TY  - JOUR
A1  - Sperfeld, Erik
A1  - Martin-Creuzburg, Dominik
A1  - Wacker, Alexander
T1  - Multiple resource limitation theory applied to herbivorous consumers  Liebig's minimum rule vs. interactive co-limitation
JF  - Ecology letters
N2  - There is growing consensus that the growth of herbivorous consumers is frequently limited by more than one nutrient simultaneously. This understanding, however, is based primarily on theoretical considerations and the applicability of existing concepts of co-limitation has rarely been tested experimentally. Here, we assessed the suitability of two contrasting concepts of resource limitation, i.e. Liebigs minimum rule and the multiple limitation hypothesis, to describe nutrient-dependent growth responses of a freshwater herbivore (Daphnia magna) in a system with two potentially limiting nutrients (cholesterol and eicosapentaenoic acid). The results indicated that these essential nutrients interact, and do not strictly follow Liebigs minimum rule, which consistently overestimates growth at co-limiting conditions and thus is not applicable to describe multiple nutrient limitation of herbivorous consumers. We infer that the outcome of resource-based modelling approaches assessing herbivore population dynamics strongly depends on the applied concept of co-limitation.
KW  - Cholesterol
KW  - Daphnia magna
KW  - eicosapentaenoic acid
KW  - essential resources
KW  - food quality
KW  - herbivore
KW  - multi-nutrient limitation
KW  - nutritional ecology
KW  - von Liebig
Y1  - 2012
U6  - https://doi.org/10.1111/j.1461-0248.2011.01719.x
SN  - 1461-023X
VL  - 15
IS  - 2
SP  - 142
EP  - 150
PB  - Wiley-Blackwell
CY  - Malden
ER  - 
TY  - JOUR
A1  - Lukas, Marcus
A1  - Sperfeld, Erik
A1  - Wacker, Alexander
T1  - Growth Rate Hypothesis does not apply across colimiting conditions  cholesterol limitation affects phosphorus homoeostasis of an aquatic herbivore
JF  - Functional ecology : an official journal of the British Ecological Society
N2  - 1. Herbivores show stronger control of element homoeostasis than primary producers, which can lead to constraints in carbon and nutrient transfer efficiencies from plants to animals. Insufficient dietary phosphorus (P) availability can cause reduced body P contents along with lower growth rates of animals, leading to a positive relationship between growth and body P.
 2. We examined how a second limiting food component in combination with dietary P limitation influences growth and P homoeostasis of a herbivore and how this colimitation influences the hypothesized positive correlation between body P content and growth rates. Therefore, we investigated the responses in somatic growth and P stoichiometry of Daphnia magna raised on a range of diets with different amounts of P and the sterol cholesterol.
 3. Somatic growth rates of D. magna increased asymptotically with increasing P as well as with increasing cholesterol availability. The body P content increased with increasing dietary P and stabilized at high dietary P availability. The observed plasticity in D. magna's P stoichiometry became stronger with increasing cholesterol availability, i.e. with decreasing colimitation by cholesterol.
 4. At P-limiting conditions, the positive correlation between body P content and growth rate, as predicted by the growth rate hypothesis (GRH) applied to the within-species level, declined with increasing cholesterol limitation and disappeared entirely when cholesterol was not supplied. Thus, even when Daphnia shows no growth response owing to strong limitation by the colimiting nutrient, the body P content may vary substantially, calling into question the unconditional use of herbivores' P content as predictor of a potential P limitation in nature.
 5. The observed interaction between dietary P and cholesterol on Daphnia's growth and stoichiometry can be used as a conceptual framework of how colimiting essential nutrients affect herbivore homoeostasis, and provide further insights into the applicability of the GRH within a consumer species.
KW  - colimitation
KW  - Daphnia
KW  - ecological stoichiometry
KW  - essential resources
KW  - food quality
KW  - imbalanced diet
KW  - nutrient limitation
KW  - nutritional ecology
KW  - zooplankton
Y1  - 2011
U6  - https://doi.org/10.1111/j.1365-2435.2011.01876.x
SN  - 0269-8463
VL  - 25
IS  - 6
SP  - 1206
EP  - 1214
PB  - Wiley-Blackwell
CY  - Malden
ER  - 
TY  - JOUR
A1  - Sperfeld, Erik
A1  - Raubenheimer, David
A1  - Wacker, Alexander
T1  - Bridging factorial and gradient concepts of resource co-limitation:
towards a general framework applied to consumers
JF  - Ecology letters
N2  - Organism growth can be limited either by a single resource or by multiple resources simultaneously (co-limitation). Efforts to characterise co-limitation have generated two influential approaches. One approach uses limitation scenarios of factorial growth assays to distinguish specific types of co-limitation; the other uses growth responses spanned over a continuous, multi-dimensional resource space to characterise different types of response surfaces. Both approaches have been useful in investigating particular aspects of co-limitation, but a synthesis is needed to stimulate development of this recent research area. We address this gap by integrating the two approaches, thereby presenting a more general framework of co-limitation. We found that various factorial (co-)limitation scenarios can emerge in different response surface types based on continuous availabilities of essential or substitutable resources. We tested our conceptual co-limitation framework on data sets of published and unpublished studies examining the limitation of two herbivorous consumers in a two-dimensional resource space. The experimental data corroborate the predictions, suggesting a general applicability of our co-limitation framework to generalist consumers and potentially also to other organisms. The presented framework might give insight into mechanisms that underlie co-limitation responses and thus can be a seminal starting point for evaluating co-limitation patterns in experiments and nature.
KW  - Consumer
KW  - essential nutrient
KW  - factorial design
KW  - food quality
KW  - growth rate
KW  - multi-nutrient limitation
KW  - nutritional ecology
KW  - performance landscape
KW  - substitutable resource
KW  - synergistic effect
Y1  - 2016
U6  - https://doi.org/10.1111/ele.12554
SN  - 1461-023X
SN  - 1461-0248
VL  - 19
SP  - 201
EP  - 215
PB  - Wiley-Blackwell
CY  - Hoboken
ER  -