Your search keyword '"arid"' showing total 36,405 results

101. Assessment of drought stress in arid olive groves using HidroMORE model

Author

Abderrahman Sghaier, Hanen Dhaou, Lassaad Jarray, Zouhair Abaab, Ahmed Sekrafi, and Mohamed Ouessar

Subjects

Olive, arid, soil water balance, HidroMORE model, drought, geomatics., Agriculture, Agriculture (General), S1-972

Abstract

The olive tree is well known for being adapted to the arid conditions of the Mediterranean basin. However, prolonged drought periods which are expected to become more frequent because of climate change could result in severe water stress. In order to map the spatial distribution of drought stress in the olive groves in the arid regions of southeastern Tunisia (governorate of M denine), we made recourse to the HidroMORE model (based mainly on FAO56 ET, NDVI from Sentinel 2 images and other physical parameters) to compute the water balance in a GIS environment. The outputs were compared to in situ soil water content measurements in four selected sites representing the various agro-ecological zones (mountains, piedmont, inner plain and coast) of the study site during the observation period from January 2016 to December 2019. The model outputs performed relatively well (the overall correlation coefficient R2=0.72; index of agreement IA=0.76). The simulation results show that during normal years or average droughts, the water stress is least in the mountain and piedmont zones because of the additional runoff water supplied by the traditional water harvesting structures (Jessour and Tabias) and in the coastal zone, thanks to the higher air humidity and rainfall. In contrast, the olives in the inner plains are the most affected. Nevertheless, in case of severe droughts, the stress is generalised. Thus, the model could be used as a decision tool for prioritizing areas of intervention for drought control and mitigation (supplemental irrigation for trees safeguard, etc.)

Published

2022

102. Assessment of drought stress in arid olive groves using HidroMORE model.

Author

Sghaier, Abderrahman, Dhaou, Hanen, Jarray, Lassaad, Abaab, Zouhair, Sekrafi, Ahmed, and Ouessar, Mohamed

Subjects

*DROUGHTS, *WATER harvesting, *SOIL moisture, *OLIVE, *PLANT-water relationships, *ARID regions, *COASTS

Abstract

The olive tree is well known for being adapted to the arid conditions of the Mediterranean basin. However, prolonged drought periods which are expected to become more frequent because of climate change could result in severe water stress. In order to map the spatial distribution of drought stress in the olive groves in the arid regions of southeastern Tunisia (governorate of Médenine), we made recourse to the HidroMORE model (based mainly on FAO56 ET, NDVI from Sentinel 2 images and other physical parameters) to compute the water balance in a GIS environment. The outputs were compared to in situ soil water content measurements in four selected sites representing the various agro-ecological zones (mountains, piedmont, inner plain and coast) of the study site during the observation period from January 2016 to December 2019. The model outputs performed relatively well (the overall correlation coefficient R2=0.72; index of agreement IA=0.76). The simulation results show that during normal years or average droughts, the water stress is least in the mountain and piedmont zones because of the additional runoff water supplied by the traditional water harvesting structures (Jessour and Tabias) and in the coastal zone, thanks to the higher air humidity and rainfall. In contrast, the olives in the inner plains are the most affected. Nevertheless, in case of severe droughts, the stress is generalised. Thus, the model could be used as a decision tool for prioritizing areas of intervention for drought control and mitigation (supplemental irrigation for trees safeguard, etc.) [ABSTRACT FROM AUTHOR]

Published

2022

103. Sublethal pesticide exposure influences behaviour, but not condition in a widespread Australian lizard.

Author

Contador-Kelsall, Isabella, Maute, Kimberly, Story, Paul, Hose, Grant C, and French, Kristine

Subjects

PESTICIDES, FENITROTHION, LIZARDS, AGRICULTURAL pests, BLOODSTAINS, PEST control, FIPRONIL

Abstract

Assessment of non-target impacts of pesticides used widely in agriculture and pest management rarely considers reptiles. Despite their integral role in all ecosystems, particularly arid ecosystems, reptiles are not included in risk assessments. Two pesticides used in agricultural pest management are fipronil and fenitrothion. Here, we used a field-based BACI design experiment in semi-arid Australia to investigate the impact of these pesticides on basic physiological and behavioural parameters of a common arid-zone lizard species, Pogona vitticeps. Fipronil and fenitrothion were applied at ecologically relevant doses via oral gavage. Before and after dosing, blood, physical activity and body condition parameters were assessed. We found that temperature significantly influenced lizard activity in the morning period of movement; however, fipronil-treated individuals moved at least 49% less than fenitrothion-treated and control lizards from 7 days after dosing through to the end of the experiment. Physiological measures did not change significantly before or after exposure to both pesticides; however, other indicators showed evidence of exposure, which remained for the entirety of our monitoring period. On average, cholinesterase inhibition was still >30% compared with control lizards at the end of 4 weeks, and fipronil sulfone blood residues remained at 0.219 μg/ml. Our study provides novel insights into the impacts that common pesticides have on widespread lizard species. We show that an ecologically relevant low dose of fipronil alters the behaviour of P. vitticeps , which has the potential to impact longer-term survivability. Persistence of both pesticides in the blood of all treatment lizards throughout the experiment indicates they are unable to clear these toxins within a month of being exposed. This may be significant for compounding exposure and latent toxicity. These findings highlight the susceptibility that reptiles have to a selection of common pesticides and the inherent need for higher prominence in wildlife ecotoxicological research. [ABSTRACT FROM AUTHOR]

Published

2022

104. Global soil science research on drylands: an analysis of research evolution, collaboration, and trends.

Author

de Souza Oliveira Filho, José and Pereira, Marcos Gervasio

Subjects

SOIL science, SOIL biology, SURFACE of the earth, WATER supply, COOPERATIVE research, ENVIRONMENTAL sciences

Abstract

Purpose: Drylands cover 41% of the Earth's surface (6 billion ha), where approximately 2 billion people live. In this study, we performed a bibliometric analysis of the evolution, collaboration, and trends of global soil science research on drylands. Methods: We have used the papers on soil science in global drylands indexed in the Web of Science (WoS) data platform in the last 50 years (1970–2019). Results: According to our results, a total of 31,304 scientific papers on the subject were published worldwide, following an exponential growth (R2 = 0.9413) over time. USA (26.2%), China (19.3%), and Australia (9.2%) were the most productive countries, and the Chinese Academy of Sciences (10.0%) and USDA (5.8%) were the institutions with the greatest contributions. Our results indicated a predominance of scientific collaboration between European countries with African and South American countries and an intense scientific collaboration between the most productive countries (USA, China, and Australia). Journal of Arid Environments had the highest number of publications on the subject (3.0%), and soil biology, especially biological crusts, is probably the main research front of soil science studies on drylands. Conclusion: Our results confirm the evolution of global soil science research on drylands over the past 50 years and confirm the multidisciplinary nature of this area of knowledge, with greater participation of studies focused on food production, but with a strong presence of studies related to environmental sciences, ecology, and water resources. [ABSTRACT FROM AUTHOR]

Published

2021

105. Effects of soil texture and groundwater level on leaching of salt from saline fields in Kesem irrigation scheme, Ethiopia

Author

Kidia K. Gelaye, Franz Zehetner, Willibald Loiskandl, and Andreas Klik

Subjects

arid, furrow irrigation, leaching, soil salinity, water, Agriculture

Abstract

In Ethiopia, soil salinity has become a challenge for agricultural production in irrigated arid and semi-arid areas. This research investigates the effectiveness of leaching salt remediation under different soil textures and groundwater tables. Leaching was conducted in the bare parts of three abandoned saline fields. Soil texture of Field 1 (F1) is sandy loam while Field 2 (F2) and Field 3 (F3) are clay loam. The F1, F2, and F3 groundwater was located at 1.8, 1.5 and > 3 m, respectively. The leaching requirement water levels were 15, 20, 25, and 30% higher than the evaporation of the bare field needed for four consecutive weeks, respectively. The results of this study show that, after four days of leaching, the salinity of F1 with sandy loam texture was significantly (P < 0.05) and more strongly reduced than for the other fields exhibiting clay loam texture. For F1, salinity was reduced from 16.3 to 6.2 dS/m and from 12.4 to 5.5 dS/m at depths of 0-30 and 30-60 cm, respectively. In head parts of F1 and F3, the salinity level was reduced to 2.0 dS/m. However, in F2 with shallow groundwater and clay loam texture, the salinity levels were slightly higher after leaching, i.e. from 11.2 to 12.0 dS/m and from 8.1 to 11.6 dS/m at 0-30 and 30-60 cm depths, respectively. In our experiment, effective leaching was achieved only in the field with sandy soil and deeper groundwater table. We saw that the application of leaching with surface drainage at shallow groundwater levels may further exacerbate salinity problems. For such situations, the use of subsurface drainage could sustain the groundwater depth and prevent additional salinization. On clay-textured fields with shallow groundwater table, a prolonged leaching application is necessary to reduce the salt contents.

