Uticaj temperature i kvaliteta hrane na varijabilnost komponenti adaptivne vrednosti i fiziologiju varenja larvi gubara Lymantria dispar L.
Effect of temperature and food quality on variability of fitness components and physiology of digestion in the gypsy moth larvae Lymantria dispar L.
Author
Janković-Tomanić, Milena Ž.Mentor
Lazarević, Jelica
Committee members
Lazarević, Jelica
Stojković, Biljana
Stojković, Biljana
Šešlija-Jovanović, Darka
Metadata
Show full item recordAbstract
Temperatura i kvalitet hrane utiču na performansu larvi gubara, Lymantria
dispar L. nezavisno ili u međusobnoj interakciji. Strategije preživljavanja larvi
gubara u temperaturno kao i nutritivno heterogenoj sredini obuhvataju različite
tipove reverzibilne i ireverzibilne fenotipske plastičnosti, koje preko uticaja na
usvajanje i raspodelu resursa utiču na osobine životne istorije i rezistentnost
prema ekstremnim uslovima životne sredine.
U cilju ispitivanja efekata temperature i kvaliteta hrane, tj. sadržaja proteina i
ugljenih hidrata u hrani na komponente adaptivne vrednosti, kao i ekspresiju
genetičke varijabilnosti, larve gubara su izložene delovanju tri različite
temperature (suboptimalna, optimalna i supraoptimalna) i 4 kombinacije
hranljivog sastava dijete, koje su se međusobno razlikovale kako u ukupnom
sadržaju proteina i ugljenih hidrata, tako i u njihovom međusobnom odnosu. U
istim eksperimentalnim uslovima ispitivana je uloga procesa varenja, odnosno
aktivnosti digestivnih ...
Temperature and food quality affect the performance of gypsy moth larvae
Lymantria dispar L. independently or in an interaction with each other. Survival
strategies of gypsy moth larvae in temperature and nutritionally heterogeneous
environments include various types of reversible and irreversible phenotypic
plasticity, which due to the effect of uptake and distribution of resources affect the
life-history traits and resistance to extreme environmental conditions.
In order to investigate the direct and interactive effects of temperature and
food quality on fitness components, as well as the expression of genetic variation,
gypsy moth larvae were exposed to three different temperatures (suboptimal,
optimal and supraoptimal) and 4 sets of nutrient composition of the diet, which
differed in protein and carbohydrate content. Under the same experimental
conditions, the role of digestion and digestive enzyme activity in adjusting nutrient
quantity and ratio with organism needs at different t...