,雷竹叶中的N、P、K和Mg含量减少,C、Al和Mn含量增加.雷竹对Si的吸收主要集中在第2年(57.1%),对N和K的吸收主要集中在前两年(67.7%~93.7%),此后N和K从植株体内流出,其流失量分别占总积累量的19.1%~39.1%.雷竹中Si与Ca、Al、Mn呈显著正相关,与N、P、K、Mg呈显著负相关.  相似文献   

9.
解瑞丽  周启星 《生态学杂志》2013,32(5):1347-1353
在浙江省临安市的雷竹主产区,分别采集不同竹龄(1~4 a)和不同器官(叶、枝、秆)的雷竹样品,分析了Si和其他营养元素含量、吸收和积累特征,以及Si和其他营养元素之间的相互关系.结果表明: 雷竹各器官中C含量的大小顺序为竹秆>竹枝>竹叶,Si、N、P、K、Ca、Mg、Al、Fe和Mn含量的大小顺序为竹叶>竹枝>竹秆.除Mn主要积累在竹叶中外,其他9种营养元素主要积累在1年生雷竹的秆中.3~4年生雷竹竹叶的Si平均含量为13.66 g · kg-1. 雷竹属于Si积累植物.随竹龄的增加,雷竹叶中的N、P、K和Mg含量减少,C、Al和Mn含量增加.雷竹对Si的吸收主要集中在第2年(57.1%),对N和K的吸收主要集中在前两年(67.7%~93.7%),此后N和K从植株体内流出,其流失量分别占总积累量的19.1%~39.1%.雷竹中Si与Ca、Al、Mn呈显著正相关,与N、P、K、Mg呈显著负相关.  相似文献   

10.
天津滨海盐渍土上几种植物的热值和元素含量及其相关性   总被引:22,自引:1,他引:21  
研究了天津开发区滨海防护圈9种植物的热值,灰分含量和元素含量以及他们之间的相关关系。结果表明:平均干重热值和去灰分热值都表现为乔木(18442.72J/g、19136.23J/g)>灌木(18138.18J/g、18701.295J/g)>多年生草本(15643.11J/g、18622.185J/g)>1年生草本(13119.33J/g、17907.91J/g)。具体数值随植物种和组分的不同而异。从植物的元素含量看,常量元素N、P、K在乔木的根、枝、皮中含量较干高;在灌木中N和P表现为根>枝,K则反之;而多年生草本地上部分和地下部分含量较接近,对于本研究区土壤主要盐分元素Na,Ca,Mg,Cl^-而言,乔木基本与常量元素N、P、K一致,仍是根、皮、枝含量高于干;灌木均为根<枝,与K一样,和N、P相反。多年生草本除大米草Ca含量外都是地上部分含量比地下部分高。植物碳含量总体上根的含量低于其他组分。植物的干重热值与碳含量呈极显著的正相关关系,与灰分含量及Na,Mg,Cl^-含量呈极显著的负相关关系,与Ca含量呈显著负相关关系,去灰分热值与碳含量和干重热值呈极显著的正相关关系。  相似文献   

11.
广东樟木头5种桉树的能量特征研究   总被引:3,自引:1,他引:2       下载免费PDF全文
对广东省东莞市樟木头林场5种6 a生巨桉(Eucalyptus grandis)、柳桉(E.saligna)、大花序桉(E.cloeziana)、粗皮桉(E.pellita)和托里桉(E.torelliana)的能量特征进行研究.结果表明:5种桉树不同组分的灰分含量和热值存在显著差异(P<0.01).灰分含量为0.16%-8.37%,其中巨桉、柳桉、粗皮桉和托里桉均是叶>皮>枝>根>干,而大花序桉为皮>叶>枝>根>干;各组分的干重热值为15.12-18.85 kJ g~(-1),均以叶最高、皮最低,巨桉与粗皮桉为叶>枝>干>根>皮;柳桉与托里桉为叶>干>枝>根>皮;大花序桉为叶>枝>根>干>皮;去灰分热值为16.37~19.87 kJ g~(-1),除粗皮桉为叶>枝>皮>干>根外,其它4种各组分的去灰分热值均与干重热值的变化趋势相同.5种桉树的平均干重热值和去灰分热值分别以巨桉、粗皮桉最高,但均以托里桉最低.  相似文献   

