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MARK A. DAVIS PETER B. REICH† MARY J. B. KNOLL LEE DOOLEY MARJORIE HUNDTOFT INGRID ATTLESON 《Global Change Biology》2007,13(11):2308-2316
It has been hypothesized that elevated levels of atmospheric CO2 (eCO2) may facilitate the encroachment of woody plants into grasslands by reducing water stress. In east‐central Minnesota, sandy soils frequently create drought conditions for plants, and water limitation inhibits the establishment of oaks into old fields situated on these soils. Some have argued that eCO2 should slow secondary succession by favoring fast‐growing early successional species. However, if oak encroachment into old fields is being inhibited by water stress, then eCO2 could accelerate old‐field succession in this region. The purpose of this study was to test the hypothesis that eCO2 will increase the establishment success of oak seedlings in an old field environment. The study was conducted with CO2 levels controlled by free air CO2 enrichment (FACE). In May 1999, four oak (Quercus ellipsoidalis) acorns were planted in each of 24 plots in each of six experimental FACE rings (n= 576), three of which received elevated levels (550 ppm) of CO2. Half the plots in each ring were weeded during the first three summers of the experiment. In summer 2000, water input was manipulated during a 3.5‐week period, during which half the plots received regular watering while the other half received no water. Summer 2001 was dry, receiving 35% less rainfall than the mean level. Under hot and dry conditions, eCO2 increased soil water levels in unweeded plots and enhanced oak establishment (survival and growth) in weeded plots. In 2006, after the eighth growing season following planting, survival was five times greater under elevated than ambient CO2. The results showed that under hot and dry conditions, eCO2 can act like a nurse plant for tree seedlings growing in bare and unshaded areas, increasing seedling survival and growth, and thereby expanding the establishment window for trees encroaching into a grassland environment. 相似文献
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The ecological impact of bush encroachment on the yield of grasses in Borana rangeland ecosystem 总被引:1,自引:0,他引:1
Ayana Angassa 《African Journal of Ecology》2005,43(1):14-20
The ecological impact of woody encroachment and the responses of herbage yield to encroachment were assessed at three locations in Borana rangeland at the end of the growing season. The study was carried out in two communal grazing areas (Medhecho and Dubluk) and one Government ranch (Dida‐Tuyura) in bush and/or shrub encroached and non‐encroached sites. In each area, three altitude ranges were distinguished and in each altitude range one transect, covering both encroached and non‐encroached rangeland, was selected. The assessment was based on the yield and botanical composition of the herbaceous layer. The grasses Cenchrus ciliaris, Chrysopogon aucheri and Panicum coloratum were common or dominant in both encroached and non‐encroached sites. Pennisetum mezianum and Pennise‐tum stramineum were typically found in encroached vegetation. The relative yield increased with non‐encroached sites and varied at different altitude ranges from about 106% to about 150%, thus increases ranged from 75% in Medhecho to 350% in Dubluk as determined from the lower values of the ranges. The encroached vegetation had a significantly lower score for herbage yield than the non‐encroached vegetation for most of the sites, although the differences were small. Differences based on altitude range were also significant for Eragrostis papposa and Pennisetum stramineum, while the three areas showed a significant difference for the mean yield of Aristida adscensionis, Cenchrus ciliaris and Eragrostis papposa. 相似文献
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Habtamu Teka I.C. Madakadze Abubeker Hassen Ayana Angassa Mohammed Mussa 《African Journal of Ecology》2018,56(3):591-600
