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1.
Shifting cultivation is often blamed for deforestation in tropical upland areas. Based on a case study of three villages in northern Lao PDR, this paper combines household surveys with a remote sensing based analysis of forest cover, covering the period 1989–1999, in order to analyse changes in shifting cultivation practices and livelihood strategies and the impact of these on deforestation. Due to population pressure and relocation of villages, easily accessed land is increasingly scarce and fallow periods have been shortened during the 1990s. A net annual deforestation of about 1% was found in the area during the study period. This deforestation rate reflects shorter fallow periods in secondary forests rather than encroachment on mature forests, which are not used for cultivation by the farmers in the three villages. Farmers rate scarce labour as a major constraint on shifting cultivation; nonetheless, a tendency towards lower labour input with shorter fallow periods is observed, contradicting conventional intensification theory. Livelihoods are diversifying through the establishment of plantations, cultivation of wet rice and adoption of animal husbandry, but given the socio-economic conditions in the area, shifting cultivation is likely to remain the most suitable farming system in the near future.  相似文献   

2.
This study aims to map forest cover in Peninsular Malaysia using satellite images as deforestation is of concern in the recent decades, and is an important environmental issue for the future too. The Carnegie Landsat Analysis System‐Lite (CLASlite) program was used in this study to detect forest cover in Peninsular Malaysia using Landsat satellite data. The results of the study show that CLASlite algorithm misclassified some oil palm, rubber and urban areas as forest vegetation. A reliable forest cover map was produced by first combining Landsat and ALOS PALSAR images to identify oil palm, rubber and urban areas, and then subsequently removing them. The HH and HV polarization data of ALOS PALSAR (threshold method) could detect oil palm plantations with 85.26 per cent of overall accuracy. For urban area detection, Enhance Build up Index (EBBI) using spectral bands from Landsat provided higher overall accuracy of 94 per cent. These methods produced a forest cover reading of 5 914 421 ha with an overall classification accuracy of 94.5 per cent. The forest cover (including rubber areas) detected in this study is 0.38 per cent higher than the percentage of 2010 forest cover detected by the Forestry Department of Peninsular Malaysia. The technique described in this paper presents an alternative and viable approach for updating forest cover maps in Malaysia.  相似文献   

3.
This paper focuses on the large‐scale land use and land cover changes that have taken place in Sarawak state, East Malaysia over the three decades of 1972‐2002. Results are presented from a detailed land use and cover change (LUCC) study in the Niah River catchment using satellite imagery, questionnaire surveys and interviews. Successive waves of land cover changes have taken place. Large forest areas have been logged and gradually replaced by oil palm plantations, which now occupy more than 40 per cent of the total land area in the catchment. Concurrently, small‐scale farming systems have also changed. Formerly dominant Iban shifting cultivation practices are increasingly being replaced by cash crop production on permanent fields and impacted by off‐farm activities involving many ethnic groups. It is argued that land cover changes are continuous and complex processes involving a large number of variables which can be analysed for different time periods at various scales.  相似文献   

4.
Over recent decades a structural transformation has affected agriculture in the frontier areas of Malaysian Borneo and Outer Island Indonesia with the rapid conversion of agricultural lands, fallows, and formerly forested areas into oil palm. These frontiers have similar positions in the international political economy of oil palm and have complementary resource endowments. In both cases, state planners face the common challenges of finding a disciplined labour force, delivering land for estate development, maintaining local legitimacy, and dealing with local contestation. Yet there are significant differences in systems of governance and policy frameworks regarding land, shifting capacity of state actors to facilitate the transformation of these agrarian frontiers, and changing degrees of local, national and international contestation. Considering the generic and the specific elements at play in each case, this paper argues that analogous policy narratives have shaped the ways in which landholders have been engaged in the process of oil palm expansion in Malaysia and Indonesia. In both cases, with the shift from state-led to neoliberal governance approaches to agricultural development, the 'frontier' has been created and transformed through policy narratives that facilitate the conversion of whole landscapes into oil palm. This has been achieved by obscuring indigenous forms of agriculture and land tenure, while creating reserves of available 'state' or 'idle' customary land, and counterpoising smallholder 'marginality' and 'backwardness' to the modernity of contemporary estate agriculture.  相似文献   

