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1.
《资源与生态学报(英文版)》2020,(2)
Yabello牧场是埃塞俄比亚博拉纳的一个半干旱地区的牧场,目前面临着草场退化的严重挑战。植被覆盖的变化、过度放牧和季节性变化极大地影响了Yabello牧场的牧草组成和生物量。本文评估了植被覆盖、放牧和季节对Yabello牧场的牧草组成和生物量的影响。首先采用1 m×1 m的随机样方进行实验,根据植被覆盖类型和放牧变化选择样点,并对季节影响进行评估。使用SAS统计软件和MicrosoftExcel分析牧草组成、牧草高度和质量数据。本研究总共记录了26种草种,其中Chloris roxburghiana, Chrysopogon aucheri和Chrysopogon aucheri草种均表现出最高的平均单种覆盖高度和生物量产量。因此,建议将这些草种用于研究区域退化草地的恢复。研究结果还表明,植被覆盖类型、放牧和季节变化是决定牧草种类组成、牧草高度和生物量产量的关键因素。最后,研究结论还认为控制灌木丛植被并平衡放牧水平的可持续管理对于该地区的可持续牧草生产和生物多样性保护至关重要。 相似文献
2.
由于气候和人为因素的影响,白蚁对Yabello牧场的入侵率不断增加。本研究旨在评估白蚁对牧场的影响以及在研究区域可能的管理措施。本文根据白蚁传播的程度选择Yabello区(Dida Tuyura,Danbal-Waccu和Arero等三个kebeles)进行调研,采用田野调查方法,将半结构化问卷应用于40个社区代表中,每个选定的kebele共有120名社区代表参加了访谈,获得了直接观察和非正式讨论的相关数据,以了解白蚁对牧场退化的影响及其变化趋势。根据收集的数据,对研究区白蚁入侵率的历史背景进行了评估。除了评估白蚁对牧草产品、建筑物和农作物产生的直接影响外,本文还讨论了环境和管理机制的联系。总体来说,Yabello牧场一直处于白蚁侵袭压力之下并且以惊人的速度增加。因此,为了尽量降低白蚁对牧场退化的影响,建议结合当地社区知识和科学管理系统采取适当的评价技术。 相似文献
3.
研究了科尔沁沙质草地放牧和封育下植被盖度、密度、丰富度与地上生物量关系的季节变化。结果表明:放牧和封育草地4月的植被盖度、丰富度和生物量均低于生长旺季8月,而4月植物密度要高于8月;封育草地生长季盖度高于放牧草地,6月和8月生物量高于放牧草地, 4月和6月植物密度则低于放牧草地。封育草地8月物种丰富度与生物量呈极显著的负线性关系(p<0.01);放牧草地植物密度与生物量4月表现出极显著的正线性关系(p<0.01)、8月为极显著的负线性关系(p<0.01)。放牧草地优势植物糙隐子草4月的密度和生物量呈极显著的正线性关系(p<0.01)、8月为极显著的负线性关系(p<0.01);黄蒿和狗尾草8月的密度和生物量均呈极显著的负线性关系(p<0.01);猪毛菜4月和6月的密度和生物量呈极显著的正线性关系(p<0.01)。封育草地达乌里胡枝子、猪毛菜8月的植物密度和生物量呈极显著的正线性关系(p<0.01)。持续放牧和季节变化及其二者的交互作用对植被盖度、密度和生物量均有重要的影响(p<0.05);放牧通过影响草地生长季中的优势植物密度变化和生物量积累,引起了草地植物密度和生物量关系的季节变化,也导致生长季物种丰富度和生物量无显著关系;封育草地植物的竞争导致了物种丰富度和生物量关系的季节变化。 相似文献
4.
科尔沁沙质草地植物群落的放牧退化及其自然恢复过程 总被引:6,自引:5,他引:1
为了了解不同放牧强度对我国北方沙质草地的影响及其封禁停牧后草地植被的自然恢复过程,我们于1992—2006年在科尔沁沙地开展了草地放牧和封育试验,分析研究了人类放牧活动对草地植被的影响,比较了不同程度退化草地恢复速度及其所受气候变化影响。研究结果表明:①在科尔沁沙地,随着放牧强度的增加,草地植被受放牧影响的程度会加重,但只有持续重牧才会导致植被的严重退化,而且持续重牧对植被盖度、高度和草地生产力的危害程度要大于对物种丰富度和多样性的危害程度;中度放牧可以导致植被盖度、高度、生物量的轻度下降,但对物种丰富度、多样性没有不良影响;对于退化草地而言,持续轻牧可促进植被的有效恢复;②封禁停牧以后,草地原受干扰程度不同,其恢复的相对速度也不同,表现为原草地退化越严重,其恢复速度相对越快,而且是植被高度、盖度、生物量的恢复速度要大于物种丰富度、多样性和频度的恢复速度;③草地植被的恢复演替明显受到气候变化的影响,暖湿气候有利于植被的恢复,暖干气候对于植被的恢复不利。 相似文献
5.
