不同生境下伊犁绢蒿构件生物量特征的研究

以新疆天山北坡荒漠草地典型植物伊犁绢蒿为研究对象,利用多因素相关性分析,从构件水平对不同生境条件下伊犁绢蒿地上与地下生物量构件结构、地上与地下生物量生长规律进行研究,揭示气象因素、土壤因素与地上生物量和地下生物量的关系.结果表明:随着生境中水分和热量条件的改善,伊犁绢蒿构件生物量特征在察布查尔县和奇台县之间存在极显著差异(P＜0.01);地上生物量主要受年均积温、年均降水量、土壤速效养分的正向影响,土壤总盐与地上生物量呈负相关,而地下生物量受年均积温影响较大;不同生境下构件组分对地上和地下生物量的分配率相似,地上都是茎＞花＞叶,地下都是主根＞侧根＞须根;地上和地下生物量随着茎干重和主根干重的增加而增加,其生物量与茎干重和主根干重有相同的物质生产和积累规律.     

外来入侵植物牛膝菊种群构件生物量结构

牛膝菊原产南美洲,为沈阳地区爆发式入侵种．本文从构件水平研究了牛膝菊种群各构件生物量结构特征和各构件生物量间的关系模型,并进行了定量分析．结果表明,牛膝菊种群各构件生物量之间关系为茎〉叶〉花序〉根．各构件生物量在个体生物量中所占比率表现为茎〉叶〉根〉花序．牛膝菊种群茎生物量和叶生物量与植株高度、根生物量、花序生物量之间都呈显著的正相关关系,均可用幂函数模型较好地表达．     

古尔班通古特沙漠白茎绢蒿和准噶尔沙蒿种群多尺度多参数空间分布格局

以往种群空间格局的研究大多基于植株点位或株数(0维),极少针对植冠的投影盖度(2维)和生物量(3维,由植冠体积体现).目前对三者所体现的种群空间格局特征尚不清楚.本研究以古尔班通古特沙漠广布的小半灌木白茎绢蒿和准噶尔沙蒿种群为对象,测定每株的点位、投影盖度及地上生物量,通过GIS技术对坐标系进行6次尺度划分,利用聚集度分析、变异系数及其与尺度的幂函数关系,分析了3个参数的种群分布格局特征.结果表明: 在各尺度下,两种群的株数(白茎绢蒿0.5 m尺度除外)和生物量均为集群分布,聚集强度随尺度增加而增大;而投影盖度多为均匀分布(准噶尔沙蒿5 m和8 m尺度除外).随尺度增大,两种群各参数的变异系数均逐渐下降;株数的幂指数的绝对值(k值)高于投影盖度和生物量,且后两者无显著差异.白茎绢蒿各参数的k值均高于准噶尔沙蒿,可能与群落种间关系及个体大小有关.总之,株数和生物量的空间格局类型相似,而投影盖度和生物量具有近乎相同的格局复杂性和尺度变化特征.     

阿尔泰山两河源牧区草地群落生物量及物种多样性

群落生物量和物种多样性是表征草地生态系统数量特征的重要指标。该研究以新疆阿尔泰山南麓两河源放牧区草地为研究对象,利用样方法对两河源不同放牧区的草地植被进行调查,分析研究区生物量和物种多样性变化,探讨二者与环境因子之间的关联性,为草地群落物种保护以及草地可持续利用提供理论依据。结果表明：(1) 两河源不同牧区间群落盖度、高度、植株密度、地上生物量和单位盖度生物量存在差异。(2) 两河源牧区草地群落地上生物量与群落盖度、植株密度呈显著正相关关系(P<0.05),且地上生物量主要受草地群落盖度的影响;不同牧区的物种多样性指数有一定差异,但物种分布相对均匀。(3)两河源牧区草地群落生物量及物种多样性主要受气温和降水的影响。     