Evaluation of woody vegetation changes with distance from a salt crater was conducted in the semi‐arid rangelands of southern Ethiopia. Data on live woody plants were collected over three seasons at 0, 1, 4, 6, 9 and 12 km from the salt crater. The density and diversity of woody plants differed significantly (p < .01) along the distance gradient. Six woody plant families were identified of which Fabaceae and Burseraceae were the dominant families. Acacia drepanolobium, Acacia nilotica, Commiphora africana and Acacia mellifera were among the severely encroaching woody species. There were high proportions of seedlings and saplings recorded closer to the salt crater showing a vigorous recruitment by woody plants. Woody plant encroachment along the 12‐km transect ranged from a low to severe encroachment, which could be translated into poor rangeland condition. Changes in soil characteristics increased grazing pressure and sedentary settlement around the salt crater, and the breakdown of traditional institutions seems to be major contributing factors to these vegetation changes. We suggest that severely encroached areas could be improved through a combination of methods such as bush clearing, prescribed fire, browsing animals and proper grazing management. 相似文献
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Caleb P. Roberts;Jeffrey W. Doser;Lauren L. Berry;Allison Fowler;Percival M. Marshall;Christopher Middaugh;Karen Rowe;Jessica M. Schmit;Michael Shaw;Kenneth Wilson; 《Restoration Ecology》2024,32(1):e13998
Scenario planning is a powerful approach for assessing restoration outcomes under alternative futures. However, developing plausible scenarios remains daunting in complex systems like ecological communities. Here, we used Bayesian multispecies occupancy modeling to develop scenarios to assess woodland restoration outcomes in afforested communities in seven wildlife management areas in Arkansas, U.S.A. Our objectives were (1) to define plausible woodland restoration and afforestation scenarios by quantifying historic ranges of variation in mean tree cover and tree cover heterogeneity from 1986 to 2021 and (2) to predict changes in bird species richness and occupancy patterns for six species of greatest conservation need under two future scenarios: complete afforestation (100% tree cover) and woodland restoration (based on remotely sensed historic tree cover). Using 35 years of remotely sensed tree cover data and 6 years of bird monitoring data, we developed multispecies occupancy models to predict future bird species richness and occupancy under the complete afforestation and woodland restoration scenarios. Between 1986 and 2021, tree cover increased in all study areas—with one increasing 70%. Under the woodland restoration scenario, avian species richness increased up to 20%, and four of six species of greatest conservation need exhibited gains in occupancy probability. The complete afforestation scenario had negligible effects on richness and occupancy. Overall, we found decreasing tree cover to historic levels prior to widespread afforestation would provide community-level benefits and would do little harm even to forest-dependent species of conservation concern. Applying multispecies occupancy modeling within a scenario planning framework allows for comparing multiscale trade-offs between plausible futures. 相似文献
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Nancy Shackelford Sean M. Murray Joseph R. Bennett Patrick L. Lilley Brian M. Starzomski Rachel J. Standish 《Conservation Science and Practice》2019,1(10):e92
Ecosystem restoration is the practice of assisting recovery in degraded ecological communities. The aims of restoration are typically broad, involving the reinstatement of composition, structure, function, and resilience to disturbances. One common restoration tactic in degraded urban systems is to control invasive species, relying on passive restoration for further ecosystem-level recovery. Here, we test whether this is an effective restoration strategy in Garry oak savanna, a highly threatened and ecologically important community in the North American Pacific Northwest. In urban savanna patches surrounding Victoria, British Columbia, community members have been actively removing aggressive invasive exotic species for over a decade. Based on vegetation surveys from 2007, we tested ecosystem changes in structure, composition, and resilience (i.e., functional redundancy and response diversity) across 10 years of varied management levels. We expected higher levels of invasive species management would correspond with improvements to these ecosystem metrics. However, management explained little of the patterns found over the 10-year-period. Woody encroachment was a complicated process of native and exotic invasion, while resilience and compositional changes were most closely tied with landscape connectivity. Thus, though invasive species management may prevent further degradation, active restoration strategies after removal are likely required for recovery of the ecosystem. 相似文献