12.
鼎湖山南亚热带常绿阔叶林植物和土壤微量元素含量   总被引:2,自引:0,他引:2  
报道了鼎湖山南亚热带常绿阔叶林各层次植物和表层土壤(0~20 cm)四个微量元素(Cu、Fe、Mn和 Zn)的含量和分配格局。结果表明:(1)土壤有效Cu、Fe、Mn和Zn含量(mg/kg)平均值依次为0.72、140.85、 1.42和1.92;(2)所有植物叶片Cu、Fe、Mn和Zn元素含量(mg/kg)分别介于6.1~100.6、6.5~1027.5、46.3 ~1196.7和27.0~338.6,其中乔木层植物叶片微量元素含量(mg/kg)平均值表现为Mn(305.3)>Fe (259.3)>Zn(109.9)>Cu(19.3),而其它植物表现为Fe(586.4)>Mn(336.9)>Zn(141.4)>Cu(36.6);(3) 植物微量元素在各器官的分配格局随元素和植物所在的层次不同而异:乔木层植物Cu含量高低排序为干> 根>枝>叶>皮,Fe为根>皮>叶>枝>干;Mn为叶>皮>枝>根>干;Zn为叶>根>枝>皮>干;(4)在 群落垂直结构上,Fe元素含量表现为自上而下递增的趋势,而Cu、Mn和Zn含量规律不明显;(5)植物和土壤 的微量元素与微量元素间相关性均较差;(6)与亚热带其它森林相比,鼎湖山季风常绿阔叶林土壤Cu、Mn和 Zn含量较低,但乔木层植物因具有很强的吸收或富集能力而含量较高。  相似文献   

13.
Nutrient resorption from senescing tissues increases plant nutrient-use efficiency, and may be an adaptation to nutrient limitation. In some tree species, retranslocation of nutrients from sapwood during heartwood formation is a comparable process. We measured Ca, Mg and K concentrations in Atlantic white cedar (Chamaecyparis thyoides) stemwood samples taken from two swamps in the northeastern United States and compared them to soil mineral nutrient availability at each site. We found that Ca, Mg and K concentrations were 60–700% higher in sapwood than in the immediately adjacent heartwood, indicating retranslocation of these nutrients from senescing sapwood. Sapwood nutrient concentrations were similar between the two sites. However, nutrient concentrations in the heartwood differed significantly between the sites, as did the relative degree of Ca and Mg retranslocation from senescing sapwood. We found these differences between sites to be inversely related to significant differences in exchangeable Ca, Mg and K as well as Al concentrations in the soil. These findings suggest that the degree of nutrient retranslocation from senescing sapwood may be influenced by soil nutrient availability. This revised version was published online in July 2006 with corrections to the Cover Date.  相似文献   

14.
为克服杏生产中雌蕊败育现象、提高坐果率,该研究以甘肃省敦煌市的‘李光杏’盛果期不同树势(强势树、中庸树和弱势树)和不同类型结果枝(花束状果枝、短果枝、中果枝、长果枝)的花芽为试材,对其开花物候期及生物学特性进行调查,采用石蜡切片观察易发生败育时期(花芽分化初期、雌蕊分化期、花粉细胞期和花蕾膨大期)的花芽内部组织结构形态,同时测定各主要败育时期叶片可溶性糖、淀粉含量及矿质元素的变化。结果表明:(1)弱树花芽的平均败育率最高(91.26%),中庸树最低(71.08%);不同类型结果枝中,花束状果枝花芽的败育率最低,长果枝的败育率最高。(2)不同结果枝类型的花粉生活力表现为花束状果枝>短果枝>中果枝>长果枝,花粉发芽率表现为短果枝>花束状果枝>中果枝>长果枝。各花型花粉生活力表现为雌蕊高于雄蕊>雌雄等长>雌蕊低于雄蕊>无雌蕊,发芽率的表现为雌雄等长>雌蕊高于雄蕊>雌蕊低于雄蕊>无雌蕊。(3)各树势花芽雌蕊分化期叶片可溶性糖与淀粉含量显著低于其他时期;叶片P、K、Ca含量在分化前期较高,但是雌蕊、雄蕊分化期显著下降。(4)与正常花相比,败育花主要表现为子房发育异常,多数生长点不均匀,子房萎缩,胚珠原基发育停滞;雌蕊的花柱低于花丝,且花粉粒急剧减少。研究发现,‘李光杏’树势的强弱会造成败育花比例和坐果率的差异,并以中庸树果实坐果率最高,且花败育率最低;雌蕊发育是否正常直接关系到‘李光杏’正常开花,雌蕊的发育受阻,最终成为整个花芽退化的主要形式;叶片碳水化合物和矿质元素等营养物质参与并保证了花器官的正常发育。  相似文献   