Published

2019

106. Genomes and secretomes of Ascomycota fungi reveal diverse functions in plant biomass decomposition and pathogenesis

Author

Jean F. Challacombe, Cedar N. Hesse, Lisa M. Bramer, Lee Ann McCue, Mary Lipton, Samuel Purvine, Carrie Nicora, La Verne Gallegos-Graves, Andrea Porras-Alfaro, and Cheryl R. Kuske

Subjects

Ascomycota, Fungi, Arid, Grassland, Soil, Biocrust, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background The dominant fungi in arid grasslands and shrublands are members of the Ascomycota phylum. Ascomycota fungi are important drivers in carbon and nitrogen cycling in arid ecosystems. These fungi play roles in soil stability, plant biomass decomposition, and endophytic interactions with plants. They may also form symbiotic associations with biocrust components or be latent saprotrophs or pathogens that live on plant tissues. However, their functional potential in arid soils, where organic matter, nutrients and water are very low or only periodically available, is poorly characterized. Results Five Ascomycota fungi were isolated from different soil crust microhabitats and rhizosphere soils around the native bunchgrass Pleuraphis jamesii in an arid grassland near Moab, UT, USA. Putative genera were Coniochaeta, isolated from lichen biocrust, Embellisia from cyanobacteria biocrust, Chaetomium from below lichen biocrust, Phoma from a moss microhabitat, and Aspergillus from the soil. The fungi were grown in replicate cultures on different carbon sources (chitin, native bunchgrass or pine wood) relevant to plant biomass and soil carbon sources. Secretomes produced by the fungi on each substrate were characterized. Results demonstrate that these fungi likely interact with primary producers (biocrust or plants) by secreting a wide range of proteins that facilitate symbiotic associations. Each of the fungal isolates secreted enzymes that degrade plant biomass, small secreted effector proteins, and proteins involved in either beneficial plant interactions or virulence. Aspergillus and Phoma expressed more plant biomass degrading enzymes when grown in grass- and pine-containing cultures than in chitin. Coniochaeta and Embellisia expressed similar numbers of these enzymes under all conditions, while Chaetomium secreted more of these enzymes in grass-containing cultures. Conclusions This study of Ascomycota genomes and secretomes provides important insights about the lifestyles and the roles that Ascomycota fungi likely play in arid grassland, ecosystems. However, the exact nature of those interactions, whether any or all of the isolates are true endophytes, latent saprotrophs or opportunistic phytopathogens, will be the topic of future studies.

Published

2019

107. Assessing the Accuracy of Landsat Vegetation Fractional Cover for Monitoring Australian Drylands

Author

Andres Sutton, Adrian Fisher, and Graciela Metternicht

Subjects

spectral unmixing, arid, semi-arid, ground cover, unmixing error, Science

Abstract

Satellite-derived vegetation fractional cover (VFC) has shown to be a promising tool for dryland ecosystem monitoring. This model, calibrated through biophysical field measurements, depicts the sub-pixel proportion of photosynthetic vegetation (PV), non-photosynthetic vegetation (NPV) and bare soil (BS). The distinction between NPV and BS makes it particularly important for drylands, as these fractions often dominate. Two Landsat VFC products are available for the Australian continent: the original Joint Remote Sensing Research Program (JRSRP) product, and a newer Digital Earth Australia (DEA) product. Although similar validation statistics have been presented for each, an evaluation of their differences has not been undertaken. Moreover, spatial variability of VFC accuracy within drylands has not been comprehensively assessed. Here, a large field dataset (4207 sites) was employed to compare Landsat VFC accuracy across the Australian continent, with detailed spatial and temporal analysis conducted on four regions of interest. Furthermore, spatiotemporal features of VFC unmixing error (UE) were explored to characterize model uncertainty in large areas yet to be field sampled. Our results showed that the JRSRP and DEA VFC were very similar (RMSE = 4.00–6.59) and can be employed interchangeably. Drylands did not show a substantial difference in accuracy compared to the continental assessment; however contrasting variations were observed in dryland subtypes (e.g., semi-arid and arid zones). Moreover, VFC effectively tracked total ground cover change over time. UE increased with tree cover and height, indicating that model uncertainty was low in typical dryland landscapes. Together, these results provide guiding points to understanding the Australian ecosystems where VFC can be used with confidence.

Published

2022

108. Identifying Common Trees and Herbaceous Plants to Mitigate Particulate Matter Pollution in a Semi-Arid Mining Region of South Africa

Author

Sutapa Adhikari, Madeleen Struwig, and Stefan John Siebert

Subjects

air quality, arid, dust, Gomphocarpus fruticosus, Psidium guajava, urban, Science

Abstract

Plants provide long-term and sustainable solutions to mitigate particulate matter (PM) pollution in urban environments. We evaluated total, fine, coarse and large particle trapping abilities of an equal number of common trees (Carica papaya, Citrus limon, Moringa oleifera, Ozoroa paniculosa, Peltophorum africanum, Psidium guajava) and herbaceous species (Argemone ochroleuca, Catharanthus roseus, Gomphocarpus fruticosus, Ipomoea batatas, Senna italica, Tribulus terrestris) to identify dust accumulators for Sekhukhuneland, a mining–smelting region of South Africa where desertification is becoming problematic. Scanning electron microscopy techniques were used to count and measure particles and relate leaf surface micromorphology to dust accumulation. Three tree and three herbaceous species showed superior dust collection capacity (G. fruticosus > P. guajava > I. batatas > O. paniculosa > C. roseus > M. oleifera). Variations in accumulation of PM sizes were noted among these six species and between adaxial and abaxial leaf surfaces. Compared with large PM, all plants accumulated more fine and coarse fractions which are respirable and thus hazardous to human health. Leaf surface roughness, epicuticular wax and epidermal glands improved dust accumulation. The six preferred plants may serve as forerunner species to abate PM pollution in Sekhukhuneland and other arid regions facing similar climate change and pollution challenges.

Published

2022

109. Assessing the Functions and Services of Non-Perennial Waters in Arid Regions

Author

Pankratz, Shannon Lea

Subjects

Environmental science, Environmental management, Water resources management, arid, drylands, ephemeral, functions, non-perennial, streams

Abstract

There are significant and on-going issues faced by the U.S. Army Corps of Engineers and other federal agencies in regulating and affording protections to arid non-perennial stream resources in western arid regions of the U.S. (i.e., Arid West). The significance of these issues is magnified by the large portion of dryland areas situated within the U.S., as well as worldwide, where non-perennial streams also comprise most of the stream types. It is essential for politicians, decision makers, and those assessing and managing aquatic resources to be aware of the current body of understanding available on these important resources. An in-depth literature and geospatial analysis was conducted on arid non-perennial stream functions as they relate to key climate ecosystem controls, influential environmental parameter controls, and hydrology (e.g., streamflow regime) forcing functions at various landscape scales and settings. Out of the overall stream function categories of Biogeochemical, Habitat, Hydrology, Sediment, Biodiversity, Energy Dissipation, and Connectivity examined within global and U.S. literature, only Biogeochemical, Habitat, Hydrology, Sediment emerged as the primary function categories of study focus. Global and U.S. data followed similar overall trends with generally a higher coverage of Habitat functions above all other function categories, which was unexpected given the higher importance of Hydrology and Sediment within the overall hierarchy of influences among stream function categories. Other similar overall trends within global and U.S. data included higher occurrences within cold steppe subclimes, steppe precipitation areas, and ephemeral streams. Of the three environmental parameters (watershed position, stream planform type, and riverine corridor sampling location type) analyzed, these patterns tended to be more consistent when compared across watershed positions, with generally more deviation when viewed through the lenses of stream planform types and sampling type locations. Arid non-perennial streams provide critical watershed functions in various arid environs, yet further focused research is needed to augment Biodiversity, Energy dissipation, Hydrology, and Connectivity functions across both ephemeral and intermittent arid streams. Future global and U.S. research is also recommended within cold desert subclimes, across a greater diversity of channel forms and small-scale sampling location types, and with intermittent streams for providing information essential to regional stream assessment, management and regulation of arid non-perennial streams.

Published

2022

110. Distinct Assembly Processes and Determinants of Soil Microbial Communities between Farmland and Grassland in Arid and Semiarid Areas.

Author

Aiai Xu, Jie Liu, Zhiying Guo, Changkun Wang, Kai Pan, Fangfang Zhang, and Xianzhang Pan

Subjects

*GRASSLAND soils, *MICROBIAL communities, *GRASSLANDS, *SOILS, *SOIL microbial ecology

Abstract

It is critical to identify the assembly processes and determinants of soil microbial communities to better predict soil microbial responses to environmental change in arid and semiarid areas. Here, soils from 16 grassland-only, 9 paired grassland and farmland, and 16 farmland-only sites were collected across the central Inner Mongolia Plateau, covering a steep environmental gradient. Through analyzing the paired samples, we discovered that land uses had strong effects on soil microbial communities but weak effects on their assembly processes. For all samples, although no environmental variables were significantly correlated with the net relatedness index (NRI), both the nearest taxon index (NTI) and the β-nearest taxon index (bNTI) were most related to mean annual precipitation (MAP). With the increase of MAP, soil microbial taxa at the tips of the phylogenetic tree were more clustered, and the contribution of determinism increased. Determinism (48.6%), especially variable selection (46.3%), and stochasticity (51.4%) were almost equal in farmland, while stochasticity (75.0%) was dominant in grassland. Additionally, Mantel tests and redundancy analyses (RDA) revealed that the main determinants of soil microbial community structure were MAP in grassland but mean annual temperature (MAT) in farmland. MAP and MAT were also good predictors of the community composition (the top 200 dominant operational taxonomic units) in grassland and farmland, respectively. Collectively, in arid and semiarid areas, soil microbial communities were more sensitive to environmental change in farmland than in grassland, and unlike the major impact of MAP on grassland microbial communities, MAT was the primary driver of farmland microbial communities. [ABSTRACT FROM AUTHOR]

Published

2021

111. Nouvelles données sur les insectes d'intérêt écologique dans les zones humides, cas des régions arides d'Algérie.

Author

BRAHIMI, Djamel, BRAHIMI, Abdelghani, RAHMOUNI, Abdelkader, and MESLI, Lotfi

Abstract

Copyright of Bulletin de la Societe Zoologique de France is the property of Societe Zoologique de France and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2021

112. Mistletoes Facilitate a Desert Herbivore by Improving the Quality of Shade.

Author

Chu, Nicholas, Cornwell, Will, and Letnic, Mike

Subjects

*MISTLETOES, *PARASITIC plants, *ABIOTIC environment, *BIOTIC communities, *SOLAR radiation