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木本植物扩张或灌丛化是全球性的生态环境问题。近年来青藏高原发生了大规模的木本植物扩张。然而木本植物在青藏高原扩张的时空分布特征及其对局地地表温度(LST)如何影响尚不清楚。基于MODIS土地覆盖产品识别出青藏高原木本植物扩张的空间分布,并利用移动窗口搜索法,探究其对生长季昼夜LST的影响规律及成因。结果表明,2001至2018年木本植物扩张的范围和程度均整体呈增加的趋势。在2018年,木本植物扩张使生长季白天LST降低(2.60±0.34)℃,夜间LST增加(0.94±0.22)℃,净效应使日均LST降低(0.83±0.24)℃。产生这种现象的原因是蒸散发增加((+13.46±6.65)mm/a)等引发的降温效应超过了以反照率减少(-0.031±0.003)为代表的增温效应。气候背景对该影响的空间分布具有相当的控制作用,即降水主导着白天LST的改变,但气温在夜间LST变化中占据更重要的地位。总体上,在气温越低、降水率越高、高程越低的地方发生的木本植物扩张更倾向于降低局地LST。与同一年中越湿润的地方越倾向于降温“相悖”的是,在不同的水文年,更干旱的年份对白天LST具有更强的降温作用,这... 相似文献
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James L. Heilman Marcy E. Litvak Kevin J. McInnes James F. Kjelgaard Ray H. Kamps Susanne Schwinning 《Ecohydrology》2014,7(1):127-138
Woody plants are encroaching into grasslands and savannas of the karst Edwards Plateau, but their impacts on climate and hydrology are unclear because of high variability in soil depth and uncertainties about the contribution of water in fractured limestone to the water available to trees. Water use is controlled by available energy (AE) and its partitioning between latent (λE) and sensible (H) heat fluxes. We hypothesized that the partitioning of AE depends on soil depth, with greater depth leading to more λE and less H. We compared energy fluxes of a deep soil savanna with ~50% woody cover dominated by Ashe juniper (Juniperus ashei) and a shallow soil woodland dominated by live oak (Quercus virginiana) and juniper over a 5‐year period, which included periods of unusually high rainfall and severe drought. Although AE was 7% higher in the woodland, λE was about 2% higher at the savanna over the 5‐year study. Site differences in evapotranspiration were maximal during dry periods between rainfall events, suggesting greater storage of water at the savanna site. During periods of high rainfall, the impact of water storage limitations was minimal, and site differences in evapotranspiration were controlled mainly by AE and its partitioning into H. Both sites were characterized by rapid reductions in λE and reciprocal increases in H during drying cycles following rainfall, indicating that neither of these ecosystems had access to easily utilized sources of deep water. Copyright © 2012 John Wiley & Sons, Ltd. 相似文献
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ANA E. De VILLALOBOS DANIEL V. PEL
EZ ROBERTO M. B
O MIRTA D. MAYOR OMAR R. ELIA 《Austral ecology》2007,32(5):581-591
Abstract The objective of this work was to evaluate postfire environmental effects on the emergence, survival and growth of Prosopis caldenia seedlings in relation to different controlled fire frequencies, seed scarification methods, and planting site. Seedling emergence was significantly higher in experimental units exposed twice and three times to controlled fire than in unburned experimental units. The highest average seedling survival was recorded with triple exposure to controlled fires. Emergence, survival and growth of seedlings from seeds exposed to acid scarification and 600°C for 5 min were higher in the burned experimental units than in the unburned ones. In the former, seedling survival was higher beneath a P. caldenia canopy than in an adjacent open site, though seedling emergence was similar in both planting sites. Our results suggest that postfire conditions characterized by a reduction in the vegetative cover and competition interference and an increase in soil temperatures and nutrients levels (e.g. nitrogen and phosphorus) may facilitate the establishment of P. caldenia seedlings in the Caldenal. 相似文献
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In drylands across the globe, grasslands and savannas have succumbed to encroachment by woody plants. There is a concern that, in some cases, these changes may lead to lower groundwater recharge and streamflow. In karst landscapes, the effect of woody plants on recharge is difficult to determine because of the shallow and rocky soils. In our study, we estimated the amount of water entering a shallow cave (3–5 m deep) as a surrogate measurement for groundwater recharge, to evaluate whether the removal of Ashe juniper (Juniperus ashei) above the cave would affect recharge. Three sets of large‐scale rainfall simulations were conducted in 2005, before removal of the overstory juniper; seven were conducted in 2008, soon after the juniper were removed; and two were conducted in 2009, one year after juniper removal. We found that recharge occurred mainly via conduits or macropores and, as such, was extremely dynamic and responsive to rainfall. The amount of recharge ranged from 3% to 17% of the water applied, the higher percentages being measured when antecedent soil conditions were wet. At least in this case of recharge taking place via conduit flow, removal of the juniper had little if any effect. Copyright © 2012 John Wiley & Sons, Ltd. 相似文献