15.
Aims   总被引:2,自引:0,他引:2       下载免费PDF全文
倒木是高寒森林生态系统重要的碳(C)库和养分库,其不同分解阶段的质量变化,是认识倒木分解过程中C和养分释放的重要基础。以一个分解序列的岷江冷杉(Abies faxoniana)倒木为研究对象,研究了心材、边材和树皮在5个分解阶段的C:N:P化学计量特征,以及木质素和纤维素含量动态。结果显示:I至III分解阶段,随着分解程度加深,树皮C含量升高,而心材和边材C含量降低,从IV分解阶段开始倒木各组分C含量均开始显著降低。除III分解阶段的心材外,倒木各组分N含量总体表现为随着分解程度加深而增加的趋势,除边材N含量在V分解阶段时显著升高外,其余组分均未达到显著性水平。心材和树皮P含量表现为先降后升的变化趋势,最小值分别出现在III和II分解阶段;边材P含量表现为随着分解程度加深而增加。在同一分解阶段,树皮相对于边材和心材均具有最低的C:N:P化学计量比,易分解比例Fm也表明树皮更易于分解。边材在I和II分解阶段的C:N:P化学计量比最高,心材在III到V分解阶段C:N:P化学计量比最高。心材C:P、树皮和边材的C:N和C:P临界值与N和P的初始值成反比。纤维素含量随着倒木分解而降低,不同分解阶段的纤维素含量表现为:心材>边材>树皮;但木质素含量随着分解程度加深而增加,表现为:树皮>边材>心材;倒木3个组分纤维素含量下降均快于木质素,此外,IV和V分解阶段的树皮木质素与纤维素比值显著增高,且一直处于较高水平。统计分析结果表明:倒木N含量显著影响不同分解阶段木质素和纤维素分解。由生态化学计量学理论推测:树皮分解前期易受N限制,整个分解阶段均易受P限制,心材和边材在整个分解阶段均易受N和P限制。  相似文献   

16.
Nitrogen, phosphorus, potassium, calcium, and magnesium concentrations in woody tissue are poorly documented, but are necessary for understanding whole-tree nutrient use and storage. Here, we report how wood macronutrient concentrations vary radially and along the length of a tree for 10 tropical tree species in Sabah, Malaysia. Bark nutrient concentrations were consistently high: 2.9–13.7 times greater than heartwood depending on the nutrient. In contrast, within the wood both the radial (sapwood vs. heartwood) and vertical (trunk bottom vs. trunk middle) variation was modest. Higher concentrations in sapwood relative to heartwood provide empirical support for wood nutrient resorption during sapwood senescence. Dipterocarp species showed resorption rates of 25.3 ± 7.1% (nitrogen), 62.7 ± 11.9% (phosphorus), and 56.2 ± 12.5% (potassium), respectively, while non-dipterocarp species showed no evidence of nutrient resorption in wood. This suggests that while dipterocarps have lower wood nutrient concentrations, this family is able to compensate for this by using wood nutrient resorption as an efficient nutrient conservation mechanism. In contrast to other nutrients, calcium and magnesium tended to accumulate in heartwood. Wood density (WD) showed little vertical variation along the trunk. Across the species (WD range of 0.33 to 0.94 mg/cm3), WD was negatively correlated with wood P and K concentration and positively correlated with wood Ca concentration. As our study showed exceptionally high nutrient concentrations in the bark, debarking and leaving the bark of the harvested trees on site during logging operations could substantially contribute to maintaining nutrients within forest ecosystems.  相似文献   

17.
Summary The distributions of reserve carbohydrates and of three dominant heartwood extractives were determined in the trunkwood of Robinia pseudoacacia L. The trees were cut at different times of the year (September, November, January, and April). With the exception of the tree felled in January, all trunks exhibited highest contents of nonstructural storage carbohydrates (glucose, fructose, sucrose, and starch) in the youngest, outermost sapwood zone. With increasing depth of the trunk, the levels of carbohydrates decreased. At the sapwood-heartwood transition zone, only trace amounts of nonstructural carbohydrates were present. The heartwood itself contained no storage material. The wood zones of different ages of the trees cut in September, November, and January exhibited glucose/fructose ratios of approximately 1. In April, however, there was a shift to glucose. In the youngest sapwood the amounts of soluble sugars were higher in the earlythan in the latewood. Older zones of the sapwood and the sap-wood-heartwood transition zone showed the opposite behaviour. Three main wood extractives of Robinia were characterized and quantified: the flavanonol dihydrorobinetin (DHR), the flavonol robinetin (ROB) and a hydroxycinnamic acid derivative (HCA). Only DHR was present — in very low amounts — in the younger sapwood of all trunks investigated. Higher amounts (>1 mol/g dry weight) of this compound and the HCA were present in the sapwood-heartwood transition zone. DHR augmented within the heartwood up to a more or less constant level. HCA increased towards the heartwood and decreased again in the inner heartwood parts. ROB appeared in the innermost parts of the sapwood-heartwood transition zone and reached maximum values in older parts of the heart-wood. The results indicate that starch is hydrolyzed at the sapwood-heartwood boundary and thus represents a primary major source of hydroxycinnamic acid and flavonoid synthesis.Dedicated to Prof. Meinhart H. Zenk on the occasion of his 60th birthday  相似文献   