5.
2005-2013年中国新增造林植被生物量碳库固碳潜力分析   总被引:2,自引:2,他引:0  
廖亮林  周蕾  王绍强  汪小钦 《地理学报》2016,71(11):1939-1947
本文利用2005-2013年林业统计年鉴中每个省市新造林面积和遥感分类提取得到的2010年土地覆被类型,结合公开发表的各类森林生长方程和各个时期的森林存活率,估算了中国新造林在2005-2100年生物量碳库变化及其固碳潜力。结果表明:2005-2013年中国新造林面积达到4394×104 hm2,在自然生长状况下,到2020年新造林蓄积量增加16.8亿m3,生物量增加1.6 Pg,生物量碳库0.76 Pg C;新造林生物量碳库在2005-2100年中将增加2.11 Pg C,相当于目前现有森林生物量碳库的25%,约是过去20年森林总碳汇的1.5倍;新造林生物量碳密度逐年增加,最高达到48.1 Mg/hm2。整合林业统计年鉴以及遥感解译的森林类型对新造林生物量固碳潜力分析,研究表明新造林具有较大的碳汇潜力,对中国现有森林碳汇平衡有重要贡献。  相似文献   

6.
Agricultural mismanagement of irrigated drylands results in severe soil degradation. Afforestation is an option for ameliorating such degraded land. We evaluated the impact afforestation has on the topsoil (0-20 cm) of salinized degraded cropland in regards to salinity, aggregate stability, and soil organic carbon (SOC) stocks in Uzbekistan, Central Asia. The effects of tree plantations established under either furrow or drip irrigation were studied four years following afforestation and two years after irrigation ceased. For comparative study we also sampled fallow land, land with 80 years of tree growth, natural forest, desert ecosystems, and paddy rice fields. Initial furrow irrigation showed to be most effective in improving soil fertility after four years of afforestation; the respective plantations of Populus euphratica and Ulmus pumila showed significant levels of reduced soil salinity and increased aggregate stability and improved SOC stocks. The comparison of the long-term afforested land with the short-term equivalent suggested a C sequestration rate of 0.09-0.15 t C ha−1 year−1. The SOC stocks of the long-term afforestation site exceeded those of the native forest. Hence, a rehabilitation of salt-affected cropland is feasible following the conversion into occasionally irrigated tree plantations, although it takes decades to reach steady-state conditions.  相似文献   

7.
汪晓帆  戴尔阜  郑度  吴卓 《地理学报》2021,76(1):223-234
在优化森林结构的同时保障其木材生产功能和生态功能,实现森林可持续经营,如何采取科学、合理的森林管理措施越来越受到人们的关注。本文选取采伐年龄、采伐斑块大小、采伐频率、采伐面积比例作为变量,以江西省泰和县为研究区,设定多种强度和方式的森林管理方案,耦合生态过程模型(PnET-II)和景观模型(LANDIS-II)模拟初始年(2009年)起,未来100年森林面积和生物量的动态变化情况。研究发现:① 森林对不同采伐变量的响应差异明显,采伐年龄对森林面积影响较小,采伐斑块面积仅对生物量有影响,采伐频率对面积和生物量均有较大影响,采伐面积比例是采伐变量中对森林影响最大的变量; ② 每10 a以20%的采伐面积比例,5 hm 2的采伐斑块,采伐21 a以上的杉木、26 a以上的松林、41 a以上的阔叶树种的采伐情景能够保证有林地的生物量较初始年有所增加,有效地保障红壤丘陵区人工林在木材生产的同时保持一定的生态功能。  相似文献   