蒙古克氏针茅草原生物量围栏封育效应研究

以自由放牧为对照,采用收获法和土芯法研究了围栏禁牧对蒙古国退化克氏针茅草原地上、地下部生长的影响,结果表明:(1)与自由放牧相比,围栏禁牧提高了退化草原地上生物量,以及地带性草原群落优势种克氏针茅的地上生物量比例和重要值,促进了退化克氏针茅的正向恢复演替;(2)围栏禁牧区与自由放牧区草地地下生物量都随土层深度增加而降低、符合指数函数或幂函数减小规律,围栏禁牧区0~10 cm土层的根系生物量占地下生物量比例高于自由放牧区,10~20 cm土层的低于自由放牧区,根系有向上层土壤聚集的趋势,有利于在干旱地区对有限降水的有效利用;(3)围栏1~3 a禁牧区地下部累计生产力显著高于同期自由放牧区。围栏禁牧是蒙古国退化克氏针茅草原改良的一种措施,但其提高地下生产力和生物量的效应也不是无限制的。     

不同种源黄花蒿生长及生物量分配

对都安、崇左、阳朔和融安县四个不同种源黄花蒿的生长发育状况和生物量分配进行比较,结果表明:黄花蒿的生长旺盛期是在5月底至7月初,6月中旬为生长的高峰期,这段时期内应施以重肥;不同种源黄花蒿各功能构件生物量平均值具有相同的规律:茎构件>叶构件>根构件;都安种源的叶构件生物量和青蒿素含量均比其它种源的高,综合表现最优,是引种栽培的好种源。     

葎草种群自疏过程中幼苗构件性状及生物量分配变化

以雌雄异株攀援草本植物葎草为材料,通过每10 d测量1次,连续6次,测定幼苗期葎草种群的密度和高度、个体构件性状和生物量分配等参数,分析种群自疏过程中种群密度与个体构件性状及生物量分配的关系,研究葎草种群的自疏规律。结果表明:幼苗期葎草种群存在显著的自疏现象,种群密度60 d内下降了71%;幼苗期葎草由直立生长向横向生长时,种群密度和株高显著降低;自疏过程中存留植株的茎性状有显著变化,变化大小为节间长主茎长茎直径,节间长增加,叶性状变化大小为叶面积叶柄长叶厚叶宽叶长总叶数保留叶片数,根性状变化大小为总根长根体积根数根长最大根长;自疏过程中存留植株的构件生物量、单株生物量显著增加,而单位面积累积生物量呈阶段性下降;留存植株的地上生物量分配比相对稳定(P0.05),根茎比和叶茎比有极显著变化(P0.01);叶、茎、叶柄生物量与根生物量和地上生物量之间均呈极显著的异速关系(P0.01),茎随地上生物量增长呈等速生长,而叶、叶柄和根随地上生物量增长呈异速生长,地上生物量与叶、茎、叶柄及根生物量极显著相关(P0.01);茎生物量与密度的异速关系遵循最终产量恒定法则,叶、叶柄和根生物量并不满足-3/2或-4/3或-1自疏法则;地上和单株总生物量与密度极显著相关(P0.01),存留单株的地上生物量和总生物量与密度的异速关系遵循最终产量恒定法则。     

外来入侵植物牛膝菊种群构件生物量结构

牛膝菊原产南美洲,为沈阳地区爆发式入侵种.本文从构件水平研究了牛膝菊种群各构件生物量结构特征和各构件生物量间的关系模型,并进行了定量分析.结果表明,牛膝菊种群各构件生物量之间关系为茎＞叶＞花序＞根.各构件生物量在个体生物量中所占比率表现为茎＞叶＞根＞花序.牛膝菊种群茎生物量和叶生物量与植株高度、根生物量、花序生物量之间都呈显著的正相关关系,均可用幂函数模型较好地表达.     

