Научная статья на тему 'Post-fire fauna of carabid beetles (Coleoptera, Carabidae) in forests of the Mordovia State Nature Reserve (Russia)'

Post-fire fauna of carabid beetles (Coleoptera, Carabidae) in forests of the Mordovia State Nature Reserve (Russia) Текст научной статьи по специальности «Биологические науки»

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Ключевые слова
DYNAMIC DENSITY / INSECTS / SPECIES COMPOSITION / TROPHIC GROUP / WILDFIRE / WILDFIRE SEVERITY / ВИДОВОЙ СОСТАВ / ДИНАМИЧЕСКАЯ ПЛОТНОСТЬ / НАСЕКОМЫЕ / ПОЖАР / СИЛА ПОЖАРА / ТРОФИЧЕСКАЯ ГРУППА

Аннотация научной статьи по биологическим наукам, автор научной работы — Ruchin Alexander B., Alekseev Sergei K., Khapugin Anatoliy A.

Wildfires are among the basic ecological factors that change habitats and initiate the succession of new forest communities. Burned areas are ephemeral habitats presenting a broad range of ecological niches that many insect species may exploit. In 2016, we studied the carabid fauna in burned pine forests of the Mordovia State Nature Reserve (European Russia). Sixty carabid beetles in total were collected in an unburned (control) area and on sites damaged by crown fire and surface fire. Carabids were more numerous and diverse in the burned areas, compared to the unburned forest, while the catch index was significantly higher in unburned area. This was due to the extremely high dynamic density of Carabus arcensis on the control site, while it was ten times lower in the burned area. The number of carabid species tended to increase in the sequence unburned forest forest impacted by surface fire forest impacted by crown fire. Expectedly, species compositions were more similar between fire-damaged areas, while there was a higher difference between the unburned site and area damaged by crown fire. Concerning trophic group classification, all carabid beetles were distinguished in two groups, zoophagous species and myxophytophagous species. In both groups, the species number increases in the sequence from unburned areas to the forest impacted by crown fire. Finally, the dynamic density of some carabids (e.g. Poecilus lepidus, P. versicolor, Harpalus tardus, H. rufipes, H. rubripes, Cicindela sylvatica) largely increased after fire impact, while it decreased for the most other species. Our results suggest that burning of the forest stand may support some carabid species, i.e. larger forest fire increases species richness of beetle fauna. The highest dynamic density of the carabids is maintained by a few beetle species (Carabus arcensis, C. hortensis, Pterostichus oblongopunctatus).

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ПОСЛЕПОЖАРНАЯ КАРАБИДОФАУНА (COLEOPTERA, CARABIDAE) В ЛЕСАХ МОРДОВСКОГО ГОСУДАРСТВЕННОГО ЗАПОВЕДНИКА (РОССИЯ)

Пожары являются одними из основных экологических факторов, изменяющих местообитания и инициирующие сукцессии новых лесных сообществ. Пожарища являются эфемерными местообитаниями, представляющими широкий спектр экологических ниш, которые могут использовать многие виды насекомых. В 2016 г. нами была изучена карабидофауна (Carabidae, Coleoptera) в пострадавших от пожара сосновых лесах Мордовского государственного заповедника (Европейская Россия). Шестьдесят видов жужелиц были собраны в трех типах местообитаний: на несгоревшем участке (контроль), на участке, поврежденном верховым пожаром, и на участке, пострадавшем от низового пожара. По сравнению с контрольным участком карабидофауна пожарищ характеризовалась более высокой численностью особей и видовым разнообразием, в то время как на несгоревшем участке динамическая плотность была значительно выше. Это было связано с чрезвычайно высокой динамической плотностью Carabus arcensis на контрольном участке, в то время как на пожарищах этот показатель был ниже в десять раз. Видовое разнообразие имело тенденцию к увеличению в следующей последовательности: несгоревший лес лес, поврежденный низовым пожаром лес, поврежденный верховым пожаром. Видовые составы жужелиц были ожидаемо более схожими между участками, поврежденными верховым и низовым пожарами, в то время как была показана значительная разница между составами жужелиц на контрольном участке и участке, поврежденном верховым пожаром. Все виды жужелиц были разделены на две группы трофических групп зоофагов и фитофагов. В составе обеих трофических групп видовое разнообразие увеличивалось в последовательности от несгоревшего участка до участка леса, пострадавшего от верхового пожара. Наконец, динамическая плотность некоторых видов жужелиц (например, Poecilus lepidus, P. versicolor, Harpalus tardus, H. rufipes, H. rubripes, Cicindela sylvatica) значительно увеличилась после воздействия пожара, в то время как значение этого показателя снизилось для большинства других видов. Наши результаты показали, что уничтожение пожаром древостоя может способствовать поддержанию численности некоторых видов жужелиц, то есть более крупный лесной пожар увеличивает видовое богатство фауны жесткокрылых. Наибольшая динамическая плотность жужелиц поддерживалась благодаря нескольким видам (например, Carabus arcensis, C. hortensis, Pterostichus oblongopunctatus).