8.
Thinning represents an important and frequently used silvicultural technique that improves forest wood products and has obvious effects on forest carbon stocks and stock changes. Here, we used the carbon budget model CBM-CFS3 to simulate the effects of thinning on carbon storage and changes in larch forest ecosystems under thirteen thinning scenarios. Simulation results demonstrate that strong thinning greatly reduces the biomass carbon density of larch forests compared to non-thinning forests. The minimum and maximum average biomass carbon density, respectively, were 30.3 tC ha-1 and 47.8 tC ha-1, a difference of 58% under set scenarios in the simulated time scale. The dead organic matter (including soil) carbon density increased in all thinned larch forests stands, compared with non-thinning stands, and the pattern of variation was opposite to that found for biomass carbon density. However, the total ecosystem carbon density of larch forests declined with thinning because the increase in dead organic matter carbon is insufficient to offset the loss of biomass carbon caused by thinning. Thus, strong thinning can transform larch forest ecosystems from carbon sinks into carbon sources. Future work should consider the carbon sequestered in wood materials acquired via thinning and their use as substitutes for other construction materials with less favorable lifecycle carbon footprints, such as steel, cement, aluminum and PVC.  相似文献   

9.
基于FORCCHN的未来东北森林生态系统碳储量模拟   总被引:1,自引:0,他引:1  
以东北森林为研究对象,应用中国森林生态系统碳收支模型FORCCHN,模拟该区森林生态系统碳储量未来可能的时空变化。结果表明: 2003~2049年东北森林生态系统可能仍将具有明显碳汇功能,但强度呈下降趋势;土壤碳储量的变化趋势是从增长到饱和然后逐渐降低的过程,植被碳储量则基本上随时间变化呈逐渐增长趋势。空间上,该区土壤碳储量都有不同程度增加或降低,但植被碳储量都在不同程度的增加;土壤碳储量可能在植被碳储量之前得到饱和,因而东北森林生态系统碳吸收能力的降低主要是由土壤碳储量的减少造成的,而植被碳的增加将会在一定时间内减缓这一过程。  相似文献   

10.
Soil organic carbon (SOC) stocks in terrestrial ecosystems vary considerably with land use types. Grassland, forest, and cropland coexist in the agro-pastoral ecotone of Inner Mongolia, China. Using SOC data compiled from literature and field investigations, this study compared SOC stocks and their vertical distributions among three types of ecosystems. The results indicate that grassland had the largest SOC stock, which was 1.5- and 1.8-folds more than stocks in forest and cropland, respectively. Relative to the stock in 0–100 cm depth, grassland held more than 40% of its SOC stock in the upper 20 cm soil layer; forest and cropland both held over 30% of their respective SOC stocks in the upper 20 cm soil layer. SOC stocks in grazed grasslands were remarkably promoted after ≥20 years of grazing exclusion. Conservational cultivation substantially increased the SOC stocks in cropland, especially in the 0–40 cm depth. Stand ages, tree species, and forest types did not have obvious impacts on forest SOC stocks in the study area likely due to the younger stand ages. Our study implies that soil carbon loss should be taken into account during the implementation of ecological projects, such as reclamation and afforestation, in the arid and semi-arid regions of China.  相似文献   

11.
As the major component of terrestrial ecosystems, forests play an irreplaceable role in providing ecosystem services and products (e.g. biodiversity, carbon sequestration, water yield and timber). Spatially quantifying ecosystem services and interactions will shed light on sustainable forest management. Main forest ecosystem services including carbon storage, water yield, soil retention and wood volume in the Ganjiang River Basin (GRB) were evaluated and mapped through the integrated use of InVEST3.1.0, CASA modeling and ArcGIS10.2, and relationships between forest ecosystem services and natural or social-economic factors were quantified and discussed based on ArcGIS10.2 and SPSS19.0. Results showed that the spatial pattern of the four ecosystem services is heterogeneous. Forests dominated by broad-leaved forest and bamboo forest in mountainous regions around the GRB provided the largest carbon storage and wood volume services, while forests dominated by Masson pine plantations or Chinese fir plantations in the northeast provided the largest water yield service. The spatial pattern of the soil retention service is more discrete than others, and forests in the southwestern regions showed larger soil erosion modulus than in the northeastern regions. Ecosystem services are closely related to the environmental process and human activities. With altitude or slope increases, the carbon storage and wood volume of forests increased and water yield depth and soil retention decreased. When the regional total population decreased or GDP per capita increased, carbon storage and wood volume increased. Further research into the interactions between environmental factors and ecosystem services is needed in order to understand environmental constraints when dealing with ecological problems.  相似文献   

