Wind and Windblown Sand Damage to Pearl Millet

Michels, Karlheinz; Armbrust, D. V.; Allison, Bruce E.; Sivakumar, M. V. K.

doi:10.2134/agronj1995.00021962008700040003x

Cited by 28 publications

(27 citation statements)

References 25 publications

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“…The greater importance of seedling burial is also supported by its higher score (Table III). The present results are consistent with the ®ndings of Sterk and Haigis (1998) and with past experimental results which have shown that millet, which is the crop most likely to be affected by wind erosion, is rather resistant to sandblasting but is sensitive to burial at the seedling stage as a result of it being sown in small planting holes (Michels et al, 1995a).…”

Section: Consequences Of Wind Erosionsupporting

confidence: 93%

Wind erosion: the perspective of grass‐roots communities in the Sahel

2001

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Under the harsh conditions prevailing in the West African Sahel, farmers must deal with a range of environmental and socioeconomic issues that constrain agriculture. Although scienti®c evidence indicates that wind erosion is potentially a major land degradation process, little is known about the Sahelian farmer's perception of the relative importance of wind erosion as a constraint to agricultural production. A village-level survey was therefore undertaken to assess farmers' views about the relative importance of perceived constraints to agricultural production in 41 villages across Niger. During the interviews, the communities' views were also recorded regarding the causes and consequences of wind erosion as well as known wind erosion control measures. Wind erosion ranked eighth overall and was listed by male farmers among the top 10 constraints in 54 per cent of the villages. It was perceived by male farmers to be a moderate to high constraint in 39 per cent of the villages but was not considered important by female farmers. Wind erosion ranked third among environmental constraints, behind drought and soil fertility. Wind erosion related health problems were generally of more concern than crop damage or loss of topsoil by wind erosion. Deforestation, removal of crop residue and land-clearing practices were identi®ed by farmers as major contributors to soil losses by wind. To address this issue, at least 10 different low-cost technologies are currently being implemented by farmers, including leaving crop residue in the ®eld, mulching and natural regeneration of vegetation. The survey results indicate that farmers are well aware of the overriding importance of their management practices, as opposed to climatic factors, on the current extent of wind erosion.

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Section: Consequences Of Wind Erosionsupporting

confidence: 93%

Wind erosion: the perspective of grass‐roots communities in the Sahel

2001

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“…As arthropod damage expressed in plant fossils can be difficult to differentiate from abiotic trauma, we used the criteria outlined by Labandeira (2006, and the references therein) to identify arthropod-generated damage and also to distinguish herbivory from saprotrophy. Most importantly, herbivory damage is typically expressed by stereotypical feeding patterns consistent with modern analogues, the development of reaction tissue around the wound, development of necrotic flaps or veinal stringers around damaged tissue, and distinctive and consistent phytotissue-herbivore linkages that are incompatible with other forms of biological or physical trauma, such as that caused by fungi (Parbery, 1996;Taylor and Osborn, 1996) or abiotic processes (Wilson, 1984;Michels et al, 1995;Wright and Vincent, 1996;Racskó et al, 2010). We sought to assign examples of plant damage to the principal functional feeding groups outlined by Labandeira et al (2007a): viz., external foliage feeding (here subdivided into the categories of leaf-margin feeding, apical feeding, surface feeding and hole feeding), piercing-and-sucking, boring, leaf mining, galling, seed feeding, palynophagy, nectarivory and oviposition.…”

Section: Methodsmentioning

confidence: 99%

The record of Australian Jurassic plant–arthropod interactions

McLoughlin

Martin

Beattie³

2015

Gondwana Research

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A survey of Australian Jurassic plant fossil assemblages reveals examples of foliar and wood damage generated by terrestrial arthropods attributed to leaf-margin feeding, surface feeding, lamina hole feeding, galling, piercingand-sucking, leaf-mining, boring and oviposition. These types of damage are spread across a wide range of fern and gymnosperm taxa, but are particularly well represented on derived gymnosperm clades, such as Pentoxylales and Bennettitales. Several Australian Jurassic plants show morphological adaptations in the form of minute marginal and apical spines on leaves and bracts, and scales on rachises that likely represent physical defences against arthropod herbivory. Only two entomofaunal assemblages are presently known from the Australian Jurassic but these reveal a moderate range of taxa, particularly among the Orthoptera, Coleoptera, Hemiptera and Odonata, all of which are candidates for the dominant feeding traits evidenced by the fossil leaf and axis damage. The survey reveals that plant-arthropod interactions in the Jurassic at middle to high southern latitudes of southeastern Gondwana incorporated a similar diversity of feeding strategies to those represented in coeval communities from other provinces. Further, the range of arthropod damage types is similar between Late Triassic and Jurassic assemblages from Gondwana despite substantial differences in the major plant taxa, implying that terrestrial invertebrate herbivores were able to successfully transfer to alternative plant hosts during the floristic turnovers at the Triassic-Jurassic transition.

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“…[4][5][6][7] Dust storms carry tonnes of top soil from agricultural land and affects the soil resource base and crop productivity on a long-term basis by damaging plant tissue, causing delay in plant development [8][9][10] and accelerates land degradation. [11,12] Moreover, the deposition of dust on irrigation canals and rivers affects the water quality of streams, lakes and oceans. [13][14][15][16][17] A study by Lim et al [18] highlighted the contribution of dust events to the distribution of microbes in the environment from two dust storms in Australia.…”

Section: Introductionmentioning

confidence: 99%

Unusual Sydney dust storm and its mineralogical and organic characteristics

et al. 2012

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Environmental context. In 2009, at the end of the longest drought period ever recorded in Australia, a major dust storm blanketed the cities of Sydney and Brisbane for more than 24 h. The source of the dust was inner New South Wales and South Australia, where large scale open-cut mining occurs together with agricultural practices. We report results of extensive mineralogical and chemical analyses of the dust, and discuss their significance in terms of the dust origins and potential human health risks.Abstract. In a 24-h period from 23 to 24 September 2009, a dust storm passed over Sydney, Australia that produced a red sky and reduced the visibility to a few metres. It was Sydney's worst dust storm since 1942. During this period, the PM 10 (particles measuring 10 mm or less) value jumped from 50 to 11 800 mg m À3 . The dust storm was sampled and its mineralogical and organic contents were analysed. Four major particle sizes (0.6, 4.5, 9.3 and 20 mm) were observed in the dust. A multimodal particle distribution indicated a long range of dust transport. Mineralogical analysis showed that the particles were mainly composed of crustal elemental oxides of Al and Si. The ratio of Al/Si was 0.39 and the organic content was 10.6 %, which was found to be enriched with humic-type substances. The high Al/Si ratio (.0.3) indicated that the dust originated from desert land whereas the high organic content indicated that the particles were also derived from eroded agricultural land. A fluorescence spectroscopic study on the organic matter at excitation and emission wavelengths of 245-265 and 330-350 nm indicated that biohazardous substances were unlikely to be present in the dust.

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Wind and Windblown Sand Damage to Pearl Millet

Cited by 28 publications

References 25 publications

Wind erosion: the perspective of grass‐roots communities in the Sahel

Wind erosion: the perspective of grass‐roots communities in the Sahel

The record of Australian Jurassic plant–arthropod interactions

Unusual Sydney dust storm and its mineralogical and organic characteristics

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