Abstract

In arid environments, shade provided by vegetation forms the crux of many facilitation pathways by providing other organisms with relief from high levels of solar radiation and extreme temperatures. Shade is an important determinant that structures arid ecosystem processes and functioning. While shade is considered an essential refuge for many organisms in arid environments, few studies have assessed how parasitic plants such as aerial mistletoes can influence the quality of shade provided by its host, and how this can subsequently influence species interactions. Here, we investigate how mistletoe influences the microclimate and daytime use of sub-canopy habitat by a large herbivore that seeks out shady micro-habitats to avoid daytime heat in Australia's Strzelecki Desert. We experimentally removed the pale-leaved mistletoe (Amyema maidenii) from mulga trees (Acacia aneura) and monitored sub-canopy ambient temperatures and the daytime use of sub-canopy habitat by red kangaroos (Osphranter rufus). Results showed that average hourly temperature during the daytime and daily maximum temperature were cooler and that kangaroos were approximately three times more likely to shelter beneath trees where mistletoe was present (control) compared to where mistletoes had been removed (treatment). By showing that mistletoe can improve the quality of shade provided by their host trees, our study offers a novel insight into how mistletoes can facilitate the surrounding biota through modifying the abiotic environment beyond its physical structure. More broadly, the results of our study emphasise the prevalence of positive interactions within ecological communities and how they can occur in unexpected ways and indirectly between organisms that never come into direct contact. [ABSTRACT FROM AUTHOR]

Published

2021

113. Peatlands of Africa

Author

Grundling, Piet-Louis, Grootjans, Ab P., Finlayson, C. Max, editor, Milton, G. Randy, editor, Prentice, R. Crawford, editor, and Davidson, Nick C., editor

Published

2018

114. Sustainable Architecture Under the Timeline Frame: Case Study of Fujairah in UAE

Author

Yousuf, Tahani, Taleb, Hanan, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Solari, Giovanni, Series Editor, Vayas, Ioannis, Series Editor, Fırat, Seyhan, editor, Kinuthia, John, editor, and Abu-Tair, Abid, editor

Published

2018

115. Deciphering Depositional Environment of Playa Lakes Using Grain Size Parameters in the Arid and Semi-Arid Region of Rajasthan, India

Author

Manish Kumar, Milap Dashora, Rajesh Kumar, Swatantra Kumar Dubey, Pankaj Kumar Gupta, and Alok Kumar

Subjects

playa lakes, depositional environment, end-member modelling, environmentally sensitive grain size, sediment, arid, Agriculture (General), S1-972

Abstract

This study encompasses the grain size distribution of the playa lakes (Pachpadra, Pokhran, and Didwana) of the Thar Desert in Rajasthan, India. The grain size of sediment particles is the most fundamental feature, giving essential information regarding their origin, transport history, and depositional conditions. The aeolian and fluvial transport processes were evaluated through environmentally sensitive grain size subpopulations to identify the differential sedimentary sources and dynamics in the playas. End-member modelling further determined the sediment grain size distribution through statistical analysis. The playa sediments mainly consist of very fine sand (46–54%) and very coarse silt (22–37%). The results show that the average fine fraction of Pachpadra, Pokhran, and Didwana playa was 46.29%, 66.11%, and 66.28%, respectively. In contrast, the average coarser fraction deposition in Pachpadra, Pokhran, and Didwana corresponds to 53.71%, 33.89%, and 33.72%, respectively. This suggests that the playas mostly contain aeolian sediment rather than fluvial sediment transported by dust/sand storms. Additionally, the textural pattern and depositional distribution of the sediments determined through the Passega CM diagram and bivariate plots indicate that 82% of the samples were poorly sorted, and 18% were very poorly sorted. Furthermore, an environmentally sensitive grain size component (ESGSC) was also assessed to identify the spatial variability and transport processes of sediment between these playas. Three ESGSCs in Pokhran (250 µ, 31 µ, and 2 µ) and Pachpadra (125 µ, 31 µ, and 4 µ), while two ESGSCs in Didwana playa (125 µ and 16 µ) were identified, indicating sediment deposition with moderate velocity in a low energy environment with a mixed sediment population transported by aeolian and fluvial activities.

Published

2022

116. Development of Management Zones for Site-Specific Fertilization in Mustard Fields

Author

Zainab Haroon, Muhammad Jehanzeb Masud Cheema, Shoaib Saleem, Muhammad Naveed Anjum, Muhammad Amin, Muhammad Naveed Tahir, Tahir Iqbal, and Faiza Khan

Subjects

smart farming, spatial variability, management zones, Variable Rate Fertilization, arid, Environmental sciences, GE1-350

Abstract

Smart-farming practices can help to overcome the impacts of soil and crop variability on crop yield. This article studies the impact of fertilization treatment on the production of a major oilseed crop, mustard (Brassica campestris L.), in an arid region of Pakistan. Soil-nutrient sampling was performed, using 20 × 20 m grids to characterize and quantify the variation of mustard yield and soil nutrients. Based on the results of a significant correlation between yield and soil nutrients, management zones (MZs) were developed that use Variable Rate Fertilization (VRF) to increase crop production and profitability while reducing environmental risk.

Published

2022

117. Ecophysiological Effects of Groundwater Drawdown on Phreatophytes: Research Trends during the Last Three Decades

Author

Jonathan O. Hernandez

Subjects

arid, biological invasion, evapotranspiration, groundwater depth, groundwater extraction, hyper-arid countries, Agriculture

Abstract

A systematic synthesis of phreatophytes’ responses to groundwater drawdown would provide a more complete picture of groundwater-related research aimed at the sustainable management of groundwater-dependent ecosystems amid climate change. Following the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines, the ecophysiological effects of groundwater drawdown on phreatophytes and methodological approaches were synthesized from peer-reviewed articles published from 1988 to 2022. The highest relative count of studies was found in arid and semi-arid high-income countries, such as Australia and North America (18–24%), while the lowest relative count to no data was found in hyper-arid countries, such as north African countries (0–3.65%). The groundwater depth effects on phreatophyte ecophysiology had the highest relative count (53.65%), followed by large-scale tree plantation effects on the groundwater characteristics (44.37%) and groundwater depth and biological invasion relationship (1.99%). The results revealed that as the groundwater depth increased, the phreatophytic vegetation growth, productivity, and community structure decreased across the ecosystem types. A groundwater withdrawal also had a significant impact on the physiology of the phreatophytes, specifically on the transpiration rate, xylem water potential, hydraulic conductance, and photosynthetic rate. Many of the reviewed studies concluded that large-scale tree plantations can deplete groundwater resources due to an increased evapotranspiration rate. Further, species’ diversity, evenness, dominance, composition, and distribution, as well as the Normalized Difference Vegetation Index (NDVI), are commonly measured parameters in the reviewed studies through vegetation and groundwater monitoring. Amid applied and contemporary problems, this synthesis may provide researchers with cues to conduct studies relevant to the integrated and sustainable conservation and management of groundwater-dependent ecosystems, particularly in data-poor, hyper-arid countries.

Published

2022

118. Spatio-Temporal Modelling Informing Wolbachia Replacement Releases in a Low Rainfall Climate

Author

Dan Pagendam, Samia Elfekih, Majed S. Nassar, Samuel Nelson, Abdulaziz M. Almalik, Essam A. Tawfik, Mohamed B. Al-Fageeh, and Ary A. Hoffmann

Subjects

Aedes aegypti, Wolbachia, pre-release, Saudi Arabia, arid, spatial modelling, Science

Abstract

Releases of Aedes aegypti carrying Wolbachia bacteria are known to suppress arbovirus transmission and reduce the incidence of vector-borne diseases. In planning for Wolbachia releases in the arid environment of Jeddah, Saudi Arabia, we collected entomological data with ovitraps across a 7-month period in four locations. Herein, we show that mosquito presence in basements does not differ from that of non-basement areas of buildings. In modelling mosquito presence across the study sites, we found the spatial structure to be statistically significant in one of the four sites, while a significant spatial structure was found for egg production data across three of the four sites. The length scales of the spatial covariance functions fitted to the egg production data ranged from 143 m to 574 m, indicating that high productivity regions can be extensive in size. Rank-correlation analyses indicated that mosquito presence tended to persist from the dry to wet season, but that egg production ranks at locations could reverse. The data suggest that, in Jeddah, the quality of the local environment for breeding can vary over time. The data support the feasibility of dry season releases but with release numbers needing to be flexible depending on local rates of invasion.

Published

2022

119. Drying of Prickly Pear (Opuntia ficus-indica (L.) Miller) and Its Potential as a Solid Biofuel

Author

Guillermo San Miguel, Diego Fernández-Olmedilla, and Francisco Sánchez-Godoy

Subjects

biomass, arid, semi-arid, drying, pear cactus, chumbera, Agriculture

Abstract

Prickly pear is a species that shows great capability to grow in harsh environments with potential for being used as an energy resource. The aim of this paper was to characterize prickly-pear mature cladodes in terms of chemical, proximal, and fuel properties, as well as to study the drying kinetics of this biomass after pretreatments destined to expose the internal tissues of mature cladodes to different temperatures. The results show that prickly-pear biomass was a poor-quality solid biofuel due to a low calorific value (12.9 MJ/kg d.m.b.) and a high ash content (25.8 wt.%). When drying prickly-pear biomass, cutting the cladodes to expose the internal tissues significantly increased the drying rate, especially when temperatures of 60 °C and above were employed. Double exponential (three parameters) and Midilli were the models that best fitted the experimental curves of prickly-pear cladodes cut into straps and cubes when dried at 50–70 °C. Finally, the bulk density of the prickly-pear biomass was similar to the one obtained for herbaceous biomasses, thus suggesting that further densification will enhance the usability of this feedstock.