Текст научной работы на тему «Post-fire fauna of carabid beetles (Coleoptera, Carabidae) in forests of the Mordovia State Nature Reserve (Russia)»

======== SHORT COMMUNICATIONS =======

—==== КРАТКИЕ СООБЩЕНИЯ ===—

POST-FIRE ABUNDANCE AND AGE COMPOSITION DYNAMICS OF LACERTA AGILIS (REPTILIA, LACERTIDAE) IN THE ORENBURG STATE NATURE RESERVE (RUSSIA)

Andrey G. Bakiev*, Roman A. Gorelov, Anastasia A. Klenina

Institute of Ecology of the Volga River Basin of RAS, Russia *e-mail: herpetology@list.ru

Received: 31.12.2018. Revised: 02.04.2019. Accepted: 07.06.2019.

In different months during 2015-2017, the abundance and sex-age structure of the Sand lizard (Lacerta agilis) were studied on two transects. Parallel transects were established in the southeastern part of the cluster area «Burtinskaya steppe» of the Orenburg State Nature Reserve (Russia). The length of each transect was 3 km. The width of the mineralised plowed strip between the transects was 9-11 m. Transect 2 was located in the area burnt in August 2014, while transect 1 was situated in the area burnt in August 2016. In terms of size and external morphological traits, the captured Sand lizards were divided into three groups: juvenile individuals, adult males, and adult females. After measurements, the marked animals were put back to the places of capture. The number and sex-age structure were restored on transects in May - June, after the first winter following the fire impact. We found that on transect 1, the species abundance at late April - early May 2015 was almost three times higher (18.67 individuals / km) than on transect 2 (6.67 individuals / km). However, at late May 2015, the species abundance on both transects became almost the same (12.67 individuals / km in transect 1 against 11.33 individuals / km in transect 2). The juvenile individuals suffered from the fire influence more than adults. After the 2016 fire (i.e., in mid-May 2017), the proportion of one-year-old individuals was 21.2% of the total number of Sand lizards recorded in transect 1, while it counted 67.3% of the total number of Sand lizards recorded in transect 2, burnt in 2014. We believe that the rapid recovery of the abundance and sex-age structure in the Burtinskaya steppe was associated with the migration of Sand lizards through the mineralised strip separating the burnt and non-burnt transects.

Key words: cluster area «Burtinskaya steppe», fire, Orenburg region, Sand lizard

Introduction

The Protected Areas in which special post-fire restoration measures are not carried out provide an opportunity to study the natural mechanisms for the restoration of ecosystems and their individual components. Reptiles are important components of ecosystems. The post-fire restoration of populations of these animals in Protected Areas has not been studied enough yet (Langford et al., 2007; Lebedinskii, 2017; Lebedinskii & Pestov, 2017).

Wildfires have a variety of effects on reptiles, including direct injuries and mortality, as well as indirect effects on the animals through changes in the available environment resources (Andersen et al., 2005; Hromada et al., 2018). During fires, reptiles hide under ground objects, climb trees, in burrows, or leave the burning areas (Russell et al., 1999; Smith et al., 2012).

