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Animal water balance drives top-down effects in a riparian forest—implications for terrestrial trophic cascades
Kevin E. McCluney, John Sabo
Life Sciences, School of (SOLS)
Sustainability Initiative
Research output
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Contribution to journal
›
Article
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peer-review
12
Scopus citations
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Dive into the research topics of 'Animal water balance drives top-down effects in a riparian forest—implications for terrestrial trophic cascades'. Together they form a unique fingerprint.
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Earth & Environmental Sciences
trophic cascade
100%
spider
89%
water budget
66%
cricket
64%
animal
49%
water availability
29%
food web
27%
trophic interaction
18%
effect
17%
terrestrial ecosystem
14%
water
13%
soil moisture
11%
damage
9%
Agriculture & Biology
water budget
85%
Araneae
68%
Orthoptera
44%
herbivores
37%
food webs
32%
animals
30%
water
30%
terrestrial ecosystems
18%
trophic relationships
18%
laboratory animals
13%
leaves
12%
cages
12%
soil water
12%
Medicine & Life Sciences
Drive
76%
Spiders
55%
Water
49%
Herbivory
39%
Animals
37%
Gryllidae
36%
Food Chain
22%
Forests
9%
Ecosystem
9%
Soil
8%
Chemical Compounds
Leaf Like Crystal
62%
Food
52%
Ecosystem
43%
Soil
31%
Strength
23%
Volume
21%
Environment
20%