Published

2022

120. Experimental manipulation of humidity in a cavity-nesting bird influences ectoparasites' abundance.

Author

Castaño-Vázquez, F., Merino, S., Valera, F., and Veiga, J.

Subjects

*BABY birds, *HUMIDITY, *FLYCATCHERS, *ECTOPARASITES, *ANIMAL behavior, *BLOODSUCKING insects, *CAVE animals, *INSECT nests

Abstract

In this study, we experimentally manipulated temperature in roller I C. garrulus i nests during the nestling period to investigate the effect of an increase of temperature on ectoparasite abundance in nests. Measuring temperature and relative humidity Temperature and relative humidity inside nest boxes were recorded every hour from day 6 to 21 of nestling age with the aid of data loggers (Hygrochron DS1923; 6 × 17 mm, temperature range: -20 to 85°C; resolution 0.0625°C; humidity range: 0-100% with a resolution of 0.04%; Maxim IC, San Jose, California, USA) that were placed at each nest attached under the nest lid. Daily average nest temperature and relative humidity from day 6 to 21 of nestling age were calculated and then an average temperature and relative humidity considering average daily values for that period were used for each nest. Keywords: Arid; Coracias garrulus; ectoparasites; humidity; temperature EN Arid Coracias garrulus ectoparasites humidity temperature 436 443 8 03/29/22 20220401 NES 220401 Introduction In order to understand how host-parasite interactions can evolve, it is also necessary to know the effects of environmental conditions on these interactions (Poulin, 2007). Since we did not find any significant differences in temperature and relative humidity between heated and control nest boxes throughout the day (24 h), we assessed the treatment effect only at night (from 00:00 to 8:00 h), when temperature is not so influenced by sunlight and is decreasing and reaching the lowest daily values into the nest boxes. [Extracted from the article]

Published

2022

121. Observing the pre-convective environment and convection initiation with Doppler Lidar and cloud radar in the Al Hajar Mountains of the United Arab Emirates.

Author

BRANCH, OLIVER, BEHRENDT, ANDREAS, ALNAYEF, OSAMA, SPÄTH, FLORIAN, SCHWITALLA, THOMAS, TEMIMI, MAROUANE, WESTON, MICHAEL, FARRAH, SUFIAN, AL YAZEEDI, OMAR, TAMPI, SIDDHARTH, DE WAAL, KAREL, and WULFMEYER, VOLKER

Subjects

DOPPLER lidar, RADAR, CLOUD condensation nuclei, CLOUD dynamics, EXTREME environments, WIND shear, RAIN-making

Abstract

In this study, we present multi-season measurements from a remote mountain peak observatory in the United Arab Emirates (UAE). During the campaign, Doppler lidar and cloud radar were employed using coordinated scan patterns, to study seedable convective clouds, and identify pre-convection initiation clearair signatures. The instruments were employed for approximately two years in an extreme environment with a high vantage point for observing valley wind flows and convective cells. The instruments were configured to run synchronized plan position indicator (PPI) scans at 0°, 5°, and 45° elevation angles and vertical crosssection range height indicator (RHI) scans at 0°, 30°, 60°, 90°, 120°, and 150° azimuth angles. Using this output imagery, along with local C-band radar and satellite data, we were able to identify and analyse several convective cases. To illustrate this synergy of measurements, we present two cases in unstable conditions - the 5 and 6 September 2018. In both cases, we observed areas of convergence/divergence to the south-west of the observatory, associated with wind flow around a peak 2 km to the south-west. The extension of these deformations were visible in the atmosphere as high as 3 km above sea level. Subsequently, we observed convective cells developing in the same directions - apparently connected with these phenomena. The cloud radar Doppler images provided detailed observations of cloud hydrometeor dynamics. In both convective cases, pre-convective signatures were apparent before CI, in the form of convergence, wind shear structures, and updrafts. These results demonstrate the potential of these synergetic observations for understanding convection initiation processes and in the future, to provide cloud seeding guidance via early detection of CI events. [ABSTRACT FROM AUTHOR]

Published

2022

122. Characterization of Physiological Efficiency and Gall Tolerance of Eucalyptus Clones Under Field Conditions

Author

Pugazhendhi, A., Jayaraj, R.S.C., and Warrier, Rekha R

Published

2018

123. Assessing the Impact of Land Cover, Soil, and Climate on the Storage Potential of Dryland Sand Dams

Author

Jessica A. Eisma, Siddharth Saksena, and Venkatesh Merwade

Subjects

arid, semi-arid, sub-Saharan Africa, hydrologic modeling, climate change, evapotranspiration, Environmental technology. Sanitary engineering, TD1-1066

Abstract

Sand dams, a water-harvesting structure employed by rural communities in drylands have an inconsistent record of effectiveness. While many sand dams are highly functioning, improper siting, siltation, seepage, and high rates of evaporation from shallow sand reservoirs inhibit the water storage capacity of some sand dams. This study examines large-scale drivers of sand dam storage potential through analysis of an integrated surface and subsurface flow model. Multiple simulations were run, and comparative simulation analyses consider the effect of geomorphological factors, intraseasonal rainfall variability, and future climate conditions on sand dam performance criteria. The analyses revealed that a watershed highly cultivated with low water crops actually reduces evapotranspiration below that of natural vegetation and supports higher groundwater recharge. Additionally, intraseasonal variation and volume of rainfall impact sand dam performance less than the prevailing pattern and duration of dry and rainy seasons. Sand dams constructed in watersheds with sandier soils may experience greater connectivity with the stream margins and thus provide additional groundwater recharge. Lastly, climate change may improve some conditions desirable for sand dam performance, such as extending the duration of the rainy season and reducing overall evapotranspiration. However, the interactions between the expected climate change conditions and other geomorphological factors may result in a net decline in sand dam performance. The results of this study may help identify watersheds that are likely to support a sand dam with high potential for capturing and storing water throughout the dry season.

Published

2021

124. Using vadose-zone water stable isotope profiles for assessing groundwater recharge under different climatic conditions.

Author

Boumaiza, Lamine, Chesnaux, Romain, Drias, Tarek, Walter, Julien, and Stumpp, Christine

Subjects

*GROUNDWATER recharge, *STABLE isotopes, *WATER use, *SOIL sampling, *PISTONS

Abstract

Considering three sites under different climate conditions (arid, semi-arid, and subhumid), this study aims to use the vadose-zone water stable isotope profiles to estimate the groundwater recharge rate. High-resolution vertical subsurface soil sampling along the vadose zone of the investigated sites was conducted. The collected samples were analysed to determine their stable isotope ratios (δ2H and δ18O) that were used along with the piston displacement method to estimate recharge. Annual recharge rates of 0.2% (± 0.1%), 2.5%, and 18% of the total annual precipitation were obtained for the arid, semi-arid, and subhumid sites, respectively. Recharge rates at the semi-arid and subhumid sites are comparable to those previously estimated using water balance-based methods. The recharge rate at the arid site is lower than that previously estimated for that site using the water budget-based method, revealing difficulties in applying the piston displacement method under an arid regime. [ABSTRACT FROM AUTHOR]

Published

2021

125. IMPACTS OF THREE IRRIGATION WATER SOURCES ON GROWTH, YIELD AND GRAIN ELEMENTS CONTENT OF SOME SAUDI ARABIA BARLEY (Hordeum vulgare L.) LANDRACES.

Author

Almohisen, Ibrahim A. A. and Alsharari, Sultan F.

Subjects

*IRRIGATION water, *BARLEY, *DRINKING water, *GROUNDWATER, *WATER shortages, *PLANT yields, *GRAIN yields

Abstract

Considering water scarcity in Saudi Arabia, flied experiment was performed to assess the growth, grain yield and grain elements content of locally cultivated barley (Hordeum vulgare L.). Ten landraces were irrigated with three irrigation water sources, tap water (TW), underground water (UW) and treated municipal wastewater (TMW). Significant increase of: growth such as height, tillers and spike length, and number and yield traits, 1000 grain weight and maximum yield per individual plant were recorded in plants treated with TMW compared to the other two irrigation treatments. Further, interaction of irrigation treatments and landraces significantly improved growth and plant yield of LR3 (Ad-Dilam local barley), LR5 (Buraidah local barley) and LR6 (Asir barley) treated with TMW (had the highest height, maximum tiller number, spikes length cm), and grain per spike and plant. Macro and microelement accumulation increased in the grain of barley landraces irrigated with TMW. However, trace elements levels did not exceed safe limits, with exception of Cd in all barley landraces grain was higher > 0.2 mg kg-1. Nevertheless, landraces LR6 (Asir barley) LR7 (Buraydah barley) and LR8 (Hail barley) accumulated Cd within safe limit. TMW is a viable choice for some barley cultivation sustainability to safe drinking and ground water. [ABSTRACT FROM AUTHOR]

Published

2021

126. Greenhouse gas emissions from an arid-zone reservoir and their environmental policy significance: Results from existing global models and an exploratory dataset.

Author

Waldo, Sarah, Deemer, Bridget R., Bair, Lucas S., and Beaulieu, Jake J.

