Oil Pollution Affects the Central Metabolism of Keystone Vachellia (Acacia) Trees

Ferrante, Marco; Dangol, Anuma; Didi‐Cohen, Shoshana; Winters, Gidon; Tzin, Vered; Segoli, Michal

doi:10.3390/su13126660

Cited by 3 publications

(5 citation statements)

References 65 publications

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“…We find it more likely that higher water availability to the polluted trees due to their central location in the streambed, rather than direct effects of the oil pollution, accounted for this pattern. Although our hypothesis that oil pollution would reduce the activity both invertebrate and vertebrate predators was not confirmed, oil pollution is a major threat to this ecosystem: It was shown to change the soil microbial community (Girsowicz et al, 2018) and parasitoid abundance (Möller et al, 2020), as well as to reduce Vachellia seed germination (Tran et al, 2018), seedling recruitment (Nothers et al, 2017), and to modify the tree metabolism (Ferrante et al, 2021).…”

Section: Discussionmentioning

confidence: 77%

“…In this area, two large oil spills occurred in 1975 and 2014, during which around 10,000 m 3 and 5,000 m 3 of crude oil, respectively, leaked into the area jeopardizing the entire ecosystem (Golan et al, 2016). Oil pollution has been shown to affect the metabolism, recruitment, and germination of keystone tree species in this area (Ferrante et al, 2021;Golan et al, 2016;Nothers et al, 2017) and may negatively affect insect biodiversity (Möller et al, 2020) with potential cascading effects on biotic interactions. We focused our study on predation, a fundamental ecosystem function (Hairston et al, 1960).…”

Section: Introductionmentioning

confidence: 99%

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Invertebrate and vertebrate predation rates in a hyperarid ecosystem following an oil spill

Ferrante

Möller

et al. 2021

Ecology and Evolution

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Extreme temperatures and scarce precipitation in deserts have led to abiotic factors often being regarded as more important than biotic ones in shaping desert communities. The presumed low biological activity of deserts is also one reason why deserts are often overlooked by conservation programs. We provide the first quantification of predation intensity from a desert ecosystem using artificial sentinel prey emulating caterpillars, a standardized monitoring tool to quantify relative predation pressure by many invertebrate and vertebrate predators. The study was conducted in a protected natural area affected by oil spills in 1975 and 2014; hence, we assessed the potential effects of oil pollution on predation rates. We found that predation was mostly due to invertebrate rather than vertebrate predators, fluctuated throughout the year, was higher at the ground level than in the tree canopy, and was not negatively affected by the oil spills. The mean predation rate per day (12.9%) was within the range found in other ecosystems, suggesting that biotic interactions in deserts ought not to be neglected and that ecologists should adopt standardized tools to track ecological functions and allow for comparisons among ecosystems.

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Section: Discussionmentioning

confidence: 77%

Section: Introductionmentioning

confidence: 99%

Invertebrate and vertebrate predation rates in a hyperarid ecosystem following an oil spill

Ferrante

Möller

et al. 2021

Ecology and Evolution

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“…Another highly emergent research area in the cluster was found to be health risk assessment caused due to a variety of factors arising from oil spills like seafood contamination 97 , cancer caused due to polycyclic aromatic hydrocarbons 102 and health risk caused by exposure to benzene 31 . Cluster 2 is highlighted in green color in Figure 4 and is anchored with keywords like bioremediation 7,95,14,90 biodegradation 7,43,39 , metabolism 25,110,36 and microbial community 47,112,94 . As highlighted in cluster 2 of the cocitation analysis shown in Figure 1 this cluster also highlights the use of bioremediation and biodegradation for reducing the impact of oil spills on the environment 7,43 .…”

Section: Co-occurrence Analysismentioning

confidence: 99%

“…As highlighted in cluster 2 of the cocitation analysis shown in Figure 1 this cluster also highlights the use of bioremediation and biodegradation for reducing the impact of oil spills on the environment 7,43 . Another interesting theme highlighted in the cluster corresponds to changes in metabolic scope indicating changes in fishes' ability to face environmental contingencies 25,110,36 and microbial community dynamics that lead to oil degradation 47,112 . Cluster 3 is shown with blue color in Figure 4 and corresponds to marine toxicity and its impact on aquatic life.…”

Section: Co-occurrence Analysismentioning

confidence: 99%

Oil Spills- Where We Were, Where We Are, And Where We Will Be? A Bibliometric and Content Analysis Discourse

Chandel,

Bhanot,

Gupta

et al. 2024

BIO Web Conf.

