Changes in aboveground primary production and carbon and nitrogen pools accompanying woody plant encroachment in a temperate savanna

Hughes, R. Flint; Archer, Steven R.; Asner, Gregory P.; Wessman, Carol A.; McMurtry, C.R.; Nelson, Jim A.; Ansley, R. James

doi:10.1111/j.1365-2486.2006.01210.x

Cited by 159 publications

(127 citation statements)

References 75 publications

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“…For soil carbon, the results are agreed with Ariapour and Asgari (2012) and Hughes et al (2006), who showed the higher C values under the trees canopies. In the literature, the enhancement of soil carbon and soil organic matter after afforestation practices is well documented fact.…”

Section: Soil Carbonsupporting

confidence: 81%

Agroforestry Status and Its Role to Sequester Atmospheric Co2 Under Semi-Arid Climatic Conditions in Pakistan

Nawaz¹

2018

Appl. Ecol. Env. Res.

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. Furthermore, the study area has the potential of stocking 3607.61 Mt and sequestering 13214.67 Mt of CO 2 at the rate of 327232.46 t CO 2 per year. According to calculations, increasing the number of farm trees/ha, average CO 2 sequestration rate of the study area can be increased from 2.05 t CO 2 ha -1 yr -1 to 3.59 t CO 2 ha -1 yr -1 . The role of agroforestry as C sink in not negligible and it should be given a dire consideration in policies, especially, in low forest countries like Pakistan to meets the melinium goals of atmospheric C reduction.

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Section: Soil Carbonsupporting

confidence: 81%

Agroforestry Status and Its Role to Sequester Atmospheric Co2 Under Semi-Arid Climatic Conditions in Pakistan

Nawaz¹

2018

Appl. Ecol. Env. Res.

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“…In the latter, woody plants may eventually suppress herbaceous plants as their density increases. These overstorey-understory relationships are influenced strongly by soil type, such that herbaceous plants may be suppressed on lowlands and facilitated on uplands (Hughes et al 2006). Local-and landscape-scale diversity perspectives should therefore be kept in mind when generalizations are made.…”

Section: Herbaceous Vegetationmentioning

confidence: 99%

Woody Plant Encroachment: Causes and Consequences

Archer

Andersen

Predick

et al. 2017

Springer Series on Environmental Management

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384

379

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Woody vegetation in grasslands and savannas has increased worldwide over the past 100-200 years. This phenomenon of "woody plant encroachment" (WPE) has been documented to occur at different times but at comparable rates in rangelands of the Americas, Australia, and southern Africa. The objectives of this chapter are to review (1) the process of WPE and its causes, (2) consequences for ecosystem function and the provision of services, and (3) the effectiveness of management interventions aimed at reducing woody cover. Explanations for WPE require consideration of multiple interacting drivers and constraints and their variation through time at a given site. Mean annual precipitation sets an upper limit to woody plant cover, but local patterns of disturbance (fire, browsing) and soil properties (texture, depth) prevent the realization of this potential. In the absence of these constraints, seasonality, interannual variation, and intensity of precipitation events determine the rate and extent of woody plant expansion. Although probably not a triggering factor, rising atmospheric CO 2 levels may have favored C 3 woody plant growth. WPE coincided with the global intensification of livestock grazing that by reducing fine fuels, hence fire frequency and intensity, facilitated WPE. From a conservation perspective, WPE threatens the maintenance of grassland and savanna

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“…This may be related to the expansion of woody vegetation over the past 15 years. In the Arctic tundra (Hughes et al, 2006) and lower latitudes in arid environments (Chen et al, 2014;Li et al, 2015), experimental studies provided clear evidence that climate warming is sufficient to account for the expansion of shrubs. Changes in vegetation albedo and emissivity exert feedback on climate, which is especially obvious in ET (Field et al, 2007).…”

Section: Spatiotemporal Variations In Global Terrestrial Npp and Theimentioning

confidence: 99%

Dynamic changes in terrestrial net primary production and their effects on evapotranspiration

Chen

Wang

et al. 2016

Hydrol. Earth Syst. Sci.

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Abstract. The dramatic increase of global temperature since the year 2000 has a considerable impact on the global water cycle and vegetation dynamics. Little has been done about recent feedback of vegetation to climate in different parts of the world, and land evapotranspiration (ET) is the means of this feedback. Here we used the global 1 km MODIS net primary production (NPP) and ET data sets (2000)(2001)(2002)(2003)(2004)(2005)(2006)(2007)(2008)(2009)(2010)(2011)(2012)(2013)(2014) to investigate their temporospatial changes under the context of global warming. The results showed that global NPP slightly increased in 2000-2014 at a rate of 0.06 PgC yr −2 . More than 64 % of vegetated land in the Northern Hemisphere (NH) showed increased NPP (at a rate of 0.13 PgC yr −2 ), while 60.3 % of vegetated land in the Southern Hemisphere (SH) showed a decreasing trend (at a rate of −0.18 PgC yr −2 ). Vegetation greening and climate change promote rises of global ET. Specially, the increased rate of land ET in the NH (0.61 mm yr −2 ) is faster than that in the SH (0.41 mm yr −2 ). Over the same period, global warming and vegetation greening accelerate evaporation in soil moisture, thus reducing the amount of soil water storage. Continuation of these trends will likely exacerbate regional drought-induced disturbances and point to an increased risk of ecological drought, especially during regional dry climate phases.

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Changes in aboveground primary production and carbon and nitrogen pools accompanying woody plant encroachment in a temperate savanna

Cited by 159 publications

References 75 publications

Agroforestry Status and Its Role to Sequester Atmospheric Co2 Under Semi-Arid Climatic Conditions in Pakistan

Agroforestry Status and Its Role to Sequester Atmospheric Co2 Under Semi-Arid Climatic Conditions in Pakistan

Woody Plant Encroachment: Causes and Consequences

Dynamic changes in terrestrial net primary production and their effects on evapotranspiration

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