南川木波罗幼苗构件生物量和叶片特征随年龄增长的变化

为深入了解南川木波罗构件种群生物量、比叶面积及叶干物质含量随苗龄叶龄的变化规律,以南川木波罗幼苗(1~5年生)为研究对象,分析其根、茎、叶等构件种群的生物量、SLA、LDMC差异及动态变化。结果表明:(1)单株生物量随着苗龄增加而增加,且差异达显著性水平;(2)各构件生物量增加的幅度不尽相同,其中枝条生物量增长幅度最大,5年生幼苗与2年生幼苗相比达477.23倍,其余构件生物量为主干叶根;(3)枝条和主干的生物量比率总体上呈上升趋势,所占根比率变动较小而叶逐渐下降。表明植物体对各构件生物量投资的不均衡性,主要偏向于枝和主干;(4)SLA随着苗龄的增加呈先上升后降低的趋势,且当年生叶大于1年生叶;幼苗叶片干物质含量(LDMC)随苗龄增加而增加,且1年生叶均高于当年生叶。     

外来入侵植物小飞蓬种群构件生物量结构特征

小飞蓬是我国分布最广的外来入侵物种之一,通过样方调查,从构件水平研究了小飞蓬各构件的结构特征及其生物量间的关系模型,并进行了定量分析。结果表明小飞蓬各构件生物量间的关系表现为茎>叶>根>花;各构件生物量在个体生物量中所占比率也表现为茎>叶>根>花;小飞蓬根、茎、叶生物量与植株高度及各构件生物量间均呈正相关关系。     

宁夏荒漠草原优势植物生长及生物量分配对放牧干扰的响应

于2011年植物生长旺季(8月)在围封禁牧(NG)、轻度放牧(LG)、中度放牧(MG)和重度放牧(HG)区分别随机选取荒漠草原优势植物甘草(Glycyrrhiza uralensis)和牛心朴子(Cynanchum komarovii)各15株为研究对象,对比分析其生长特征、各植物构件生物量及生物量资源分配差异对不同放牧强度的响应机制,为退化草原的恢复演替提供依据。结果表明:(1)甘草株高和地径、牛心朴子株高均随放牧强度的增加呈先升高后下降的趋势,而且均在轻度放牧条件下最高,重度放牧时则显著降低。(2)甘草和牛心朴子的总生物量、茎生物量和叶生物量随着放牧强度的增加呈先升高后降低的趋势,且不同放牧强度间差异显著;甘草和牛心朴子根系生物量随放牧强度的加强变化趋势不同。(3)甘草和牛心朴子生物量分配的总体格局为:根叶茎;随着放牧强度的增加,甘草根生物量比呈先升高后降低趋势,茎生物量比呈下降的趋势,叶生物量比呈上升趋势,而牛心朴子根生物量比呈先下降后升高的趋势,茎生物量和叶生物量呈先增加后下降的趋势。研究认为,不同放牧强度下两种植物形态可塑性和生物量分配格局的差异反映出植物生态适应策略的不同。     

Biomass structure of exotic invasive plant Galinsona parviflora

Galinsona parviflora (Asteraceae) is a widespread annual weed that is invasive, colonizing new ground where it is able to persist. We studied the biomass structure of the G. parviflora population at the module level by using the methods of field plot investigation and weighing at 10 sample plots. Modular biomass was calculated and used for analysis of relationships between various modules. The results show that there was a positive correlation between plant height and modular biomass, between stem biomass and root biomass, stem biomass and capitulum biomass, aboveground biomass and underground biomass, and lastly, stem biomass and leaf biomass. The preferred model which measured all the relationships was a power function model with absolute coefficients (R²) ranging from 0.6303 to 0.9782. __________ Translated from Chinese Journal of Applied Ecology, 2006, 17(12): 2283–2286 [译自: 应用生态学报]     

