Your search keyword '"Luik, Anne"' showing total 13 results

1. Soil carbon dynamics estimation and dependence on farming system in a temperate climate

Author

Kauer, Karin, Tein, Berit, Sanchez de Cima, Diego, Talgre, Liina, Eremeev, Vyacheslav, Loit, Evelin, and Luik, Anne

Published

2015

2. Effects of nitrogen fertilization on insect pests, their parasitoids, plant diseases and volatile organic compounds in Brassica napus.

Author

Veromann, Eve, Toome, Merje, Kännaste, Astrid, Kaasik, Riina, Copolovici, Lucian, Flink, Jaak, Kovács, Gabriella, Narits, Lea, Luik, Anne, and Niinemets, Ülo

Subjects

RUTABAGA, PLANT diseases, NITROGEN fertilizers, INSECT pests, PARASITOIDS, VOLATILE organic compounds, SEED quality, FLOWERING of plants

Abstract

Abstract: Nitrogen (N) availability is a key factor influencing the yield of Brassica napus L. Thus, mineral fertilization is widely used to improve the quality and quantity of seeds. In this study, we conducted field experiments to determine the impact of nitrogen fertilization on B. napus pests, their parasitoids and plant diseases. The results showed that N treatment had an impact on the abundance of pollen beetles (Meligethes aeneus Fab.) and cabbage seed weevils (Ceutorhynchus obstrictus Marsh.) as well as dark spot disease (Alternaria brassicae (Berk.) Sacc.). Since pest abundance was not correlated with the flower and silique numbers, the feeding and oviposition sites, plant smell bouquets were analysed to determine potentially attractive or repellent volatile organic compounds. We detected 19 different compounds among which acetic acid and several lipoxygenase pathway products were emitted at higher levels from N-treated plants. Emission of a few other terpenoid compounds was correlated with the pest abundance in field conditions. Abundance of parasitoids of both pests was related to the host availability rather than to the fertilization treatment. Therefore, we suggest that plant chemical cues play a minor role in localization of hosts in close proximity to parasitoid. Dark spot disease levels decreased with increasing N availability, possibly reflecting enhanced emissions of acetic acid, a known antifungal volatile. This study demonstrates the effects of N fertilization on bud and flower volatile bouquets, which might play a role in B. napus insect pest host selection and in resistance to fungal plant diseases. Further studies are necessary to investigate the behavioural responses of insects to the changed volatile bouquets. [Copyright &y& Elsevier]

Published

2013

3. Calorimetric investigations on physiological stress in Tenebrio molitor (Coleoptera, Tenebrionidae) pupae

Author

Harak, Margus, Kuusik, Aare, Hiiesaar, Külli, Metspalu, Luule, Luik, Anne, and Tartes, Urmas

Published

1998

4. Electrophysiological identification of hygroreceptor neurons from the antennal dome-shaped sensilla in the ground beetle Pterostichus oblongopunctatus

Author

Merivee, Enno, Must, Anne, Luik, Anne, and Williams, Ingrid

Subjects

*ELECTROPHYSIOLOGY, *NEURONS, *PTEROSTICHUS, *HUMIDITY, *ECOLOGICAL niche, *THERMORECEPTORS

Abstract

Abstract: This study gives the first electrophysiological evidence of hygroreceptors in carabids. Extracellular recordings from the antennal dome-shaped sensilla of the carabid beetle Pterostichus oblolongopunctatus (Coleoptera, Carabidae) clearly show the presence of moist and dry neuron antagonistically responding to humidity changes. The cold neuron of the same sensillum did not respond to changes in humidity. For the first time, we demonstrate that the binary system of two antagonistic hygroreceptor neurons discriminates differences between steady-state humidity levels more sensitively than either neuron separately. Another advantage of the binary system is that it guarantees immediate and strong phasic-tonic response to rapid humidity changes in either direction. In the hygrosensing system of carabids, this would allow detection of subtle step-changes in humidity with greater sensitivity than differences in steady-state values of humidity. Thus, construction of the hygrosensing system with opposing receptor neurons may allow insects to detect environmental humidity differences critical for their habitat and microhabitat selection, and survival with great precision. [ABSTRACT FROM AUTHOR]

Published

2010

5. Spike bursts generated by the thermosensitive (cold) neuron from the antennal campaniform sensilla of the ground beetle Platynus assimilis

Author

Must, Anne, Merivee, Enno, Luik, Anne, Williams, Ingrid, Ploomi, Angela, and Heidemaa, Mikk

Subjects

*PHYSIOLOGICAL effects of cold temperatures, *NEURONS, *MECHANORECEPTORS, *BODY temperature regulation, *BEETLES, *PARALYSIS, *PHYSIOLOGY