The pyrogenic damage degree in the steppe largely depends on the strength and direction of the wind at the ignition time. According to data

obtained in the Black Sea Biosphere Reserve (Ukraine), the top soil layer remains intact under conditions of a strong wind. And reptiles can rather successfully wait till the end of a fire in rodent holes. Under a weak wind, the top soil layer burns out more strongly, especially in small depressions with a large volume of dead grass matter. In such places, reptiles hidden in small mammal burrows are dying. Reptiles of the semi-aquatic faunistic complex die in burnt reed grass (Phragmites australis (Cav.) Trin. ex Steud.) communities. However, the post-fire restoration of reed grass beds occurs rapidly. Semi-aquatic reptiles inhabit these plant communities for 2-3 months. The rate and success of post-fire restoration depends not only on the area of the fire-affected site, but also on the weather conditions under which the fire occurs, the season and the phenological period. In various natural complexes, pyrogenic successions have various rates. For example, the reed grass

beds have the highest restoration rate. Steppe sites have a lower rate of post-fire restoration. An increased abundance of snakes feeding on dead large insects has been noted on recently burnt areas (Selyunina, 2008).

During fire influence, the death of the Smooth Snake Coronella austriaca Laurenti, 1768, the Steppe Viper Vipera renardi (Christoph, 1861), the Dice Snake Natrix tessellata (Laurenti, 1768) was recorded in the Nature Reserve «Khomu-tovskaya steppe » (Ukraine). After the 2002 fire, Coronella austriaca did not occur anymore on the coastal slope above the manor of the Nature Reserve «Khomutovskaya steppe». The April 2003 fire negatively influenced Natrix tessellata, appearing after wintering. At the site damaged by fire in March 2007, dead specimens of Coronella austriaca and Vpera renardi were found (Timoshen-kov & Timoshenkova, 2007). The data on the 2014 abundance of Zootoca vivipara (Lichtenstein, 1823) on the burnt and unburnt sites have already been published (Eplanova et al., 2018).

In this paper, we aimed to study the abundance and sex-age structure of the Sand lizard (Lacerta agilis Linnaeus, 1758).

Material and Methods

In 2015-2017, we established two tape transects (numbers 1 and 2) along the southeastern border of the cluster area «Burtinskaya steppe» (Fig.). Each of them was 3 km in length and 5 km in width. Before the creation of the Orenburg State

Nature Reserve (in 1989), this area was plowed up, despite the soil unsuitability due to the large amount of rubble and the low thickness of the humus horizon (Kalmykova, 2017). There was a mineralised plowed tape of 9-11 m wide passed between transect 1 and transect 2. Such an arrangement of both transects situated in similar steppe conditions allowed us to make it possible to obtain correct data for a comparative analysis of the abundance and other parameters of reptiles. Transect 1 was located through the area burnt in August 2016, while transect 2 was established through the area burnt in August 2014.

Sand lizards were caught at transects in 2015 (29 April - 05 May, 24-31 May, and 2224 August), in 2016 (05-08 May, 09-13 June, and 02-05 August), in 2017 (12-15 May, 14-16 June, and 20-22 July). During data collection, catchers simultaneously moved along both transects separated by the mineralised strip. Sand lizards found at transects were caught for marking, measuring and weighing. After measurements, all animals were put back at the places where they were caught. We marked specimens to avoid re-capture of lizards within the study period. In terms of size and body weight, lizards were divided into one-year-old individuals and adults. At both transects, we did not meet lizards born in the year of capture. We determined the sex of adult lizards on the basis of external morphological traits (body colour, tail shape, dimensions of femoral pores).

Fig. Geographic location of the study area, transect 1 and transect 2.

To monitor the herpetofauna status in the cluster area «Burtinskaya steppe» of the Orenburg State Nature Reserve (Russia) influenced by fire, we used various parameters: abundance, age-sex structure, body condition index, predation press (Bakiev et al., 2017).