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利用自然沉降法采集2009年7月19日至24日日偏食前后乌鲁木齐空气微生物,以可培养法分析日偏食对其细菌群落组成的影响。结果如下:(1)细菌数量和种类均随日偏食临近而增多,当天达到峰值,随后减少。(2)所获81株细菌经测序及系统发育分析将其归为四个门,分别为放线菌门(Actinobacteria)、厚壁菌门(Firmicutes)、变形菌门(Proteobacteria)和拟杆菌门(Bacteroidetes),其中放线菌门为优势类群,占细菌总数的54%。(3)不同采样时间细菌群落组成的聚类分析显示,日偏食发生前日(21日)和当日(22日)空气细菌组成较为相似聚为一类,其余日期的聚为一类。(4)典型相关分析(Canonical Correlation Analysis, CCA)发现,放线菌门中菌株与绝大多数大气环境因子呈正相关性;变形菌门和厚壁菌门与大多数大气环境因子呈正相关性;而拟杆菌门中的菌株只与温度、风速和太阳风速度呈正相关。结果表明,日偏食会增加乌鲁木齐空气可培养细菌的数量和种类。 相似文献
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Bradford P. Wilcox 《Ecohydrology》2010,3(1):126-130
As a result of human activities, forests and rangelands across the globe have undergone dramatic changes that have fundamentally altered ecosystem processes. Examples of these kinds of transformational changes include increasingly hot and extensive forest fires, die‐off over vast areas of forest from insect infestations, large‐scale encroachment of rangelands by woody plants and non‐native invasive plants, and desertification. These changes have accelerated in pace, scale and magnitude in recent decades and have the potential to alter water, energy, and biogeochemical cycles in important but not fully understood ways. The related disciplines of ecohydrology and watershed management are being shaped and transformed by the need to understand the ecohydrological consequences of transformative landscape change as well as the need to mitigate and manage for these changes. Copyright © 2010 John Wiley & Sons, Ltd. 相似文献
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Woody encroachment into grasslands is occurring across the world and is of concern to land managers. Studies of forest–grassland boundaries have informed models describing factors that govern tree establishment and the maintenance and origin of grassland ecosystems. Central to these models is the role of fire relative to ‘bottom up’ resources such as soil and the geological substrate in determining the extent of grassland and forest in the landscape. The view that human lit fires have shaped vegetation across the Australian continent has been bolstered by early 19th century observations of Aboriginal‐set fires in Tasmanian montane grasslands and the documented encroachment of trees into these grasslands in the 20th century. We examined the pattern of lateral encroachment of woolly tea‐tree (Leptospermum lanigerum (Sol. ex Aiton) Sm.) into these grasslands and used tree ring chronologies to investigate (i) past fire activity and (ii) how the geological substrate mediates growth rates of L. lanigerum. Changes in fire regimes inferred from L. lanigerum recruitment were corroborated by historical records. Encroachment (and increases in woody cover) of trees into grasslands was highest on granitic substances, although L. lanigerum growth rates were highest on basalt substrates, followed by conglomerate, granite and Mathinna sediments. Frequent burning up to the 1980s may have stymied the encroachment of trees in grasslands underlain by basalt. Growth rates decreased with increasing distance from the forest edge. This may be due to incremental changes in soil resources, grass competition and/or microclimate. The dynamics between grasslands and forests in montane Tasmania are consistent with tree growth–fire interaction models that highlight the interplay of edaphic factors, growth rates and fire history. Such complexity cautions against generalizations concerning the direct effects of landscape fire in shaping vegetation distribution across Australia. 相似文献
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Lauren E. Culler Zachary T. Wood Jimena Diaz Samuel B. Fey Dianne Timmins Matthew P. Ayres 《Freshwater Biology》2018,63(7):676-686
- Warming temperatures from climate change are altering the distributions and abundances of many species. Aquatic organisms, however, may be buffered from the immediate impacts of air temperature change due to the thermal inertia of water. The extent of this buffering in freshwater ecosystems will determine the fate and possible management strategies for many ecologically and economically important species.