高寒草甸高原早熟禾个体性状对放牧与围封的响应

植物对放牧的响应是植物在响应过程中为生存和繁殖所形成的适应策略,研究植物表型反应对揭示草原生态系统的放牧响应机制具有重要意义。以青藏高原高寒草甸主要植物高原早熟禾(Poa alpigena)为研究对象,通过放牧和围封试验,研究其个体性状对放牧与围封的响应,旨在为草原生态系统放牧机制提供理论依据。结果表明:1)在长期放牧干扰下,除叶片数和根重外,其他性状株高、分枝数、叶长、叶宽、叶面积、茎粗、茎长、根长、根粗、穗长、总叶质量、单叶质量、茎重、穗重、全株重均出现显著变小的特征(P0.05);而短期围封对于高原早熟禾叶长、叶宽、总叶质量、单叶质量、茎重、穗重、根重等功能性状的恢复效果并不显著(P0.05),表明放牧退化草原植物性状具有保守性;2)通过构建高原早熟禾性状可塑性变化谱,发现穗重、茎重、全株重、分蘖数、茎长、株高等可塑性幅度较大,为放牧响应的敏感指标,叶片数、叶宽、茎粗、根粗的可塑性变化幅度较小,为惰性性状。     

载畜率对内蒙古荒漠草原冷蒿种群资源分配格局的影响

研究植物的资源分配格局以揭示其对环境变化的响应机制有重要的生态学意义。以内蒙古短花针茅(Stipa breviflora)草原冷蒿(Artemisia frigida)种群为研究对象,设置4个载畜率水平的随机区组试验,由冷蒿地上、地下及各构件生物量的变化入手,探讨了载畜率对该种群资源分配格局的影响规律,为退化草地的恢复及合理的放牧管理提供参考。结果表明:(1)冷蒿种群的高度随载畜率的增大而显著降低(P0.05),中度与重度放牧显著降低了该种群的盖度(P0.05),轻度放牧使该种群密度显著增加(P0.05);(2)地上、地下生物量及总生物量均随载畜率的增加而显著降低(P0.05),3a的年际效应及载畜率与年际的互作效应对总生物量、地上和地下生物量的影响差异均显著(P0.05);(3)生物量分配的总体格局是根茎叶花/果,且各构件的生物量均随着载畜率的增加而减少;(4)各构件的生物量分配比例对载畜率的响应不同,中度与重度放牧显著增大了生物量在根的分配(P0.05),茎的生物量分配在轻度放牧显著增加,重度放牧显著降低(P0.05),轻度与中度放牧显著促进了叶的生物量分配(P0.05),花/果的生物量分配随载畜率的增加而显著降低(P0.05);(5)随着载畜率的增大,冷蒿的有性繁殖能力减弱,而无性繁殖能力增强。     

Soil CO<Subscript><Emphasis Type="Bold">2</Emphasis></Subscript> efflux and fungal and bacterial biomass in a plantation and a secondary forest in wet tropics in Puerto Rico