Abstract

Abstract: Responses of the antennal thermosensitive neuron of the ground beetle Platynus assimilis to warming from 20 to 50°C were measured and analysed. During warming, neurons switched from regular spiking to bursting. ISI analysis showed that the number of spikes in the burst and spike frequency within the burst were temperature dependent and may precisely encode unfavourably or dangerously high temperatures in a graded manner. In contrast, regular spikes of the neuron encode moderate temperatures at 20–30°C. The threshold temperature of spike bursting varied in different neurons from 25 to 47°C. As a result, the number of bursting neurons increased with temperature increase. Therefore, in addition to the burst characteristics, the total number of bursting neurons may also contain useful information on external temperature. A relationship between the spike bursts and locomotor activity of the beetles was found which may have importance in behavioural thermoregulation of the species. At 44.4±0.6°C, first indications of partial paralysis (of the hind legs) were observed. We emphasize, that in contrast to various sensory systems studied, the thermoreceptor neuron of P. assimilis has a stable and continuous burst train, no temporal information is encoded in the timing of the bursts. [Copyright &y& Elsevier]

Published

2010

6. Responses of antennal campaniform sensilla to rapid temperature changes in ground beetles of the tribe platynini with different habitat preferences and daily activity rhythms

Author

Must, Anne, Merivee, Enno, Luik, Anne, Mänd, Marika, and Heidemaa, Mikk

Subjects

*GROUND beetles, *INSECT physiology, *ANIMAL species, *PLATYNUS, *THERMORECEPTORS

Abstract

Abstract: Responses of temperature sensitive (cold) cells from the antenna of ground beetles (tribe Platynini) were compared in species with different ecological preferences and daily activity rhythms. Action potential rates were characterized at various temperatures (ranges 23–39°C) and during rapid changes in it (). The stationary firing frequencies were nearly twice as high in eurythermic open field ground beetles Agonum muelleri and Anchomenus dorsalis (firing rates ranging from 22 to 47imp/s) than in a stenothermic forest species Platynus assimilis. In the eurythermic species, the firing rate did not significantly depend on temperature (Anchomenus dorsalis range of 23–27°C and Agonum muelleri range of 23–33°C) but plots of firing rate versus temperature showed rapid declines when lethally high temperatures were approached. In contrast, a nearly linear decline of the firing rate/temperature curve was observed in Platynus assimilis. Responses to rapid temperature decreases were also considerably higher in eurythermic species. Both the peak frequency of the initial burst (maximum 420–650Hz) as well as the sustained discharge in the first 4s of the response were higher than in Platynus assimilis. Long silent periods, lasting up to several seconds, that occurred at the beginning of the response to rapid warming were significantly shorter in Agonum muelleri and Anchomenus dorsalis compared to Platynus assimilis. These findings suggest that the responses of thermoreceptors to temperature changes may be correlated with specific ecological preferences. [Copyright &y& Elsevier]

Published

2006

7. Farming systems affect potato (Solanum tuberosum L.) tuber and soil quality.

Author

Tein, Berit, Kauer, Karin, Eremeev, Viacheslav, Luik, Anne, Selge, Are, and Loit, Evelin

Subjects

*POTATO yields, *AGRICULTURE, *TUBERS, *SOIL quality, *SOIL mineralogy, *SOIL exhaustion

Abstract

Highlights: [•] Farming systems had no influence on tuber K, Ca, DM and starch concentrations. [•] Farming systems affected tuber fresh yield, N, nitrate, Mg and P concentrations. [•] The yield increase had a non-significant effect on some mineral elements in tubers. [•] Negative control (N0) and Nhigh were the most soil exhausting systems. [ABSTRACT FROM AUTHOR]

Published

2014

8. Effects of Fastac 50 EC on bumble bee Bombus terrestris L. respiration: DGE disappearance does not lead to increasing water loss

Author

Muljar, Riin, Karise, Reet, Viik, Eneli, Kuusik, Aare, Williams, Ingrid, Metspalu, Luule, Hiiesaar, Külli, Must, Anne, Luik, Anne, and Mänd, Marika

Subjects

*BOMBUS terrestris, *FASTAC, *BUMBLEBEES, *RESPIRATION, *WATER damage, *PULMONARY gas exchange, *INSECTS