12.
细根(≤2 mm)在调节森林生态系统的生物地球化学循环中起着较为重要的作用,但目前对不同土层细根化学计量的认识非常有限.本研究在福建省三明陈大国有林场内对米槠次生林和杉木人工林不同土层细根养分含量特征进行了研究.结果显示:(1)杉木人工林0~10 cm、60~80 cm土层0~1 mm细根碳浓度显著高于米槠次生林,10...  相似文献   

13.
森林净初级生产力(NPP)反映了森林植被固定和转换光合产物的能力,表示了森林碳汇功能强度,也是评价森林植被的演替状况以及陆地生态系统承载力的主要指标。基于遥感、清查资料等方法估算NPP已经取得了一些进展,但传统的研究方法受限于观测(调查)年份,难以有效获取长时间尺度的区域森林种群或群落年际NPP。树轮资料较为有效地反映了历史时期森林植被的逐年生长状况,从而在估算高精度且长时间尺度区域森林种群及群落NPP中具有较大的优势。本文对利用树轮资料重建区域森林NPP的两种主要方法进行了总结,第一种方法主要是依据树轮资料提供的立木逐年生长量进行生物量以及NPP的估算;第二种方法则是利用树轮指数与其他植被指数的相关性间接反演过去时间段区域森林群落NPP的变化。上述两种估算NPP的方法均存在较多的限制性,未来利用树轮资料估算NPP的时空精度仍有待提高。  相似文献   

14.
This paper presents a study of land use and land cover dynamics in an indigenous community in the Amazon, in particular the methods used to deal with problems related to small size of cultivated plots, spectral similarity between land use classes, atmospheric haze and topographic shade. The main focus was on identifying and quantifying cultivated and fallow areas. Based on remote sensing alone, it was possible to identify about half of the fallows younger than 20 years of age. Combining remote sensing with field-based methods, however, it was possible to estimate the number and size of cultivated areas, the extent of fallows up to 65 years of age, as well as the rate of old-growth forest loss.  相似文献   

15.
对云南石林地质公园景区及其保护区内喀斯特山地典型森林类型凋落物组成与数量及其动态,地表死地被物现存量与持水特性等进行了研究。结果表明,本区域保护较好的滇青冈(Cyclobalanopsis glaucoides)林的年凋落量达7.26 t/hm2;而以团花木新姜子(Neolitsea homiantha)为主的次生林只有1.98 t/hm2;云南松(Pinus yun-nanensis)人工林和干香柏(Cupressus duclouxiana)人工林年凋落量分别是2.49 t/hm2和4.07 t/hm2。这些森林的凋落节律相似,都呈明显的“双峰型”。在地表死地被物现存量方面,干香柏林因其叶片难以分解而具有较高的地表现存量,为13.59 t/hm2,随后依次为滇青冈林(7.57 t/hm2),团花新木姜子次生林(5.02 t/hm2)和云南松人工林(4.83 t/hm2),死地被物的持水量与其现存量的大小顺序一致。根据森林年凋落量与死地被物现存量的数量关系,表明保护较好的滇青冈林内枯枝落叶的分解率明显大于次生林和人工林,周转期也短,涵养水分能力也较强。因此,应加强对喀斯特山地自然森林的保护,同时也注意对现有人工林的改造,引进一些阔叶树种,提高群落结构的整体效应。  相似文献   