We examined the effects of root and litter exclusion on the rate of soil CO₂ efflux and microbial biomass using trenching and tent separation techniques in a secondary forest (SF) and a pine (Pinus caribaea Morelet) plantation in the Luquillo Experimental Forest in Puerto Rico. Soil surface CO₂ efflux was measured using the alkali trap method at 12 randomly-distributed locations in each treatment (control, root exclusion, litter exclusion, and both root and litter exclusion) in the plantation and the SF, respectively. We measured soil CO₂ efflux every two months and collected soil samples at each sampling location in different seasons to determine microbial biomass from August 1996 to July 1997. We found that soil CO₂ efflux was significantly reduced in the litter and root exclusion plots (7-year litter and/or root exclusion) in both the secondary forest and the pine plantation compared with the control. The reduction of soil CO₂ efflux was 35.6% greater in the root exclusion plots than in the litter exclusion plots in the plantation, whereas a reversed pattern was found in the secondary forest. Microbial biomass was also reduced during the litter and root exclusion period. In the root exclusion plots, total fungal biomass averaged 31.4% and 65.2% lower than the control plots in the plantation and the secondary forest, respectively, while the total bacterial biomass was 24% and 8.3% lower than the control plots in the plantation and the secondary forest, respectively. In the litter exclusion treatment, total fungal biomass averaged 69.2% and 69.7% lower than the control plots in the plantation and the secondary forest, respectively, while the total bacterial biomass was 48% and 50.1% lower than the control plots in the plantation and the secondary forest, respectively. Soil CO₂ efflux was positively correlated with both fungal and bacterial biomass in both the plantation the secondary forest. The correlation between soil CO₂ efflux and active fungal biomass was significantly higher in the plantation than in the secondary forest. However, the correlation between the soil CO₂ efflux and both the active and total bacterial biomass was significantly higher in the secondary forest than in the plantation in the day season. In addition, we found soil CO₂ efflux was highly related to the strong interactions among root, fungal and bacterial biomass by multiple regression analysis (R² > 0.61, P < 0.05). Our results suggest that carbon input from aboveground litterfall and roots (root litter and exudates) is critical to the soil microbial community and ecosystem carbon cycling in the wet tropical forests.     

Plant height as a simple predictor of the root to shoot ratio: Evidence from alpine grasslands on the Tibetan Plateau

Question: Since increases in altitude and grazing intensity generally result in decreases in height growth of alpine grasslands, plant height may integrate effects of environmental stress and grazing disturbance and provide better assessments of the variation in root: shoot (R: S) biomass ratio than other variables. However, it is unclear if there is a general relationship between plant height and R:S ratio across grassland ecosystems. Such knowledge would be helpful for root biomass estimation in grasslands. Location: An altitudinal transect in the Gonghe Basin (2880–4040 m a.s.l.), northeast Tibetan plateau. Methods: We measured standing biomass both above‐ground and below‐ground, maximum plant height (MPH) and soil variables across 43 plots. Results: Climatic variables explained the variations in MPH and R: S ratio of undegraded grasslands better than soil variables (46–50% vs < 19%), while those of degraded grasslands generally showed insignificant correlations with climatic and soil variables. There was a general relationship between R: S ratio and MPH (negative, R²= 0.76, P< 0.001) across degraded and undegraded grasslands. The relationship was used to predict R: S ratio in 13 additional plots in steppe grasslands of Inner Mongolia, and good agreement of expected and observed values has been found (R²= 0.87, P < 0.001). Conclusions: MPH, that is relatively easy to measure, can be used to predict R:S ratio at plot to regional scales. It is promising to develop a new method for large‐scale estimation of root biomass in grasslands using MPH and shoot biomass avoiding tedious procedures of physical measuring of above and below‐ground biomass.     

放牧对内蒙古锡林河流域草地群落植物茎叶生物量资源分配的影响

以内蒙古锡林河流域沿水分梯度分布的灰脉苔草(Carex appendiculata)、贝加尔针茅(Stipa baicalensis)、羊草(Leymus chinensis)、大针茅(Stipa grandis)、小叶锦鸡儿(Caragana microphylla)和冷蒿(Artemisia frigida) 6个草地群落为对象, 研究了围封禁牧与放牧样地中144个共有植物种的高度、丛幅面积、茎、叶和株(丛)生物量、茎叶比等性状。结果表明: 1)在个体水平上, 放牧样地中植物的生殖枝高度、营养枝高度、丛幅面积、单株(丛)生物量、茎、叶生物量和茎叶比均显著低于围封禁牧样地, 植物在放牧干扰下表现出明显的小型化现象; 2)在群落水平上, 放牧亦显著降低了群落总生物量和茎、叶生物量; 3)过度放牧显著改变了物种的资源分配策略, 使生物量向叶的分配比例增加, 向茎的分配比例减少。资源优先向同化器官分配可能是植物对长期放牧干扰的一种重要适应对策; 4)轻度放牧对物种的资源分配没有显著影响, 单株(丛)生物量和群落茎、叶及总生物量均表现出增加趋势, 这与过度放牧的影响正好相反。过度放牧引起的植物个体小型化改变了生态系统中物种的资源分配策略, 进而对生态系统功能产生重要的影响。     