Subjects

GREENHOUSE gases, ENVIRONMENTAL policy, FOSSIL fuels, CARBON dioxide, NATURAL gas, ARID regions

Abstract

[Display omitted] • Shallow tributary regions (<15 m depth) were the main source of GHGs. • Methane dominated the CO 2 equivalent emissions throughout the reservoir. • GHG emissions per MWh vary dramatically with reservoir water level. • GHG emissions per MWh were low compared to other conventional energy sources. Reservoirs in arid regions often provide critical water storage but little is known about their greenhouse gas (GHG) footprint. While there is growing appreciation of the role reservoirs play as GHG sources, there is a lack of understanding of GHG emission dynamics from reservoirs in arid regions and implications for environmental policy. Here we present initial GHG emission measurements from Lake Powell, a large water storage reservoir in the desert southwest United States. We report CO 2 -eq emissions from the shallow (< 15 m) littoral regions of the reservoir that are higher than the global average areal emissions from reservoirs (9.4 vs. 5.8 g CO 2 -eq m−2 d−1) whereas fluxes from the main reservoir were two orders of magnitude lower (0.09 g CO 2 -eq m−2 d−1). We then compared our measurements to modeled CO 2 + CH 4 emissions from the reservoir using four global scale models. Factoring these emissions into hydropower production at Lake Powell yielded low GHG emissions per MWh−1 as compared to fossil-fuel based energy sources. With the exception of one model, the estimated hydropower emissions for Lake Powell ranged from 10−32 kg CO 2 -eq MWh−1, compared to ∼400−1000 kg CO 2 -eq MWh−1 for natural gas, oil, and coal. We also estimate that reduced littoral habitat under low water levels leads to ∼50% reduction in the CO 2 equivalent emissions per MWh. The sensitivity of GHG emissions to reservoir water levels suggests that the interaction will be an important policy consideration in the design and operation of arid region systems. [ABSTRACT FROM AUTHOR]

Published

2021

127. Flood‐duration‐integrated stream power and frequency magnitude of >50‐year‐long sediment discharge out of a hyperarid watershed.

Author

Lekach, Judith and Enzel, Yehouda

Subjects

SEDIMENTS, ALLUVIAL fans, WATERSHEDS, SEDIMENT transport, CLIMATOLOGY

Abstract

Determining sediment discharge out of watersheds is a global, long‐term challenge. In the vast, usually data‐poor, hyperarid regions of the world, this is a greater challenge. Here, we present a unique, decades‐long dataset of individual floods and their respective sediment discharge out of Nahal Yael, an experimental, well‐instrumented, hyperarid (~25–30 mm year−1) watershed in southern Israel. The high correlation between directly measured sediment yield by discrete individual floods and their respective total energy, represented by flood‐integrated stream power (FISP), serves here as a rating curve. Using this rating curve, the 51‐year‐long series of FISP in Nahal Yael, calculated from the detailed individual flood hydrographs, was converted into a series of sediment yield by these floods. This, in turn, allows determining the long‐term frequency‐magnitude of sediment exported out of this hyperarid basin. This can assist in landscape evolution modeling, in testing impacts of flood frequency changes enforced by altered regional climatology, and hint at changes needed in forming the observed alluvial fans. We conclude that, at the decadal scale, moderate floods are the most effective in terms of total sediment transport. However, the recurrence intervals of these moderate hyperarid floods are longer than in temperate regions and reach 5–10 years. [ABSTRACT FROM AUTHOR]

Published

2021

128. Increases in thermophilus plants in an arid alpine community in response to experimental warming

Author

Meagan F. Oldfather and David D. Ackerly

Subjects

alpine, arid, climate change, community climatic niche, thermophilization, Environmental sciences, GE1-350, Ecology, QH540-549.5

Abstract

A warming climate has been shown to drive thermophilization—shifts in species abundance toward those adapted to warm and dry conditions. The community dynamics shaping this process have been proposed to vary between temperature-limited alpine plant communities and those that are both temperature and moisture limited. In nine sites across the xeric alpine zone in the White Mountains, California, USA, we experimentally increased summertime temperature and precipitation for three seasons and quantified community responses with a climatic niche analysis. We asked if thermophilization occurred in response to experimental heating, and if this effect was ameliorated by experimental watering. Under experimentally warmer conditions, we found no change in the mean community-weighted climatic niche (CCN); however, thermophilization of this community was observed based on a shift in the seventy-fifth percentile of the CCN and an increase in the proportional abundance of the hottest, driest adapted species. In addition, total vegetation abundance increased and species richness decreased with heating. Experimental watering did not ameliorate these effects of heating. Together, these results suggest that warming in arid alpine areas may result in less diverse plant communities dominated by hot, dry associated species, although short-term responses may be limited because of community lags.

Published

2019

129. Livestock in rural piedmont regions of Algeria

Author

Khalila Bengouga, Salwa Lahmadi, Reguia Zeguerou, Moufida Maaoui, and Youcef Halis

Subjects

Algeria, arid, breeding, family, piedmont, Animal culture, SF1-1100

Abstract

A livestock survey conducted during 2013/2015 as part of a CRSTRA project in 4 villages situated at North east Biskra and south Batna in Algeria. These regions are located at elevation ranging around 250-831m asl, experiencing arid and semi-arid Mediterranean climate. Respondents of 86 families demonstrated that livestock is an integral part of the region's mixed farming systems. Low livestock numbers per most households at present reflect the selfconsumption breeding mode adapted in these regions. Currently, farmers focus on four main livestock types; goat, sheep, chicken and bee keeping in two regions, it is the case of Beni Souik and Branis , while Maafa includes beyond these types, turkey and pigeon whereas Ain Zaatout includes duck and swine beside the previous livestock types. In the same context; goat ranked first in the four regions, goat and sheep secondly then goat and poultry with goat combined to sheep and poultry in third place. Thus; most families use a combination of grazing, agriculture sub-products and industrial products for the nutrition of their livestock. Families keep livestock as source of milk, butter, wool or hair, leather and other products that are strongly used as nutritional, weaving supply or stocking covering resources for the family members or friends and in some cases for sell to seekers of animal products of indigenous territory origins. Most families use these products for family and friend consumption while a minority sell some of them on local markets.

Published

2019

130. Soil Inorganic Carbon as a Potential Sink in Carbon Storage in Dryland Soils—A Review

Author

Anandkumar Naorem, Somasundaram Jayaraman, Ram C. Dalal, Ashok Patra, Cherukumalli Srinivasa Rao, and Rattan Lal

Subjects

arid, carbonate, carbon sequestration, climate change, pedogenic carbonate, Agriculture (General), S1-972

Abstract

Soil organic carbon (SOC) pool has been extensively studied in the carbon (C) cycling of terrestrial ecosystems. In dryland regions, however, soil inorganic carbon (SIC) has received increasing attention due to the high accumulation of SIC in arid soils contributed by its high temperature, low soil moisture, less vegetation, high salinity, and poor microbial activities. SIC storage in dryland soils is a complex process comprising multiple interactions of several factors such as climate, land use types, farm management practices, irrigation, inherent soil properties, soil biotic factors, etc. In addition, soil C studies in deeper layers of drylands have opened-up several study aspects on SIC storage. This review explains the mechanisms of SIC formation in dryland soils and critically discusses the SIC content in arid and semi-arid soils as compared to SOC. It also addresses the complex relationship between SIC and SOC in dryland soils. This review gives an overview of how climate change and anthropogenic management of soil might affect the SIC storage in dryland soils. Dryland soils could be an efficient sink in C sequestration through the formation of secondary carbonates. The review highlights the importance of an in-depth understanding of the C cycle in arid soils and emphasizes that SIC dynamics must be looked into broader perspective vis-à-vis C sequestration and climate change mitigation.

Published

2022

131. Speleothem growth phases in the central Eastern Desert of Egypt reveal enhanced humidity throughout MIS 5

Author

Andrea Schröder-Ritzrau, Norbert Frank, Olaf Bubenzer, Karin Kindermann, René Eichstädter, Daniel Herwartz, Felix Henselowsky, and Ahmed Almoazamy

Subjects

Mediterranean climate, 010506 paleontology, geography.geographical_feature_category, Speleothem, 010502 geochemistry & geophysics, Monsoon, 01 natural sciences, Arid, Geography, Tropical climate, Temperate climate, Stadial, Precipitation, Physical geography, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

Speleothem deposits in nowadays arid environments are important climate archives, as they indicate phases of enhanced precipitation and can precisely be dated by uranium-series dating. So far only very few of such archives have been found in the today hyper-arid Saharo-Arabian Desert (SAD). Therefore, the study at hand fills a gap that exists for speleothem climate archives in Northeast Africa. A new record from Saqia Cave (Central Eastern Desert, Egypt) documents for the first-time speleothem growth in Egypt for all sub-stages of MIS 5 and singular phases during MIS 6. Most important growth phases occur during periods of strong increase and maximum orbitally-forced northern hemisphere insolation, but also during phases of low insolation, which are in general attributed to aridity in North Africa. Here, at least semi-arid climate conditions are proposed for periods of low insolation during stadials of MIS 5. This suggests an impact of different possible sources of precipitation, apart from large scale shifts of the African monsoon, such as Red Sea Troughs, tropical plums and a larger spatial extent of the Mediterranean winter-rainfall zone. Concerning the spatial rainfall pattern in Egypt, we propose a considerable east to west rainfall gradient in Egypt for the Last Interglacial and suggest a stronger impact of variable moisture sources in the Eastern Desert near the Mediterranean and Red Sea in comparison to the more continental Western Desert of Egypt. This reveals more favorable pre-conditions for an enhanced land use potential in the past. Therefore, the more sustaining wetter climate in the Eastern Desert point to a recurring feasible dispersal corridor for Homo sapiens from the tropical climate into the temperate climate regime throughout MIS 5. Such a more humid climate provided an ideal basis for long-term, favorable environmental conditions east of the Nile Valley, creating a kind of contiguous landscape corridor that may have been attractive to humans and wildlife alike, linking the East African tropical climate regime with that of the temperate zone in Northeast Africa and Eurasia.