Abstract

Abstract: Sublethal effects of pesticides in insects can be observed through physiological changes, which are commonly estimated by metabolic rate and respiratory patterns, more precisely by the patterns of discontinuous gas-exchange (DGE) cycles. The aim of the present research was to study the effect of some low concentrations of Fastac 50 EC on the cycles of CO2 release and respiratory water loss rates (WLR) in bumble bee Bombus terrestris L. foragers. Bumble bees were dipped into 0.004% and 0.002% Fastac 50 EC solution. Flow-through respirometry was used to record the respiration and WLR 3h before and after the treatment. The respirometry was combined with infrared actography to enable simultaneous recording of abdominal movements. Our results show that Fastac 50 EC has an after-effect on bumble bee respiratory rhythms and muscle activity but does not affect WLR. Treatment with 0.004% Fastac 50 EC solution resulted in disappearance of the respiration cycles; also the lifespan of treated bumble bees was significantly shorter. Treatment with 0.002% Fastac 50 EC solution had no significant effect on respiration patterns or longevity. We found no evidence for the DGE cycles functioning as a water saving mechanism. [Copyright &y& Elsevier]

Published

2012

9. Electrophysiological identification of the sugar cell in antennal taste sensilla of the predatory ground beetle Pterostichus aethiops

Author

Merivee, Enno, Must, Anne, Milius, Marit, and Luik, Anne

Subjects

*PTEROSTICHUS, *GROUND beetles, *SUGARS, *SALT, *HYDROGEN-ion concentration, *CELLS

Abstract

Abstract: By single sensillum tip recording technique, in addition to the salt and pH cells found in antennal taste sensilla of some ground beetles earlier, the third chemosensory cell of four innervating these large sensilla was electrophysiologically identified as a sugar cell in the ground beetle Pterostichus aethiops. This cell generated action potentials of considerably smaller amplitude than those of the salt and pH cells, and phasic-tonically responded to sucrose and glucose over the range of 1–1000mM tested. Responses were concentration dependent, with sucrose generating more spikes than glucose. During the first second of the response, maximum rates of firing of the sugar cell reached up to 19 and 37imp/s when stimulated with 1000mM glucose and sucrose, respectively. Three to four seconds later, the responses decreased close to zero. Both sugars are important in plant carbohydrate metabolism. These ground dwelling insects may come into contact with live and decayed plant material everywhere in their habitat including their preferred overwintering sites in brown-rot decayed wood. In conclusion, we hypothesize that high content of soluble sugars in their overwintering sites and refugia is unfavourable for these ground beetles, most probably to avoid contact with dangerous fungi. [Copyright &y& Elsevier]

Published

2007

10. A new method for electrophysiological identification of antennal pH receptor cells in ground beetles: The example of Pterostichus aethiops (Panzer, 1796) (Coleoptera, Carabidae)

Author

Milius, Marit, Merivee, Enno, Williams, Ingrid, Luik, Anne, Mänd, Marika, and Must, Anne

Subjects

*GROUND beetles, *PTEROSTICHUS, *BEETLES, *INSECT anatomy, *HYDROGEN-ion concentration

Abstract

Abstract: The responses of antennal taste sensilla of the ground beetle Pterostichus aethiops to 100mM Na+-salts and their mixtures with 1 and 10mM NaOH were compared. An increase in pH by 0.3–0.6 units in 100mM Na+-salt solutions, caused by the content of 1mM NaOH, was too small, except for alkaline Na2HPO4, to influence the firing rate of the cation cell and pH cell significantly. However, different sensitivity of the two cells to increased pH was clearly demonstrated when the concentration of NaOH in 100mM stimulating salt solutions was increased to 10mM. Increasing pH by 1.2–2 units caused the 1st s firing rate to increase by 140–1050% and 0–26% in the pH cell and cation cell, respectively. Compared to the buffer series method used for identification of the pH receptors in ground beetles earlier, considerably stronger responses of the pH cell to a similar increase in pH were observed when the NaOH method was used for testing. At the same time, undesirable changes in salt ions concentration that occur when stimulating solutions differing by 1–2 pH units are prepared were much smaller using the latter method. Behavioural and ecological relevance of the results is discussed. [Copyright &y& Elsevier]

Published

2006

11. Electrophysiological responses to salts from antennal chaetoid taste sensilla of the ground beetle Pterostichus aethiops

Author

Merivee, Enno, Renou, Michel, Mänd, Marika, Luik, Anne, Heidemaa, Mikk, and Ploomi, Angela

Subjects

*SALT in animal nutrition, *MINERALS in animal nutrition, *PTEROSTICHUS, *GROUND beetles, *BEHAVIOR, BEETLE behavior

