Predictability of dune activity in real dune fields under unidirectional wind regimes

Barchyn, Thomas E.; Hugenholtz, Chris H.

doi:10.1002/2014jf003248

Cited by 16 publications

(11 citation statements)

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“…We make use of repeat aerial LIDAR topographic data collected in September 2009 and June 2010, to construct digital elevation models (DEMs) with horizontal and vertical resolutions of 1 and 0.1 m, respectively (see section 4). The dunes at White Sands have characteristic lengths of ∼100 m, heights of several meters, and migration rates of several meters per year, so structure and dynamics are well resolved with this data set (Barchyn & Hugenholtz, 2015;Pelletier, 2015;Xia & Dong, 2016). We assume that the rates of dune migration for the 2009-2010 windy season are typical of the migration that would occur in any other given year.…”

Section: Resultsmentioning

confidence: 99%

“…Vegetation acts to slow dune migration, through three mechanisms: (i) reducing boundary shear stress b due to form drag (Durán & Herrmann, 2006b;Lancaster & Baas, 1998); (ii) binding and consolidation of sand by roots (Waldron, 1977) and (iii) facilitating the formation of sand-stabilizing soil crusts (Figures 1e-1g). In order for plants to gain a foothold, however, their growth rate must outpace the rate of burial by sand on the lee faces of dunes (Barchyn & Hugenholtz, 2015;Durán & Herrmann, 2006b;Jerolmack et al, 2012;Reitz et al, 2010) (Figures 1e-1g). This occurs at a threshold dune migration rate, below which the stabilizing effects of plants result in a positive feedback that further slows dune migration (Baas & Nield, 2007;Durán & Herrmann, 2006b;Pelletier et al, 2009).…”

Section: Introductionmentioning

confidence: 99%

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The Imprint of Vegetation on Desert Dune Dynamics

Lee

Ferdowsi

Jerolmack

2019

Geophysical Research Letters

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Here we demonstrate the qualitative and quantitative influence that vegetation has on stabilizing desert dunes. We use topographic data to isolate translation and deformation of dune patterns, upwind of and across a sharp gradient of vegetation, at White Sands dune field, New Mexico. Barchanoid dunes are unstable due to an aerodynamic surface wave instability. The dynamics of vegetated parabolic dunes are different; deformation becomes localized, and random, once plant density reaches a critical value associated with the barchanoid‐parabolic transition. Plants stabilize dunes not only by slowing them down but also by shutting off the fundamental mechanism that generates new sand waves and destabilizes dunes. Increasing plant density downwind increases vegetation‐induced form drag and results in decreasing dune migration rate. We suggest that similar biological modulation of pattern‐forming instabilities may also occur in other landscapes.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

The Imprint of Vegetation on Desert Dune Dynamics

Lee

Ferdowsi

Jerolmack

2019

Geophysical Research Letters

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“…This trait is consistent with Bower's hypothesis of the adaptive advantage of rapid growth in response to sand burial. Vegetation tolerance to sand deposition has been proposed as one component of understanding dune field dynamics (Barchyn and Hugenholtz 2015).…”

Section: Discussionmentioning

confidence: 99%

Vegetation of semi-stable rangeland dunes of the Navajo Nation, Southwestern USA

Thomas

Redsteer

2016

Arid Land Research and Management

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Dune destabilization and increased mobility is a worldwide issue causing ecological, economic, and health problems for the inhabitants of areas with extensive dune fields. Dunes cover nearly a third of the Navajo Nation within the Colorado Plateau of southwestern USA. There, higher temperatures and prolonged drought beginning in 1996 have produced significant increases in dune mobility. Vegetation plays an important role in dune stabilization, but there are few studies of the plants of the aeolian surfaces of this region. We examined plant species and their attributes within a moderately vegetated dune field of the Navajo Nation to understand the types and characteristics of plants that stabilize rangeland dunes. These dunes supported a low cover of mixed grass-scrubland with fifty-two perennial and annual species including extensive occurrence of non-native annual Salsola spp. Perennial grass richness and shrub cover were positively associated with increased soil sand composition. Taprooted shrubs were more common on sandier substrates. Most dominant grasses had C4 photosynthesis, suggestive of higher water-use efficiencies and growth advantage in warm arid environments. Plant cover was commonly below the threshold of dune stabilization. Increasing sand movement with continued aridity will select for plants adapted to burial, deflation, and abrasion. The study indicates plants tolerant of increased sand mobility and burial but more investigation is needed to identify the plants adapted to establish and regenerate under these conditions. In addition, the role of Salsola spp. in promoting decline of perennial grasses and shrubs needs clarification. ARTICLE HISTORY

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“…As a result, restricted aeolian activity would be conducive to vegetation growth and the development of soil crusts, which in turn facilitate dune stabilization. Vegetation could even colonize the lee faces of dunes as a result of an overall reduction in sediment flux across the dune (Barchyn & Hugenholtz, 2015;Z. Xu et al, 2015).…”

Section: Climatic Controls Of Vegetation Growth and Dune Activitymentioning

confidence: 99%

Recent greening (1981–2013) in the Mu Us dune field, north‐central China, and its potential causes

Wang

et al. 2018

Land Degrad Dev

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Desertification of arid and semiarid land is a severe environmental problem. Better understanding of the desertification process, in the context of changing climate and growing human activities, is essential for policy‐making on desertification control strategies and land‐use management in these environmentally sensitive areas. In this study, we analyze vegetation change and dune activity over the years 1981–2013 in Mu Us, a semiarid dune field in north‐central China, using remote sensing techniques and geomorphic analysis. During this period, we have observed an increasing trend in vegetation greenness, indicated by the Normalized Difference Vegetation Index, which is consistent with the decreasing trend of the dune mobility index. Changes in dune morphologies in the study area indicate that dunes are being stabilized under vegetation growth, and this morphological change could potentially be used to detect the long‐term trend in desertification. Based on a detailed analysis of both climatic and socioeconomic data, we found that the decadal changes in wind strength have significant impact on the long‐term vegetation rehabilitation in the study area and that the short‐term variations in vegetation growth are associated with interannual fluctuations in precipitation. Policy‐driven, large ecological restoration projects implemented in recent decades can exert a positive impact on vegetation restoration, especially under favourable climatic conditions. This study implies that such climatic conditions may offer a window of opportunity for land regeneration in semiarid northern China.

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Predictability of dune activity in real dune fields under unidirectional wind regimes

Cited by 16 publications

References 88 publications

The Imprint of Vegetation on Desert Dune Dynamics

The Imprint of Vegetation on Desert Dune Dynamics

Vegetation of semi-stable rangeland dunes of the Navajo Nation, Southwestern USA

Recent greening (1981–2013) in the Mu Us dune field, north‐central China, and its potential causes

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