Published

2023

132. A Trickle of Authority: The Arid Conditions of Empire in Eighteenth-Century Xinjiang

Author

David Anthony Bello

Subjects

History, Geography, Arts and Humanities (miscellaneous), media_common.quotation_subject, Geography, Planning and Development, Empire, Environmental Science (miscellaneous), Ancient history, Arid, TRICKLE, media_common

Abstract

This article will explore some of the Qing Empire's primary adaptations, mainly pastoral and agricultural, to the arid environments of southern, eastern and northern Xinjiang - that is, the Tarim, Hami-Turfan and Zünghar basins respectively. It first examines the region's arid climate and its constraining implications for, first, agriculture as the empire's standard form of territorial incorporation in the south and east; and, second, pastoralism and agro-pastoralism in the north. These relations were not purely social, but were conditioned within both human and natural parameters. Xinjiang's general aridity informed Qing interactions with the territory's diverse peoples, which presented both cultural and ecological - that is, environmental - obstacles and opportunities.

Published

2023

133. Sand Dams as a Potential Solution to Rural Water Security in Drylands: Existing Research and Future Opportunities

Author

Hannah Ritchie, Jessica A. Eisma, and Alison Parker

Subjects

water harvesting, rural communities, arid, semi-arid, water quality, modeling, Environmental technology. Sanitary engineering, TD1-1066

Abstract

Sand dams, a rainwater harvesting technique, are small dams constructed across ephemeral streams. During the rainy season, water is stored in the sand that accumulates behind the dam. Sand dams provide communities in drylands with water during the dry season via scoop holes, pools, and shallow wells. Whilst many studies portray sand dams as a positive solution to the growing threat of dryland water insecurity, others highlight their challenges, including poor water quality, evaporation and leakage from some dams, and the contested failure rate and ability of dams to provide water year-round. This article reviews the peer-reviewed and gray literature on sand dams discovered through Scopus and Google Scholar searches, reference lists, and personal contacts. Findings from the collected literature were reviewed and categorized into sand dam hydrology, health and well-being impacts, economic cost and benefits, and water quality topics. In most numerical simulations, sand dams supply water to the local community throughout much of the dry season and exhibit a long-term positive impact on groundwater. Accounts of water storage and loss based on field measurements, conversely, often show that most water is lost due to evapotranspiration and seepage from the sand reservoir rather than community use. Furthermore, the positive impact on local groundwater storage, while variable, is likely seasonal. Sand dams are relatively affordable to build; construction estimates range from 6,000 to 8,500 EUR. However, existing literature suggests that sand dams are likely not a cost-efficient means of supplying water. Nevertheless, successful sand dams can significantly increase water availability and use, whilst reducing traveling time for water collection, subsequently providing a host of secondary benefits from improved hygiene, economic opportunity, and education. Positive impacts, however, are not equally shared and depend on variables, such as abstraction method, catchment, and household location. Furthermore, their water quality is variable, with high microbiological levels detected especially in scoop holes. Whilst sand dams can increase water security and resilience, they may not be an inclusive solution for all. More research is needed to assess the long-term sustainability of sand dams while accounting for the uncertainty of a changing climate.

Published

2021

134. Saint Martin/Sint Maarten and Saint Barthélemy

Author

Fielding, Russell, Migoń, Piotr, Series editor, and Allen, Casey D., editor

Published

2017

135. Heat-distribution in the body and wings of the morpho dragonfly Zenithoptera lanei (Anisoptera: Libellulidae) and a possible mechanism of thermoregulation.

Author

Guillermo-Ferreira, Rhainer and Gorb, Stanislav N

Subjects

*DRAGONFLIES, *BODY temperature regulation, *BODY temperature, *INFRARED radiation, *COOLDOWN, *WING-warping (Aerodynamics)

Abstract

Animals that live in hot environments must deal with extreme temperatures and overcome the constraints imposed by overheating. Some species exhibit remarkable adaptations to control body temperature, usually in the form of structures that act as thermal windows to cool down the body by dissipating heat. Here, we describe the case of the dragonfly Zenithoptera lanei , which inhabits open areas in the Neotropical Savannah and the Amazon. Males have striking and unique adaptations on the wings, not known in any other insect. The wings are covered with wax nanocrystals that reflect ultraviolet light and infrared radiation. Furthermore, the wing membrane is permeated by an intricate system of tracheae, another unique trait in Insecta. We hypothesized that these adaptations might be important not only for intraspecific communication, but also for thermoregulation. We analysed male body and wing temperatures and compared them with another dragonfly with common translucent wings. The results suggest that the dorsal wing surface acts as a cooling system, whereas the ventral surface might serve to elevate body temperature. Therefore, we conclude that Z. lanei possesses adaptations that are unique in nature; a complex system of thermoregulation with the dual function of cooling down or elevating body temperature, depending on wing position. [ABSTRACT FROM AUTHOR]

Published

2021

136. Too much of a good thing: Shrub benefactors are less important in higher diversity arid ecosystems.

Author

Lortie, Christopher J., Zuliani, Mario, Ghazian, Nargol, Haas, Stephanie, Braun, Jenna, Owen, Malory, Miguel, Florencia, Seifan, Merav, Filazzola, Alessandro, Lucero, Jacob, and Wright, Alexandra

Subjects

*PLANT diversity, *NUMBERS of species, *SPECIES diversity, *ECOSYSTEMS, *SHRUBS, *PLANT competition

Abstract

The biodiversity–ecosystem function literature provides a useful framework to examine many processes associated with species diversity in ecology. One such context is the maintenance of biodiversity by facilitation in arid ecosystems.Here, we examined the complex interactions between local plant species richness and the intensity of shrub facilitation for maintaining biodiversity in arid plant communities.A synthesis including a meta‐analysis was used to compile nearly 600 papers on positive interactions mediated by shrubs in dryland plant communities (search terms: shrub, positive, facilitat*) to examine whether interactions in these studies changed with reported local species richness. A total of 19 studies and 141 independent instances directly examined and reported facilitation of diversity measures in naturally assembled plant communities and provided estimates of local species richness.Synthesis. The net effect of increasing local plant species richness was negative and shifted the relative frequency of interactions with shrubs from positive to negative with increasing local species richness. This relationship suggests that increases in richness do not always enhance functions that maintain diversity in plants communities likely due to concurrent increases in the indirect negative interactions between species under shrubs or in changes in the local species pool. [ABSTRACT FROM AUTHOR]

Published

2021

137. Prevalence of fluke infestation in sheep flocks of Rajasthan, India.

Author

Swarnkar, C. P., Khan, F. A., and Singh, D

Subjects

*ARID regions, *TREMATODA, *SHEEP, *FASCIOLA, *SCHISTOSOMA, *MONSOONS

Abstract

To chalk-out suitable management strategy for fluke infestation in sheep flocks, their prevalence was studied in two different agro-climatic regions of Rajasthan. From April, 2004 to March, 2018, a total of 89112 faecal samples were examined for flukes by sedimentation technique. An overall prevalence was maximum (6.08%) for Paramphistomum spp. followed by 0.19% for Schistosoma indicum and minimum (0.03%) for Fasciola gigantica. Prevalence of Paramphistomum spp. and S. indicum was significantly higher in semi-arid region (8.66 and 0.22%) compared to arid region (1.51 and 0.12%). The overall annual prevalence rates varied significantly from 1.69 to 9.70% for Paramphistomum spp, from 0.02 to 1.73% for S. indicum and from nil to 0.12% for F. gigantica. The prevalence of all the three flukes was found to be influenced significantly by month and season. For Paramphistomum spp, the overall monthly prevalence varied from 0.15% (Nov) to 16.60% (Jul). The seasonal prevalence was maximum during monsoon and minimum during winter. The occurrence of F. gigantica was sporadic in arid region as compared to regularity in semi-arid region. The monthly profile of S. indicum exhibited significantly higher prevalence (>0.20%) from May to August in arid region and from July to October in semi-arid region. A significant effect of agro-climatic region on prevalence of S. indicum was noticed only during monsoon season with higher incidence in semi-arid region (0.59%) as compared to arid region (0.25%). The study suggested that the fluke infections are present in endemic pattern in sheep flocks of Rajasthan (particularly in semi-arid region) and deserves serious attention. Therefore, it is important to obtain detail information on host parasite relationship and snail species which will aid for developing suitable control strategies. [ABSTRACT FROM AUTHOR]

Published

2021

138. A comparative analysis of gaseous phase hydration properties of two lichenized fungi: Niebla tigrina (Follman) Rundel & Bowler from Atacama Desert and Umbilicaria antarctica Frey & I. M. Lamb from Robert Island, Southern Shetlands Archipelago, maritime Antarctica

Author

Harańczyk, Hubert, Strzałka, K., Kubat, K., Andrzejowska, A., Olech, M., Jakubiec, D., Kijak, P., Palfner, G., and Casanova-Katny, Angélica

Subjects

*HYDRATION, *HYDRATION kinetics, *DESERTS, *COMPARATIVE studies, *DISTRIBUTION isotherms (Chromatography)

Abstract

Gaseous phase hydration properties for thalli of Niebla tigrina from Atacama Desert, and for Umbilicaria antarctica from Isla Robert, maritime Antarctica, were analyzed using 1H-NMR relaxometry, spectroscopy, and sorption isotherm analysis. The molecular dynamics of residual water was monitored to distinguish the sequential binding very tightly, tightly, and loosely bound water fractions. These two species differ in hydration kinetics faster for Desert N. tigrina [A1 = 0.51(4); t1 = 0.51(5) h, t2 = 15.0(1.9) h; total 0.7 for p/p0 = 100%], compared to Antarctic U. antarctica [A1 = 0.082(6), t1 = 2.4(2) h, t2 = [26.9(2.7)] h, total 0.6 for p/p0 = 100%] from humid polar area. The 1H-NMR measurements distinguish signal from tightly bound water, and two signals from loosely bound water, with different chemical shifts higher for U. antarctica than for N. tigrina. Both lichen species contain different amounts of water-soluble solid fraction. For U. antarctica, the saturation concentration of water soluble solid fraction, cs = 0.55(9), and the dissolution effect is detected at least up to Δm/m0 = 0.7, whereas for N. tigrina with the similar saturation concentration, cs = 053(4), this fraction is detected up to the threshold hydration level equal to ΔM/m0 = 0.3 only. [ABSTRACT FROM AUTHOR]

Published

2021

139. Shrub density effects on the community structure and composition of a desert animal community.

Author

Zuliani, Mario, Ghazian, Nargol, and Lortie, Christopher J.