比较分析了祁连山北坡高寒杂草类草甸夏季牧场牧压梯度下植被生物量季节动态及净初级生产碳量、现存碳量和地上地下碳量的分配关系。结果表明,牧压梯度下:1.地上生物量有一定的季节变化,但随放牧强度的增加季节变化幅度降低;枯落物量从生长期开始逐渐下降,生长末期有所增加,其中重牧和中牧条件下随时间进程比轻牧和封育措施下的减少量明显;地下生物量有不甚明显的季节变化;半腐殖质层生物量从生长季初期到放牧中期变化平稳,7月下旬开始有所下降,说明良好的水热条件影响下半腐殖质层生物量归还土壤碳的能力增大。2.净初级生产碳量大小依次是轻牧、中牧、重牧和封育,表明适当放牧对植被净初级生产碳量的提高有利,从其地下分配来看,封育所占比例小于80%,轻牧、重牧、中牧在80%以上。9月底测定结果表明,植被现存总碳量随放牧强度的降低而增大,轻牧和封育条件下植被的储碳能力强,利于土壤固碳能力的提高。 相似文献
6.
基于植被盖度和高度的不同退化程度高寒草地地上生物量估算 总被引:1,自引:0,他引:1
由于气候变化和不合理的人类活动,20世纪80年代以来青藏高原高寒草地发生严重退化。地上生物量是评价草地退化的直观指标。通常采用植被盖度和高度来估算草地地上生物量,但草地退化后,植被盖度和高度与地上生物量之间的关系是否会发生变化目前还不清楚,这影响着退化草地生物量估算的精度。通过多元回归分析研究了青藏高原中部和东北部高寒草甸、高寒草原在不同退化程度下植被盖度和高度与地上生物量的关系。结果表明:(1)高寒草甸与高寒草原地上生物量整体上及不同退化阶段都没有显著差异(P>0.05)。(2)随着退化程度的加剧植被盖度和高度对地上生物量的影响也发生改变,体现在未退化阶段地上生物量主要受植被高度影响,退化后主要受植被盖度影响。(3)无论是高寒草甸还是高寒草原分退化程度的回归模型估算结果都较不分退化程度模型估算的生物量更接近实测值。我们建议在退化高寒草地研究中采用盖度和高度估算生物量时,根据退化阶段采用不同的估算模型。 相似文献
7.
青海高寒草甸退化演替中的植被指数 总被引:2,自引:0,他引:2
随着气候变化和人为活动干扰,高寒草甸退化已成为青藏高原严重的生态环境问题,精准识别其退化程度并制定相应恢复策略,对实现高寒草甸可持续发展具有重要意义。目前,低空间分辨率MODIS数据为草地遥感监测的主要数据源,但难以满足景观破碎度或异质性较强地区的应用。本研究基于野外调查资料,利用多源遥感数据(MODIS、Landsat、Sentinel-2)研究不同空间分辨率归一化植被指数(NDVI)对高寒草甸退化演替的响应,为准确评估青藏高原高寒草甸退化程度提供依据。结果表明:(1)随着高寒草甸退化,植被群落优势种演化趋势为禾草—矮嵩草—小嵩草—杂草群落;植被高度和生物量先快速下降,然后缓慢下降或趋于稳定,植被覆盖度和NDVI的变化呈相反特征。(2)随着湿地草甸旱化,植被群落优势种从藏嵩草演变为矮嵩草或小嵩草,湿地旱化初期植被高度、生物量和覆盖度平均值略低于原生湿地,NDVI略大于原生湿地,差异不显著。(3)植被高度、覆盖度和生物量与Sentinel-2或Landsat的NDVI相关性均优于MODIS,说明Sentinel-2和Landsat的NDVI对高寒草甸退化演替过程更加敏感,采用该数据能更准确评估高寒草甸退化程度。 相似文献
8.