16.
By studying the structural characteristics and carbon storage of the mangrove island ecosystem in the Beibu Gulf, this study provides a scientific basis for mangrove ecological compensation in the coastal areas of Guangxi, South China Sea. On the basis of the unmanned aerial vehicle remote sensing images and a sample plot survey, the object-oriented multi-scale segmentation algorithm is used to extract the mangrove community type information, and one-way analysis of variance is conducted to analyse the structural characteristics of the mangrove community. The carbon storage and carbon density of different mangrove ecosystems were obtained based on the allometric growth equation of mangrove plants. The analysis yielded four main results. (1) The island group covers about 27.10 ha, 41.32% (11.20 ha) of which represents mangrove areas. The mangrove forest is widely distributed in the tidal flats around the islands. (2) The main mangrove types were Aegiceras corniculatum, Kandelia obovata + Aegiceras corniculatum, Avicennia marina + Aegiceras corniculatum and Avicennia marina communities. (3) Amongst the mangrove plants, Avicennia marina had the highest biomass (18.52 kg plant-1), followed by Kandelia obovata (7.84 kg plant-1) and Aegiceras corniculatum (3.85 kg plant-1). (4) The mangrove carbon density difference was significant. Kandelia obovata had the highest carbon density (148.03 t ha-1), followed by Avicennia marina (104.79 t ha-1) and Aegiceras corniculatum (99.24 t ha-1). The carbon storage of the mangrove island ecosystem was 1194.70 t, which was higher than in other areas with the same latitude. The carbon sequestration capacity of the mangrove was relatively strong.  相似文献   

17.
20世纪80年代我国鄱阳湖流域实施造林再造林工程,该区域森林面积大幅增加。大规模植物造林可能极大地影响该区域森林碳库与碳收支的变化。因此,气候变化背景下鄱阳湖流域碳平衡对中国碳循环有重要的作用。但是我们对于该地区长时间尺度的碳平衡,特别是在未来气候变化和CO2浓度上升的条件下森林生态系统碳源/汇趋势的了解不多。本研究利用过程模型InTEC模型结合区域气候模式(RIEMS2.0)模拟的未来气候资料估算了鄱阳湖流域1981—2050年碳收支情况。1981—2000年,年NPP的快速增加主要归因于大规模的植树造林;森林土壤有机碳(0-30cm)在植树造林初期每年降低1%。同时该地区森林在过去20年期间从碳源转化为碳汇。2040—2050年森林总碳库相比较2001—2010年增加0.78PgC。基于气候变化和CO2浓度增加(A1B)背景下,鄱阳湖流域NEP趋向于稳定(20—30Tgcy^-1),除了少数年份因为干旱引发了大的碳汇损失。模拟结果同样表明水分是控制该地区NEP年际变化的主要因子而NPP的年际波动主要受到温度的影响。  相似文献   

18.
Land use/cover change (LUCC) is widely recognized as one of the most important driving forces of global carbon cycles. The influence of converting native forest into plantations, secondary forest, orchard and arable land on stores and quality of soil organic carbon (SOC) was investigated in mid-subtropical mountainous area of southern China. The results showed that LUCC had led to great decreases in SOC stocks and quality. Considerable SOC and light-fraction organic carbon (LFOC) had been stored in the native forest (142.2 t hm?2 and 14.8 t hm?2 respectively). When the native forest was converted to plantations, secondary forest, orchard and arable land, the SOC stocks decreased by 25.6%, 28.7%, 38.0%, 31.8% and 51.2%, respectively. The LFOC stocks decreased by 52.2% to 57.2% when the native forest was converted to woodland plantations and secondary forest, and by 82.1% to 84.2% when converted to economic plantation, orchard and arable land. After the conversion, the ratios of LFOC to SOC (0–60 cm) decreased from 13.3% to about 3.0% to 10.7%. The SOC and LFOC stored at the upper 20 cm were more sensitive to LUCC when compared to the subsurface soil layer. Also, the decline in carbon storage induced by LUCC was greater than the global average level, it could be explained by the vulnerable natural environment and special human management practices. Thus, it is wise to enhance soil carbon sequestration, mitigate elevated atmospheric co2 and develop ecological services by protecting vulnerable environment, restoring vegetation coverage, and afforesting in mountainous area in mid-subtropics.  相似文献   