- Using 11 years of air and stream temperature data collected from an uninhabited New Hampshire watershed, we investigated the relationship between air and water temperature change throughout the summer months. Maximum daily stream temperatures during the summer months are known to influence the distribution and phenology of aquatic organisms. As such, we built a predictive model of maximum daily stream temperature as a function of air temperature change, discharge and stream order.
- Diurnal changes in stream temperatures and changes in stream temperature through the summer consistently lagged changes in air temperature, and deviations in daily air temperatures from seasonally predicted means were a strong driver of water temperatures. A mean increase in residual air temperature over the past 5 days of 1.0°C corresponded to a 0.5–0.8°C increase in maximum daily stream temperature. Smaller, headwater streams were colder and less sensitive to changes in air temperature.
- Although stream temperatures did not increase as much as air temperatures, our results suggest that even small increases in water temperatures will extend the duration of physiologically stressful conditions for biota in this watershed. Thus, preserving thermal heterogeneity and unrestricted access to thermal refuges may be key for species’ persistence. We encourage continued use of monitoring data to document within‐stream and within‐watershed thermal heterogeneity and to generate stream temperature models. These tools will be key for developing management strategies to mitigate the impacts of climate change on streams and their biota.
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Isabel B. Schmidt Maxmiller C. Ferreira Alexandre B. Sampaio Bruno M. T. Walter Daniel L. M. Vieira Karen D. Holl 《Restoration Ecology》2019,27(5):942-948
Defining the reference system for restoration projects in regions characterized by complex vegetation mosaics is challenging. Here we use the Cerrado region of Brazil as an example of the importance of clearly defining multiple natural and anthropogenically altered states in grassland‐savanna‐forest mosaics. We define three main, natural vegetation types–grassland, savanna, and scleromorphic (cerradão) forest–to (1) distinguish between original and degraded states and (2) set appropriate targets for and guide restoration. We contend that the differences in Cerrado vegetation composition originally were driven by soil conditions and secondarily by fire frequency and precipitation patterns that differ from the core to the edge of the Cerrado region. Grasslands are found on the shallowest, least fertile soils and/or in waterlogged soils; scleromorphic forests are generally located on deeper, more fertile soils; and savannas occupy an intermediate position. In recent decades, this biophysical template has been overlain by a range of human land‐use intensities that strongly affect resilience, resulting in alternative anthropogenic states. For example, areas that were originally scleromorphic forest are likely to regenerate naturally following low‐ or medium‐intensity land use due to extensive resprouting of woody plants, whereas grassland restoration requires reintroduction of grass and forb species that do not tolerate soil disturbance and exotic grass competition. Planting trees into historic grasslands results in inappropriate restoration targets and often restoration failure. Correctly identifying original vegetation types is critical to most effectively allocate scarce restoration funding. 相似文献
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Tommaso Chiti Vianet Mihindou Kathryn J. Jeffery Yadvinder Malhi Fabiane L. De Oliveira Lee J. T. White Riccardo Valentini 《Biotropica》2017,49(1):9-12
This study quantifies changes in soil organic carbon (SOC) stock as a result of woody encroachment on savannas. Changes in SOC stocks occur below 30 cm depth, indicating the subsoil as the principal compartment contributing to SOC sequestration, and suggesting the need to consider the entire profile (0–100 cm) to thoroughly assess the effect of woody encroachment on SOC stocks. 相似文献