放牧对高寒草甸地表特征和土壤物理性状的影响 总被引:10,自引:1,他引:10
在中国科学院海北高寒草甸生态系统定位站地区,选择五种处于不同放牧强度的高寒草甸为研究对象,进行放牧对高寒草甸植被演替规律和土壤对放牧压力的响应过程研究,为合理利用和提高草地生产力提供科学依据。结果表明:随着放牧强度的增加,高寒草甸地上生物量呈急剧下降趋势,由禾草草甸的646.24 g/m2下降到小嵩草草甸的328.16 g/m2,容重逐渐减小;在小嵩草草甸阶段地表逐渐出现塌陷和裂缝,0~10 cm土层中根土体积比逐渐变大;土壤的质地类型发生变化,由禾草草甸粘壤土转变为壤质粘土;放牧强度对牧草返青开始时间和生长期都没有影响,但在重牧处理时,非生长季地温降低程度很明显。 相似文献
9.
放牧强度对科尔沁沙地沙质草地植被的影响 总被引:5,自引:3,他引:2
为了研究科尔沁沙地沙质草地在不同放牧强度下植被特征的变化规律,比较了围封、中度放牧、重度放牧3种条件下的植被盖度、群落组成、物种多样性、地上/地下生物量和凋落物量等植被特征的变化特征。结果表明:(1)围封、中度放牧和重度放牧沙质草地的优势植物均为一年生植物,但围封和中度放牧中多年生禾本科植物优势度高于重度放牧,重度放牧沙质草地一年生植物所占优势度最大;(2)放牧强度对沙质草地植被盖度、地上生物量及凋落物量有显著影响。随着放牧强度的增加,植被盖度、地上生物量和凋落物量均降低;(3)围封、中度放牧和重度放牧沙质草地物种丰富度及多样性差异均不显著;(4)放牧强度和土壤深度及其交互作用均能影响地下生物量。随着放牧强度的增加,总的地下根系生物量减小。而重度放牧草地中, 3个土壤深度间地下根系生物量差异不显著。放牧改变了沙质草地植物群落的组成、极大降低了植被盖度和生产力;尤其是重度放牧急剧增加了一年生植物的优势、且对浅层根分布的减少影响最大。 相似文献
10.
基于1998~2008年的SPOT-VGT数据,利用CVA、一元线性回归、Hurst指数等方法分析中国东部沿海植被覆盖变化特征及趋势,并编制植被覆盖退化特征图谱。研究表明:植被覆盖总体呈上升趋势,高变化和中变化区比例合计达26.23%;与此同时,退化区也大量分布;植被覆盖变化的自相似性和长程依赖性突出,区域尺度Hurst指数高达0.84,增长趋势可持续,像元尺度Hurst指数普遍较高,但空间格局比较复杂;未来植被覆盖趋于恶化的面积约占10.58%,三大都市圈及部分海岸带区域严重退化并将持续退化,众多中小城市周边中度退化并将持续退化。 相似文献
11.
内蒙伊盟牧场利用与沙漠化及其防治 总被引:1,自引:0,他引:1
本世纪七十年代以来, 沙漠化问题在世界范围内引起了广泛的注意。沙漠化对社会生产和人类的生活与生产是一个严重的威胁。内蒙古自治区伊克昭盟是一个沙漠化比较严重的地区, 迄一九七七年, 全盟流沙面积达27, 666平方公里, 比解放初扩大1.3倍。伊盟牧业在国民经济中比重很大, 牧区约占全盟面积72%。在沙漠化成因中, 牧场的利用不合理是一个主要的方面。因此, 研究牧场利用与土地沙漠化的关系, 总结牧民合理利用牧场的经验, 并提出防治沙漠化的途径, 对于解决这个地区的沙漠化问题, 是十分重要的。 相似文献
12.
How species diversity–productivity relationships respond to temporal dynamics and land use is still not clear in semi-arid grassland
ecosystems. We analyzed seasonal changes of the relationships between vegetation cover, plant density, species richness, and aboveground
biomass in grasslands under grazing and exclosure in the Horqin Sandy Land of northern China. Our results showed that in
grazed and fenced grassland, vegetation cover, richness, and biomass were lower in April than in August, whereas plant density
showed a reverse trend. Vegetation cover during the growing season and biomass in June and August were higher in fenced grassland
than in grazed grassland, whereas plant density in April and June was lower in fenced grassland than in grazed grassland. A negative
relationship between species richness and biomass was found in August in fenced grassland, and in grazed grassland the relationship
between plant density and biomass changed from positive in April to negative in August. The relationship between the density of the
dominant plant species and the total biomass also varied with seasonal changes and land use (grazing and exclosure). These results
suggest that long-term grazing, seasonal changes, and their interaction significantly influence vegetation cover, plant density, and biomass
in grasslands. Plant species competition in fenced grassland results in seasonal changes of the relationship between species richness
and biomass. Long-term grazing also affects seasonal changes of the density and biomass of dominant plant species, which further
affects the seasonal relationship between plant density and biomass in grasslands. Our study demonstrates the importance of temporal
dynamics and land use in understanding the relationship between species richness and ecosystem function. 相似文献
13.