18.
《植物生态学报》2016,40(12):1276
AimsLog is an important component for most of forest ecosystems. It plays crucial roles in maintaining soil fertility, sustaining biodiversity and cycling of carbon (C) and nutrient. However, physico-chemical properties of logs vary with decay classes and diameter classes. Our objective was to study effects of decay classes and diameter classes on physico-chemical properties of logs in a typical mixed broadleaved-Korean pine forest in northern China.MethodsIn this study, logs of Pinus koraiensis were chosen as it was the constructive species in the typical mixed broadleaved-Korean pine forest. Logs of P. koraiensis at each decay classes (I-V) were divided into four diameter classes, including diameter class i ≤ 10.0 cm, diameter class ii: 10.1-30.0 cm, diameter class iii: 30.1-50.0 cm, and diameter class iv > 50.0 cm. Then, we explored effects of different decay classes, diameter classes and their interactions on the physico-chemical properties of logs for both the heartwood and sapwood.Important findings The results showed that the physico-chemical properties of heartwood and sapwood generally exhibited similar variations. Their moisture content both increased with an increasing decay class, whereas wood density both decreased with an increased decay class and diameter class. The carbon concentrations of the sapwood showed a trend of gradual increasing during decomposition, and there was an accumulation in nitrogen (N) and phosphorus (P) concentrations of the heartwood and sapwood with an increased decay class, simultaneously. Only N and P concentrations of the heartwood increased and then decreased with an increasing diameter class. The cellulose content decreased with an increasing decay class. In contrast to the cellulose, the lignin content increased with an increased decay class. However, cellulose and lignin contents exhibited no distinct trend among diameter classes. The moisture content of logs had a significant positive correlation with C, N, P concentrations and lignin content (except P concentrations of the heartwood), but had a significant negative correlation with the cellulose content (p< 0.05). The wood density was negatively correlated with C, N, P concentrations and the lignin content, but it was positively correlated with the cellulose content (p< 0.05). Therefore, physico-chemical properties of logs had unique patterns along both decay classes and diameter classes, and the physical properties of logs (the moisture content and wood density) were important factor affecting the variations of their chemical contents.  相似文献   

19.
The heartwood of radiata pine (Pinus radiata D. Don) is not favoured commercially because of its darker appearance, unreliable durability and difficulty to treat chemically; consequently, light-coloured sapwood, which is more easily treated with decay-resistant chemicals, is of more value. To decrease the amount of heartwood or increase sapwood cross-sectional area by genetic selection, the genetics of sapwood cross-sectional area (SWA), sapwood area percentage (SWAP) and number of heartwood rings (HWR) is of interest. We investigated genetic variation in these three variables from increment cores from trees from two trial series, each planted at two sites, from a total of some 330 families (189 were half-sib and 142 were full-sib) with 10 to 30 individuals assessed per family. Trials were assessed between 16 and 23 years old when all trees had started to develop heartwood. The three sapwood-related traits were moderately heritable across pairs of sites ( h ^ i 2 $ {\widehat{h}}_i^2 $ = 0.2 to 0.4) indicating opportunity for selection. SWA was strongly correlated (r a ?=?0.9) with diameter. SWAP and HWR were also strongly correlated (r a ?=??0.9). The number of HWR was independent of tree diameter, providing the opportunity through genetic selection to reduce heartwood area whilst increasing tree growth rate.  相似文献   

20.
The respiratory activity of distinct sapwood and heartwood annual rings of the stem of Robinia pseudoacacia L. has been investigated. The oxygen uptake and the carbon dioxide release in the inner parts of the sapwood is enhanced in comparison with that in the outer parts. The heartwood rings have no measureable gas exchange.  相似文献   

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