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More frequently and in more ways than one might think, oil spills are a very common phenomenon. There were three major (>700 tonnes; Asia and Africa) and four minor oil spills only in 2022 (between 7 and 700 tonnes; North America, Asia, and Africa). Oil spills have been known to cause numerous negative ecological, societal, economic, and public health impacts. Not only this but oil spills require rapid response to contain and mitigate multidimensional damages caused. A SCOPUS search of the keyword ‘Oil Spills’ in ‘’Article title, Abstracts, and Keywords’ and ‘Article title’ results in 30529 and 9851 (as of March 4th, 2023) documents (Journal articles, Conference proceedings, Books, Book series, Trade journals, and Reports). In the year 2023 alone, the SCOPUS database had 297 documents at the time of writing. Such a massive database requires a retrospection of underlying and emerging themes for readers to understand the extant literature and to uncover future research agendas. This study is an attempt to conduct a bibliometric analysis of select ‘Oil spill’ publications. This investigation will involve performance analysis (performance of research constituents such as publication and citation evolution, leading authors, publications, affiliations, sources, and countries) and science mapping (relationship between research constituents by analyzing conceptual, intellectual, and social structures). VOSviewer and Biblioshiny The study will conclude future research trends by the content analysis of the fifteen most recent and cited documents.

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“…Acacia trees (several species of the genus Vachellia (Wight & Arn. )), the keystone species in this ecosystem, were found to be affected by oil spills [16,17]; germination, seedling height, leaf number, stem diameter, and root growth were significantly reduced in oil-contaminated soils than in clean soils [17]. Moreover, five different metabolites (alanine, β-alanine, acid, maltose, and phosphoric acid) had significantly different levels in the oil-contaminated and clean soils of Acacia trees [16].…”

Section: Introductionmentioning

confidence: 98%

Five-Year Monitoring of a Desert Burrow-Dwelling Spider Following an Environmental Disaster Indicates Long-Term Impacts

Gavish‐Regev

Steinpress

Salman

et al. 2022

Insects

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Deserts are characterized by unpredictable precipitation and extreme temperatures. Their fauna and flora are sensitive to anthropogenic environmental changes, and often recover slowly from environmental disasters. The effects of oil spills on the biota of desert regions, however, have scarcely been studied. We predicted that terrestrial invertebrates suffer long-term negative effects from an oil spill, due to their close association with the substrate. Thus, we investigated the effects of two oil spills that occurred in 1975 and 2014 in the hyper-arid ‘Arava desert (Israel), on a spider that constructs silk-lined nests in burrows in compact, sandy soil in this extreme desert habitat. The spider, Sahastata aravaensis sp. nov. (Filistatidae), is described herein. We assessed spider burrow abundance in plots located in oil-contaminated and nearby uncontaminated clean soil (control) areas over five consecutive years and measured habitat characteristics in these plots. In the laboratory, we determined the preference of individuals for clean vs. oil-contaminated soil as a resting substrate. Finally, as this species was previously undescribed, we added a new species description. The abundance of Sahastata was significantly lower in oil-contaminated plots, and this was the case in the 40-year-old oil spill (1975) as well as in the recent one (2014). In laboratory tests, spiders showed a significant preference for the clean soil substrate over the oil-contaminated substrate. In the field, soil crust hardness and vegetation density did not differ significantly between oil-contaminated and control plots, but these measures were highly variable. The burrows were significantly clustered, suggesting that the young disperse only short distances. In the laboratory adult spiders did not dig burrows, perhaps indicating that adults remain permanently in their natal burrows and that in the field they may use vacant burrows. We conclude that Sahastata populations were affected negatively by the oil spills and these effects were long-lasting. We propose that by monitoring their spatial distribution, burrow-dwelling spiders such as Sahastata can be used as effective bioindicators of soil pollution in desert habitats.

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Oil Pollution Affects the Central Metabolism of Keystone Vachellia (Acacia) Trees

Cited by 3 publications

References 65 publications

Invertebrate and vertebrate predation rates in a hyperarid ecosystem following an oil spill

Invertebrate and vertebrate predation rates in a hyperarid ecosystem following an oil spill

Oil Spills- Where We Were, Where We Are, And Where We Will Be? A Bibliometric and Content Analysis Discourse

Five-Year Monitoring of a Desert Burrow-Dwelling Spider Following an Environmental Disaster Indicates Long-Term Impacts

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