19.
Tropical forests play a major role in storing large carbon stocks and regulating energy, and water fluxes, but such forest cover is decreasing rapidly in spite of the policy attention on reducing deforestation. High-resolution spatiotemporal maps are unavailable for the forests in majority of the tropical regions in Asia because of the persistent cloud cover and haze cover. Recent advances in radar remote sensing have provided weather-independent data of earth surface, thus offering an opportunity to monitor tropical forest change processes with relatively high spatiotemporal resolutions. In this research, we aim to examine the tropical deforestation process and develop a spatial model to simulate future forest patterns under various scenarios. Riau Province from central Sumatra of Indonesia is selected as the study area; this province has received much attention worldwide because the highest CO2 emission resulting from tropical deforestation has been recorded. Annual time series PALSAR data from 2007 to 2010 were analyzed for forest mapping and detecting land cover changes. A spatial model was calibrated using the Bayesian method. Modeling parameters were customized for the local subregions that allocate deforestation on the basis of their empirical relationships to physical and socioeconomic drivers. The model generated landscape spatial patterns mirrored the possible locations and extent of deforested areas by 2030 and provided time-series crucial information on forest landscape under various scenarios for future landscape management projects. The results suggested that the current deforestation process is in a critical stage where some subregions may face unprecedented stress on primary forest costing rivers and forest ecosystems by the end of 2020. The perspective views of Riau Province generated by the model highlighted the need for forest/environmental planning controls for the conservation of environmentally sensitive areas.  相似文献   

20.

Global warming with the burgeoning anthropogenic greenhouse gas (GHG) emissions (400 parts per million from 280 ppm CO2 emissions of pre-industrial era) has altered climate, eroding the ecosystem productivity and sustenance of water, affecting the livelihood of people. The anthropogenic activities such as burning fossil fuel, power generation, agriculture, industry, polluting water bodies and urban activities are responsible for increasing GHG footprint of which 72% constitute CO2. GHG footprint needs to be in balance with sequestration of carbon to sustain ecosystem functions. Forests are the major carbon sinks (about 45%) that aid in mitigating global warming. The current research focusses on the carbon budgeting through quantification of emissions and sinks in the forest ecosystems and changes in climatic conditions of Western Ghats. This would help in evolving appropriate mitigation strategies toward sustainable management of forests and mitigate impacts of global warming. The land-use land-cover (LULC) dynamics are the prime driver of climate change due to the loss of carbon sequestration potential as well as emissions. The Western Ghats are one among 36 global biodiversity hotspots and forests in this region sequester atmospheric carbon, which aid in moderating the global climate and sustaining water to ensure water and food security in the peninsular India. Assessment of LULC dynamics using temporal remote sensing data shows the decline of evergreen forest by 5% with an increase in agriculture, plantations and built-up area. The interior or intact forests have declined by 10%, and they are now confined to protected areas. The simulation of likely changes indicates that the region will have only 10% evergreen cover and 17% agriculture, 40% plantations and 5% built-up. Quantification of carbon reveals that the WG forest ecosystem holds 1.23 MGg (million gigagrams or Gt) in vegetation and soils. The annual incremental carbon is about 37,507.3 Gg, (or 37.5 million tons, Mt) and the highest in the forests of Karnataka part of WG. Simulation of the likely changes in carbon content indicates the loss of 0.23 MGg (2018–2031) carbon sequestration potential under business as usual scenario. The conservation scenario depicts an increase in carbon sequestration potential of WG forests with the protection. Sequestered carbon in WG is about INR 100 billion ($1.4 billion) at carbon trading of INR 2142 ($30) per tonne. Large-scale land-cover changes leading to deforestation has contributed to an increase in mean temperature by 0.5°C and decline in rainy days, which necessitates evolving prudent landscape management strategies involving all stakeholders for conservation of ecologically fragile WG. This will enhance the ability of forests to sequester atmospheric carbon and climate moderation, with the sustenance of ecosystem goods and services.

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