The effect of intensive grazing and browsing of domestic stock and wildlife on the number of species and abundance of vegetation was investigated in the Hoanib River catchment, north-western Namibia. The seasonal abundance of ground cover, bare earth, canopy cover, annual grass, perennial grass and annual forbs were measured in each of the focus-study areas. In three of the focus areas where the ranges of both domestic stock and wildlife were restricted either by fencing or water availability, impact on the vegetation was greatest. The final focus area was a more ‘open range’ system that allowed for the free movement of wildlife. Under these conditions the species abundance and availability of browsing and grazing was greater than the other focus areas during both the wet and dry seasons. However, very little difference in abundance and availability of vegetation was observed between focus areas in both seasons regardless of landuse. There is generally a low abundance of perennial grasses and browse species affording the ecosystem little resistance and resilience to disturbance caused by grazing and drought. 相似文献
14.
Biomass production of different ecotypes within three ecological importantgrass species was determined during cultivation under uniform environmental conditions. Results obtained clearly indicate that ecotypes of these species exhibit a significant degree of variation with regard to biomass production. Furthermore, indications from this investigation are that no correlation exists between production ability of a species and long-term average rainfall, and the effect of both genetic and environmental factors on the production ability of a species determines the eventual biomass production of a species. Biomass production represents one of various ecologically important characteristics to be used in conjunction with other ecological characters to construct a usable, special purpose classification system. This system will assist rangeland ecologists in identifying functional ecotypes within grass species, thus facilitating the understanding and interpretation of vegetation dynamic models and rangeland condition assessments. 相似文献
15.
The infestation rate of termites in the Yabello rangeland, caused by both climatic and human factors, is of interest at certain times. This study was conducted in order to evaluate the impact of termites and determine appropriate management measures in the study area. Data was collected from three kebeles of the Yabello district (Dida Tuyura, Danbal-Waccu and Arero), the selection of which was dependent on the extent to which the termites had spread. A field survey method and semi-structured questionnaires were used for 40 community representatives from each of the selected kebeles. A total of 120 community representatives were interviewed and the interviews were supported by direct observations and informal discussions to understand the impact of termites on rangeland degradation, and to explain the trends. Historical background data of termite infestation rates in the study area was collected and evaluated .In addition to the direct impact caused by termites on forage products, buildings and crops, the linkages of termites with the environment and management mechanisms were identified. Yabello rangeland has often been under termite infestation stress and problems are increasing at an alarming rate. So in order to minimize the impact of termites on rangeland degradation identification of exact termite species and take appropriate management together with the community knowledge and scientific management system was recommended. 相似文献
16.
17.
Changes in soil nutrients, vegetation structure and herbaceous biomass in response to grazing in a semi-arid savanna of Ethiopia 总被引:1,自引:0,他引:1
The effect of grazing was studied on vegetation structure, herbaceous biomass, basal and bare ground covers, together with soil nutrient concentrations in two locations in an Ethiopian semi-arid savanna. The lightly grazed sites had significantly higher herbaceous diversity, total abundance, basal cover and aboveground biomass, and a lower percentage of bare ground compared with the heavy grazed sites. Grazing pressure had no effect on the density and number of woody species as well as on the proportion of encroaching woody species. The light grazing sites had higher organic carbon, phosphorus and exchangeable bases, and therefore a higher pH and higher electrical conductance, indicating an improved soil nutrient status compared with heavy grazing sites, mainly attributed to the higher basal cover and standing biomass at light grazed sites, and the export of nutrients through grazing and dung collection from the heavily grazed sites. There were significantly higher soil nutrients, species diversity, aboveground biomass and basal cover in the light grazing sites compared with heavy grazing sites. We concluded that changes in herbaceous vegetation, standing biomass and soil compositions are caused by interactions between grazing, soil and vegetation, and these interactions determine the transitions of semi-arid savannas. 相似文献
18.
Jorge Marcelo Gonnet 《Journal of Arid Environments》2001,48(4):569
Cattle grazing is an important disturbance in the Monte plain, reducing grass biomass and rates of fruit setting. Grass seeds are the most important food for granivorous birds (Emberizidae) during winter. The objective of this study was to test whether granivorous bird populations (Emberizidae), grass seed production, and vegetation structure differed at sites with different intensities of grazing. Emberizid density and species richness were higher in the ungrazed site than in the two grazed paddocks. Seed abundance was also higher in ungrazed vs. grazed sites. Woody vegetation, that serve as safe nest sites, did not differ among treatments. Granivorous bird populations seemed to be affected by cattle grazing; however, the main mechanisms of this process remain unknown. 相似文献