Abstract

Abstract: Antennal gustatory sensilla of the ground beetle Pterostichus aethiops (Pz., 1797) (Coleoptera, Carabidae) respond to salts, the three sensory cells, A-, B- and C-cells, producing action potentials that are distinguished by differences in their shape, amplitude, duration and polarity of spikes. The B-cell (salt cell) was highly sensitive to both ionic composition and concentration of the tested nine salt solutions showing phasic-tonic type of reaction with a pronounced phasic component. The stimulating effect was dominated by the cations involved, and in most cases, monovalent cations were more effective stimuli than divalent cations. Salt concentration/response relations were tested with NaCl at 1, 10, 100 and 1000mmoll-1: mean firing rates increased from 0.8 to 44 spikes per first second of the response, respectively. The pH value of the stimulating solutions also influenced the B-cell rate of firing. By contrast, the pH level of stimulus solutions influenced the A-cells’ phasic-tonic response more than the ionic composition or concentration of these solutions. Compared to a standard 100mmoll-1 salt (NaCl) solution (pH 6.3), alkaline solutions of the salts NaCH3COO, Na2HPO4 and Na2B4O7 (pH 7.9, 8.5 and 9.3, respectively, all 100mmoll-1) induced remarkably stronger responses in the A-cell. On the other hand, the reaction to an acid solution of NaH2PO4 (pH 4.5, 100mmoll-1) was minimal. A-cell responses to neutral salts like NaCl, KCl, CaCl2, MgCl2 and C5H14NOCl (pH 6.1–6.5) varied largely in strength. Very low or no responses were observed with chlorides of divalent cations, CaCl2 and MgCl2, and choline chloride (C5H14NOCl), indicating that the ionic composition of the solutions also affected A-cell responses. Neural activity of the C-cell was not influenced by the salt solutions tested. [Copyright &y& Elsevier]

Published

2004

12. Antennal sensilla of the ground beetle Bembidion properans Steph. (Coleoptera, Carabidae)

Author

Merivee, Enno, Ploomi, Angela, Rahi, Märt, Bresciani, José, Ravn, Hans Peter, Luik, Anne, and Sammelselg, Väino

Subjects

*GROUND beetles, *ELECTRON microscopy

Abstract

The arrangement of antennal sensilla was studied in female and male ground beetles Bembidion properans Steph. (Coleoptera, Carabidae) using scanning electron microscopy. The filiform antennae, 1.8–1.9 mm in length, consist of the scape, pedicel and nine flagellomeres. In both sexes, three types of sensilla chaetica, two types of sensilla trichodea, six types of sensilla basiconica, one type of sensilla coeloconica and one type of sensilla campaniformia were distinguished. The possible function of the sensilla is discussed and three types of sensilla are considered olfactory, sensilla trichodea type 2 and sensilla basiconica types 1 and 2. Olfactory sensilla form dorsal and/or ventral sensillar fields on the flagellomeres and occur sparsely or not at all outside these areas. No sexual differences in the types, number and distribution of antennal sensilla were found. [Copyright &y& Elsevier]

Published

2002

13. Cropping systems with higher organic carbon promote soil microbial diversity.

Author

Esmaeilzadeh-Salestani, Keyvan, Bahram, Mohammad, Ghanbari Moheb Seraj, Rahele, Gohar, Daniyal, Tohidfar, Masoud, Eremeev, Viacheslav, Talgre, Liina, Khaleghdoust, Banafsheh, Mirmajlessi, Seyed Mahyar, Luik, Anne, and Loit, Evelin

Subjects

*CROPPING systems, *MICROBIAL diversity, *CROP rotation, *CARBON in soils, *ORGANIC farming

Abstract

Food systems need to become more sustainable. There is a need to investigate the agricultural management components that address the sustainability better. Long crop rotations are suggested to be environmentally friendly, yet, little is known how soil microbial communities may be affected by long-term rotation under organic cropping with cover crops and manure and conventional cropping with different nitrogen rates. We examined the composition and diversity of soil bacterial and fungal communities in a five-field crop rotation at the beginning and end, respectively in 2013 and 2018. Our analysis revealed that bacterial and to a lesser extent fungal diversity increased by the end of the rotation in all organic treatments and in conventional treatments with low to medium nitrogen rate (20‐100 kg of nitrogen per hectare). Conventional treatment with no added nitrogen decreased bacterial and fungal diversity. Nitrogen rate of 150 kg/ha decreased only bacterial diversity, while the impact on fungal diversity was neutral. Crop rotation significantly increased the relative abundance of bacterial taxa involved in nitrification and denitrification. Of fungal functional groups, the relative abundance of pathogenic functional groups decreased and mycorrhizal groups increased during crop rotation and especially with added cover crops. Our results suggest that crop rotation may outperform cropping systems in structuring soil microbial communities. • Crop rotation have bigger impact on soil microbial communities than cropping systems. • Crop rotation and organic fertilizers increase diversity and abundance of microbes. • Treatments with low to average mineral nitrogen input are favorable for soil microbes. • Conventional treatments without any fertilizer are detrimental for microbial diversity. [ABSTRACT FROM AUTHOR]

Published

2021