sg:pub.10.1038/s41598-018-37493-8 - Springer Nature SciGraph

Article Info

DATE

2019-12

AUTHORS

Lezel Beetge, Kerstin Krüger

ABSTRACT

The combined effect of drought and heat waves on insect-plant interactions is complex and not fully understood. Insects may indirectly benefit from water-deficit stress through increased plant nitrogen levels. Heat stress may have a direct negative effect, yet insect performance may be improved when day-time heat is followed by cooler night temperatures. We show that moderate water-deficit stress (25-30% pot capacity) and high day-night temperatures (30/20 °C) affected Macrosiphum euphorbiae on potato (Solanum tuberosum) differently than their interactions. Water stress lowered stomatal conductance, and both water and heat stress reduced leaf area. The effect of water stress on nymphal and adult survival depended on temperature. Water stress added to reduced nymphal survival at high but not current (25/15 °C) day-night temperatures. Adult survival at high temperatures was reduced only when combined with water stress. Water stress and high temperatures independently but not interactively reduced the number of daily offspring. Moderate water stress when combined with high temperatures had a negative bottom-up effect on aphid survival even though lower night temperatures aided in the recovery from direct heat stress. Our study illustrates the importance of combining multiple stressors to better understand their impact on insect-plant interactions in the context of climate change. More... »

PAGES

3645

References to SciGraph publications

2017-02. Not all droughts are created equal? The effects of stress severity on insect herbivore abundance in ARTHROPOD-PLANT INTERACTIONS

1989-03. Effects of water stress on photosynthesis and chlorophyll fluorescence of five potato cultivars in POTATO RESEARCH

2015-05. Nitrogen and water availability to tomato plants triggers bottom-up effects on the leafminer Tuta absoluta in SCIENTIFIC REPORTS

1981-01. The effect of water stress on potato growth, development, and yield in AMERICAN JOURNAL OF POTATO RESEARCH

2016-10. Increased water salinity applied to tomato plants accelerates the development of the leaf miner Tuta absoluta through bottom-up effects in SCIENTIFIC REPORTS

2017-02. Differences in the high-temperature tolerance of Aphis craccivora (Hemiptera: Aphididae) on cotton and soybean: implications for ecological niche switching among hosts in APPLIED ENTOMOLOGY AND ZOOLOGY

2010-06. Effects of nitrogen fertilization on tritrophic interactions in ARTHROPOD-PLANT INTERACTIONS

Journal

TITLE

Scientific Reports

ISSUE

VOLUME

Subjects

FOR: Plant Biology

FOR: Biological Sciences

Author Affiliations

University of Pretoria

Identifiers

URI

http://scigraph.springernature.com/pub.10.1038/s41598-018-37493-8

DOI

http://dx.doi.org/10.1038/s41598-018-37493-8

DIMENSIONS

https://app.dimensions.ai/details/publication/pub.1112583541

PUBMED

https://www.ncbi.nlm.nih.gov/pubmed/30842430

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56	″	schema:description	The combined effect of drought and heat waves on insect-plant interactions is complex and not fully understood. Insects may indirectly benefit from water-deficit stress through increased plant nitrogen levels. Heat stress may have a direct negative effect, yet insect performance may be improved when day-time heat is followed by cooler night temperatures. We show that moderate water-deficit stress (25-30% pot capacity) and high day-night temperatures (30/20 °C) affected Macrosiphum euphorbiae on potato (Solanum tuberosum) differently than their interactions. Water stress lowered stomatal conductance, and both water and heat stress reduced leaf area. The effect of water stress on nymphal and adult survival depended on temperature. Water stress added to reduced nymphal survival at high but not current (25/15 °C) day-night temperatures. Adult survival at high temperatures was reduced only when combined with water stress. Water stress and high temperatures independently but not interactively reduced the number of daily offspring. Moderate water stress when combined with high temperatures had a negative bottom-up effect on aphid survival even though lower night temperatures aided in the recovery from direct heat stress. Our study illustrates the importance of combining multiple stressors to better understand their impact on insect-plant interactions in the context of climate change.
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