Subjects

*ANIMAL communities, *SHRUBS, *NATIONAL monuments, *ANIMAL species, *WILDLIFE conservationists, *SENSOR placement, *ANIMAL populations

Abstract

Positive interactions between shrubs and animals are frequent in desert ecosystems. Shrub canopies can provide refuge to some animal species from predators and shelter from stressful environmental conditions by ameliorating high temperatures through lowering the amplitude of variation. Consequently, there have been many contrasts of shrub versus open effects; however, we extend this approach further by testing these effects on a gradient of shrub densities in the Carrizo National Monument, California. We tested the hypothesis that shrub density is a landscape-level predictor of vertebrate community composition and structure. We used camera traps, transects and focal observations to estimate animal density and composition, alongside the deployment of temperature sensors. Plots were established within shrub patches ranging from 0 to 12 shrubs per 10 m radius. Plots with relatively higher shrub densities had increased abundance and richness of vertebrate animal species. Temperature and residual dry matter were also important mediators of animal density and richness. Shrub cover was also an important driver of animal communities but we propose that shrub density is a more rapid proxy for vegetation effects in deserts relevant to wildlife conservationists, and managers. [ABSTRACT FROM AUTHOR]

Published

2021

140. Modelling species distributions and environmental suitability highlights risk of plant invasions in western United States.

Author

McMahon, Devin E., Urza, Alexandra K., Brown, Jessi L., Phelan, Conor, Chambers, Jeanne C., and Ibáñez, Inés

Subjects

*SPECIES distribution, *PLANT invasions, *NUMBERS of species, *REGRESSION trees, *CURRENT distribution, *ECOLOGICAL risk assessment, *ENVIRONMENTAL risk, *PRAIRIES

Abstract

Aim: Non‐native invasive plants impact ecosystems globally, and the distributions of many species are expanding. The current and potential distributions of many invaders have not been characterized at the broad scales needed for effective management. We modelled the distributions of 15 non‐native invasive grass and forb species of concern in western North America to define their environmental niches and predict potential invasion risk. Location: Arid and semi‐arid western United States. Methods: We modelled species distribution using presence/absence data from > 148,000 vegetation survey plots to predict the probability of presence of each species based on associated climate, soil, topography and disturbance records. Boosted regression tree models were trained and tested within a buffer distance from presence observations of each species. Buffers were optimized by adding absence observations from increasingly large areas until prediction of presence was maximized, as defined by the area under the precision‐recall curve (AUPRC). We evaluated model AUPRC and other metrics by cross‐validation within training areas, then projected final models within focal EPA level III ecoregions. Results: Focal species were present in 2.7% to 21% of plots within model training areas of 40 to 340 km radius. Models conservatively estimated potential species presence, with typically low false positive rates and moderate sensitivity. The most influential predictors of presence included minimum temperature (especially for grasses), climatic water deficit, precipitation seasonality and fire history. Cold desert ecoregions were impacted by the most species, with predicted range expansion into the prairie ecoregions and infilling for Warm Desert species. Main conclusions: Invasive forb and grass species are likely to expand their ranges and continued increases in temperature, aridity and area burned will increase invasion risk. Monitoring species presence and absence and mapping known and potential ranges with a focus on presence detection, as in our methodology, will aid in identifying new invasions and prioritizing prevention and control. [ABSTRACT FROM AUTHOR]

Published

2021

141. ISOLATION AND CHARACTERIZATION OF ARBUSCULAR MYCORRHIZAL FUNGI SPORES FROM DATE PALM RHIZOSPHERE IN AN ARID REGION.

Author

Harkousse, Oumaima, Mohamed, Aitboulahsen, Amine, MazriMouaad, Ouahmane, Lahcen, Koussa, Tayeb, and Al Feddy, Mohamed Najib

Subjects

WATER shortages, COLONIZATION, PLANTS, RHIZOSPHERE, SPORES

Abstract

The arid lands are the most disturbed and degraded, mainly because of the wind, water shortage, and salinization. With the loss of vegetation and loss of productive surface soil as primary factors. In these areas, the protection and regeneration of degraded lands are critical for sustainable agriculture, and dryland ecosystem's enhancement. Mycorrhizal fungi take up a substantial portion of soil rhizosphere microflora and play an essential role in plant development. In this context, a study of mycorrhizal spores isolated from the date palm rhizosphere located in the Zagora palm groves (Moroccan desert) was conducted. The collected soil samples were analyzed for chemical and physical properties and spores were separated from the soil and examined. Root colonization, spore density, abundance, and morphological studies, were the considered parameters. The mean frequencies and intensities of colonization were 98% and 73% respectively. The maximum spore density was at 34,165 spores / 20 g of soil, and the lowest was at 22,015 spores / 20g according to the site. Twenty-eight arbuscular mycorrhizal fungi species belonging to seven genera were identified in all the sites studied. These endomycorrhizal were significantly similar in the four different soil samples. The "Zagora" inoculum contains a mixture of the mycorrhizal spores previously mentioned. [ABSTRACT FROM AUTHOR]

Published

2021

142. Responses and recovery among seedlings of some arid land woody legumes under combined effects of sudden drought and nutrient stress.

Author

Buba, T., Gaya, A. E., Bako, S. P., and Sabo, M. U.

Subjects

DROUGHTS, ARID regions, LEGUMES, DROUGHT tolerance, ACACIA nilotica, SEEDLINGS, BAUHINIA

Abstract

The present study investigated the combined effects of sudden drought and low soil nutrients on drought responses and recovery among seedlings of some leguminous species. Nutrient stress has negative effects on drought resistance of the plants. Further, drought responses and recovery capacity from sudden drought and nutrient stress differ among seedlings of different plant species. Bauhinia Rufescens and Acacia nilotica had the highest percentage (p=0.001) of re-sprouted leaves (mean: 92.6 and 136.0, respectively), and the least were found in Faidherbia albida and Piliostigma thoningii (27.1 and 47.5, respectively). A. nilotica and B. rufescens had significantly (p=0.001) lowest recorded number of dead seedlings with a total number of 2 and 0, respectively. The highest number of dead plants was recorded for F. albida (22) and P. thoningii (13). B. rufescens, A. nilotica and P. reticulatum are therefore recommended for rehabilitation purposes in the arid zones. [ABSTRACT FROM AUTHOR]

Published

2021

143. Fungal Communities on Standing Litter Are Structured by Moisture Type and Constrain Decomposition in a Hyper-Arid Grassland

Author

J. Robert Logan, Kathryn M. Jacobson, Peter J. Jacobson, and Sarah E. Evans

Subjects

litter decomposition, non-rainfall moisture, fog, dew, arid, dryland, Microbiology, QR1-502

Abstract

Non-rainfall moisture (fog, dew, and water vapor; NRM) is an important driver of plant litter decomposition in grasslands, where it can contribute significantly to terrestrial carbon cycling. However, we still do not know whether microbial decomposers respond differently to NRM and rain, nor whether this response affects litter decomposition rates. To determine how local moisture regimes influence decomposer communities and their function, we examined fungal communities on standing grass litter at an NRM-dominated site and a rain-dominated site 75 km apart in the hyper-arid Namib Desert using a reciprocal transplant design. Dominant taxa at both sites consisted of both extremophilic and cosmopolitan species. Fungal communities differed between the two moisture regimes with environment having a considerably stronger effect on community composition than did stage of decomposition. Community composition was influenced by the availability of air-derived spores at each site and by specialization of fungi to their home environment; specifically, fungi from the cooler, moister NRM Site performed worse (measured as fungal biomass and litter mass loss) when moved to the warmer, drier rain-dominated site while Rain Site fungi performed equally well in both environments. Our results contribute to growing literature demonstrating that as climate change alters the frequency, magnitude and type of moisture events in arid ecosystems, litter decomposition rates may be altered and constrained by the composition of existing decomposer communities.

Published

2021

144. Transient Flooding and Soil Covering Interfere with Decomposition Dynamics of Populus euphratica Leaf Litter: Changes of Mass Loss and Stoichiometry of C, N, P, and K

Author

Yuhai Yang, Honghua Zhou, Wanrui Wang, Chenggang Zhu, Dong Cui, and Zhaoxia Ye

Subjects

leaf, decay, litter, forest, arid, disturbance, Plant ecology, QK900-989

Abstract

Litter decomposition plays a critical role in carbon and nutrient cycling in terrestrial and aquatic ecosystems. However, the effects transient flooding and soil covering have on leaf litter decomposition remain unclear. The changes of litter mass loss and stoichiometric ratio of C:N (the ratio of carbon to nitrogen), C:K (the ratio of carbon to potassium), C:P (the ratio of carbon to phosphorus), N:P (the ratio of nitrogen to phosphorus), and N:K (the ratio of nitrogen to potassium) of fresh Populus euphratica (P. euphratica) leaves in surface, transient flooding, and soil covering treatments were studied using litterbags in a desert riparian forest in a field decomposition experiment for a period of 640 d. The results showed that there was a significant influence of disturbance type and incubation time on litter mass loss rate and stoichiometric ratios of C:N, C:K, C:P, N:P, and N:K of fresh P. euphratica leaves, but no significant influence of the interaction between disturbance type and incubation time on leaf litter mass loss. In three treatments, five sequential phases of leaf litter mass loss rate and different temporal change patterns of stoichiometric ratio were identified within 640 d. Transient flooding was shown to affect P. euphratica leaf litter mass loss phases compared to that in no-disturbance conditions, and especially promote leaf litter mass loss within 0–173 d of incubation time. It was also demonstrated that transient flooding and soil covering can influence leaf litter decomposition, which led to the leaf litter mass loss rate and the stoichiometric ratios of C:N, C:K, C:P, N:P, and N:K exhibiting varied patterns and phases in different treatments during decay.