Biomass structure of exotic invasive plant Galinsona parviflora

Galinsona parviflora (Asteraceae) is a wide-spread annual weed that is invasive,colonizing new ground where it is able to persist.We studied the bio-mass structure of the G.Parviflora population at the module level by using the methods of field plot invest-igation and weighing at 10 sample plots.Modular bio-mass was calculated and used for analysis of relation-ships between various modules.The results show that there was a positive correlation between plant height and modular biomass,between stem biomass and root biomass,stem biomass and capitulum biomass,above-ground biomass and underground biomass,and lastly,stem biomass and leaf biomass.The preferred model which measured all the relationships was a power func-tion model with absolute coefficients(R2) ranging from 0.6303 to 0.9782.     

Soil and plant water relations in a crested wheatgrass pasture: response to spring grazing by cattle

Summary Few field studies have attempted to relate effects of actual livestock grazing on soil and plant water status. The present study was initiated to determine the effects of periodic defoliations by cattle during spring on soil moisture and plant water status in a crested wheatgrass (Agropyron cristatum (L.) Gaertn. and A. desertorum (Fisch. ex Link) Schult.) pasture in central Utah. Soil moisture in the top 130 cm of the soil profile was depleted more rapidly in ungrazed plots than in grazed plots during spring and early summer. Soil moisture depletion was more rapid in grazed plots in one paddock after 1 July due to differential regrowth, but there was no difference in soil water depletion between plots in another paddock during the same period. This difference in soil water depletion between paddocks was related to a difference in date of grazing. Although more water had been extracted from the 60 cm to 130 cm depths in ungrazed plots by late September, cumulative soil moisture depletion over the entire 193 cm profile was similar in grazed and ungrazed plots. Prior to 1 July, grazing had no effect on predawn leaf water potentials as estimated by a pressure chamber technique; however, after 1 July, predawn leaf water potentials were lower for ungrazed plants. Midday leaf water potentials were lower for grazed plants before 1 July, but did not differ between grazed and ungrazed plants after 1 July. A 4- to 8-day difference in date of defoliation did not affect either predawn or midday leaf water potentials. The observed differences in water use patterns during spring and early-summer may be important in influencing growth and competitive interactions in crested wheatgrass communities that are subject to grazing by domestic livestock.     

半干旱草地长期封育进程中针茅植物根系格局变化特征

以云雾山不同封育年限草地针茅植物根系和土壤为研究对象,对其根系特征、土壤特性及两者关系进行研究,以探讨分析封育对针茅根系格局的影响。结果表明:(1)针茅植物根系生物量、根长密度、根表面积和根体积在封育初期轻微下降,之后缓慢上升,并在封育30 a草地得到显著增加。(2)随封育年限增加,各根系指标在3种针茅物种间的组成格局具有类似变化规律,具体表现为:长芒草在放牧草地所占比例最高,之后逐渐降低,并在封育30 a草地消失;大针茅所占比例呈先升后降变化规律,并在封育22 a草地达到最大值;甘青针茅仅出现于封育30 a草地,且占据优势地位。(3)大针茅和甘青针茅0—0.6 mm径级根系比例高于大针茅,使其根系直径显著低于大针茅,比根长和比根面积显著高于大针茅;此外,长芒草根组织密度显著高于长芒草和甘青针茅。(4)长期封育在显著提高土壤水分、养分含量和土壤氮磷比的同时显著降低土壤碳氮比,但对微生物生物量碳、氮无明显影响。(5)针茅根系特征与土壤指标的关联性分析显示针茅根系受土壤氮资源的显著影响。