Published

2022

145. Goat Breeding: A Possible Sustainable Way to Manage Xerophytic Thickets in Southwestern Madagascar

Author

Josoa R. Randriamalala and Dominique Hervé

Subjects

arid, deforestation, goat husbandry, Madagascar, rangeland, sustainability, Agriculture

Abstract

Spiny thickets or xerophytic thickets (XTs) are a type of shrubby vegetation found in the far south and southwest of Madagascar, the driest parts of the island. This type of vegetation, which is rich in endemic animal and plant species, is endangered. Extensive local goat breeding (Capra hircus, for meat and milk production) based on XT browsing is an important source of household income. The aim of this paper is to analyse the possibility of using improved goat breeding as an alternative to wood charcoal (WC) production and slash-and-burn agriculture (SBA), which are unsustainable activities. The literature on (i) the impacts of SBA, WC production, and goat browsing on the XT ecosystem and (ii) the income provided by these three activities is reviewed to determine the sustainability level of improved goat husbandry. SBA and WC production reduced XT biomass and XT cover area, while goat browsing alone, at a stocking rate of one head per hectare, did not affect XT leaf biomass production and shrub regeneration. Furthermore, batch breeding and flushing techniques provided the highest annual income, mainly from the sale of surplus animal products. This improved goat husbandry may be a sustainable alternative to WC production. However, increasing the current stocking rate is necessary to surpass the combined income of WC production and SBA. An estimation of the XT carrying capacity would offer a basis to assess whether this ecosystem would support a higher stocking rate.

Published

2022

146. Fungal Communities on Standing Litter Are Structured by Moisture Type and Constrain Decomposition in a Hyper-Arid Grassland.

Author

Logan, J. Robert, Jacobson, Kathryn M., Jacobson, Peter J., and Evans, Sarah E.

Subjects

FUNGAL communities, PLANT litter decomposition, CLIMATE change in literature, MOISTURE, GRASSLANDS, CARBON cycle

Abstract

Non-rainfall moisture (fog, dew, and water vapor; NRM) is an important driver of plant litter decomposition in grasslands, where it can contribute significantly to terrestrial carbon cycling. However, we still do not know whether microbial decomposers respond differently to NRM and rain, nor whether this response affects litter decomposition rates. To determine how local moisture regimes influence decomposer communities and their function, we examined fungal communities on standing grass litter at an NRM-dominated site and a rain-dominated site 75 km apart in the hyper-arid Namib Desert using a reciprocal transplant design. Dominant taxa at both sites consisted of both extremophilic and cosmopolitan species. Fungal communities differed between the two moisture regimes with environment having a considerably stronger effect on community composition than did stage of decomposition. Community composition was influenced by the availability of air-derived spores at each site and by specialization of fungi to their home environment; specifically, fungi from the cooler, moister NRM Site performed worse (measured as fungal biomass and litter mass loss) when moved to the warmer, drier rain-dominated site while Rain Site fungi performed equally well in both environments. Our results contribute to growing literature demonstrating that as climate change alters the frequency, magnitude and type of moisture events in arid ecosystems, litter decomposition rates may be altered and constrained by the composition of existing decomposer communities. [ABSTRACT FROM AUTHOR]

Published

2021

147. Cenozoic coastal carbonate deposits of Qatar: Evidence for dolomite preservation bias in highly‐arid systems.

Author

Rivers, John M., Yousif, Ruqaiya, Kaczmarek, Stephen E., Al‐Shaikh, Ismail, and Hollis, Cathy

Subjects

*DOLOMITE, *WATER-rock interaction, *CALCIUM carbonate, *COASTAL sediments, *CARBONATES, *OCEAN acidification

Abstract

In the ancient rock record, early replacement of metastable marine calcium carbonate deposits by dolomite has long been associated with evidence of arid depositional environments. Such associations led to the development of the seepage reflux dolomitization model, whereby magnesium‐rich marine waters concentrated by evaporation descend into underlying sediments, replacing primary aragonite and calcite deposits with dolomite through rock–water interaction. In the modern arid coastal systems of Qatar, where marine waters concentrate to halite saturation, both aqueous geochemical measurements and mineralogical investigations show that replacement of calcium carbonate deposits by dolomite is not occurring to any consequential degree. At best dolomite formation is minor and localized. Instead, modern and mid‐Holocene coastal deposits retain their original mineralogy, showing little evidence of carbonate precipitation reactions with the notable exception of beachrock formation. Pleistocene coastal deposits are mostly absent in comparison with both Qatar Holocene coastal deposits, and Pleistocene coastal deposits from more humid settings. The lack of onshore Pleistocene‐aged carbonate outcrops in Qatar, as well as regionally, is interpreted to reflect coastal sediment denudation during emergence due to: (i) the absence of coastal marine lithification; and (ii) the absence of meteoric cementation and root stabilization in the highly‐arid realm. In contrast, marine Palaeogene and Miocene carbonate deposits are preserved in outcrop in Qatar, having suffered marine lithification by dolomite, thus promoting retention of carbonate strata through subsequent lowstands. These older deposits formed during times of ocean acidification, which, based on natural system and laboratory investigations, is interpreted to promote metastable carbonate dissolution and dolomite formation. The highly‐arid Holocene and Pleistocene coastal systems of Qatar represent limestone factories, but these deposits are not being retained to the rock record. Based on these observations, the association between the occurrence of dolomite and arid depositional settings may be to some degree a preservation bias. [ABSTRACT FROM AUTHOR]

Published

2021

148. Do woody plants create 'fertile islands' in dryland New Zealand?

Author

Camara, Amadou S.

Subjects

*WOODY plants, *GRASSLAND soils, *PLANT canopies, *ISLANDS, *SOIL fertility, *NITROGEN in soils, *OATS

Abstract

Woody plants in arid and semi-arid environments may enhance soil nutrient status, the so-called 'fertile island' effect, but this mechanism has never been tested in the drylands of New Zealand. In this study I investigated effects of Kunzea serotina, Discaria toumatou, Rosa rubiginosa, and Coprosma propinqua on soil properties in the drylands of central Otago, New Zealand. Soils had significantly higher organic matter under C. propinqua and significantly higher nitrate and phosphorus concentrations under K. serotina than soils in the adjacent open grassland. A bioassay using oat (Avena sativa) growth indicated higher fertility in soils from under K. serotina than from under grassland. A review of 28 other studies revealed that fertile island effects of woody plant species on soil nitrogen and phosphorus concentrations decreased significantly with increases in annual precipitation. The occurrence of fertile islands under only two of the four shrub species in the current study in a dry sub-humid environment is consistent with this trend of decreased fertile island effect with increased annual precipitation. The higher concentration of nitrogen in soils under woody plants such as C. propinqua may be explained by the plants depositing organic matter on the surface, but some species such as K. serotina, D. toumatou, R. rubiginosa and C. propinqua, may also preferentially establish in areas of high soil phosphorus availability. I conclude that the occurrence of fertile islands under woody plants may be due to both effects of the woody plant canopy, and the plants preferentially establishing in areas of high soil fertility. [ABSTRACT FROM AUTHOR]

Published

2021

149. Fish communities in high-latitude mangrove in north-western Mexico.

Author

PAYÁN-ALCACIO, Juan Ángel, DE LA CRUZ-AGÜERO, Gustavo, CRUZ-ESCALONA, Víctor Hugo, and MONCAYO-ESTRADA, Rodrigo

Subjects

FISH communities, FISHING villages, MANGROVE ecology, MANGROVE plants, FISH morphology, EXTREME environments, FUNCTIONAL analysis

Abstract

Studying fish communities in extreme habitats is important to better understand the variation in their ranges under climatic scenarios or anthropogenic pressure. In particular, the mangroves in Baja California Sur occupy the northernmost distribution range under two extreme conditions (temperate waters and arid weather). In this context, the aim of the presently reported study was to analyze the functional characteristics of ichthyofauna in two localities, La Paz Bay (BP) and Almejas Bay (BA), which are also located in different ecoregions. For both bays, the composition and frequency values were compiled from monthly samples and the literature. Eleven functional traits were assessed from the morphology of every fish species. Functional indices (Richness, Evenness, Divergence, and Originality) were used to evaluate different aspects of the community structure. A total of 83 species were found at both sites, with 54 in BP and 50 in BA. In BP, six species were residents, eight were temporal visitors, and 36 were occasional visitors. In BA, six species were residents, 15 species were temporal visitors, and 33 were occasional visitors. At both sites, 12% of the species were permanent residents; BA had a higher percentage of temporal residents (27%), while BP had a higher percentage of occasional visitors (72%). The functional analysis detected communities with specialized traits, but in comparison to BP, BA had higher evenness in the community structure. Although greater structural complexity was expected in the community during the warm months, because of the increase in richness and attributes, BA had higher values during the cold months, which was probably because the area is a transition zone and the fish communities are adapted to colder climates. In comparison to BA, BP had higher originality values, and colder months presented higher values than warmer months. Although the mangrove sites had the same northern most latitudinal limits and both had extreme conditions compared to those in mangroves in tropical environments, the fish communities differed in their composition, frequency, and functionality with more extreme functional traits in colder weather than in warmer weather. [ABSTRACT FROM AUTHOR]

Published

2021

150. Effect of soil and climate parameters on crop yield for semi-arid region of India-A multivariate statistical approach

Author

Kumbhar, Vidya and Singh, T. P.

Published

2018