Results and Discussion

Table 1 presents data on the Lacerta agi-lis abundance at both established transects of the cluster area «Burtinskaya steppe» studied in 20152017. In 2015-2016, 264 lizards were counted, including 154 individuals on transect 1 (burnt in 2016) and 110 individuals on transect 2 (burnt in 2014). In 2017, 226 lizards were counted. Of them, 94 individuals were found on transect 1 and 132 individuals were recorded on transect 2.

Late April - early May 2015, the Sand lizard abundance (56 individuals or 18.67 individuals / km) was almost three times higher at transect 1, than at transect 2 (20 individuals or 6.67 individuals / km). Therefore, the 2014 fire severely decreased the abundance of Sand lizards in the burnt area. However, at late May 2015, the species abundance became almost the same on both transects. This year, the abundance of Sand lizards at transect 1 decreased, while it increased at transect 2. We believe, the only possible reason for such dynamics was the May 2015 migration of Sand lizards mainly from the unburnt area (transect 1) to the burnt area (transect 2) across the mineralised strip. Apparently, we found an opposite situation during the fire influence and immediately after fire damage, when the survived lizards migrated from the burnt areas to unburnt sites. It was caused by the lack of vegetation cover, which protects reptiles from predators and provides food supply. Probably, the late May return migration of lizards was caused both by the vegetation restoration at the burnt areas

and by the increase competition for food resources at the unburnt areas due to the higher density of the Sand lizards population over there. The sharp decrease in the species abundance on both transects late August 2015 can be explained by the leaving of lizards for wintering.

Late May 2015 - early August 2016, the species abundance on both transects had similar dynamics. Late August 2015 and early May 2016, the species abundance was equal on the two transects. So, if you combine two samples (n + n2), then the proportion of each samples within each transect would be 0.50. For instance, the late August 2015 species abundance on both burnt and unburnt transects was 1.33 individuals / km. Similarly, it reached 8.67 individuals / km equally at both transects early May 2016.

In 2017, the species abundance at transect 1 (burnt in 2016) was 1.2-1.6 times lower than at transect 2, which has already recovered after the 2014 fire and thus was treated as unburnt site. In most cases, the proportion of samplings on transects differs from 0.50. By comparing the differences in the proportion of lizard abundance with the general proportion of 0.50, we revealed statistically significant differences only for late April - early May 2015 (p < 0.01). In other cases, the null hypothesis cannot be rejected even at the 5% significance level.

After the 2014 fire, the proportion of lizard abundance at the transects did not differ statistically significantly from the 0.50 (p > 0.05) starting since late May 2015. For a short period of time (May 2015) the proportion of lizard abundance ceased to differ significantly from 50% at transect 1 burnt in 2014. The fact of levelling of differences in May 2015 for the next year after the 2014 fire was confirmed by 2017 data, when after the 2016 fire, the species abundance on transect 1 was 1.6 times lower than on transect 2 in mid-May 2017, but it did not differ significantly (a = 0.05) from 50%.

Table 1. The abundance of Lacerta agilis on the studied transects in 2015-2017

Date Total number of specimens (n) Transect 1 Transect 2

Total number of specimens (n1) n1 / km Total number of specimens (n2) n2 / km

After the fire impact (August 2014)

Late April - early May 2015 76 56 18.67 20 6.67

Late May 2015 72 38 12.67 34 11.33

Late August 2015 8 4 1.33 4 1.33

Early May 2016 52 26 8.67 26 8.67

Mid-June 2016 30 14 4.67 16 5.33

Early August 2016 26 16 5.33 10 3.33

After the fire impact (August 2016)

Mid-May 2017 85 33 11.00 52 17.33

Mid-June 2017 65 27 9.00 38 12.67

Mid-July 2017 76 34 11.33 42 14.00

Consequently, in the periphery of areas burnt late summer, the Lacerta agilis abundance was restoring after the first wintering following the summer fire. Perhaps, the observed decrease in the species abundance was associated not only with the animal death during the fire, but also with the fire-influenced deterioration of their wintering conditions. As a result of the fire impact, grass and shrub vegetation, which plays a layering role between snow cover and soil during winter, has practically disappeared. Kalmykova & Soroka (2017) noted a significant decrease in temperature below the soil surface (at a depth of 30 cm), a presence of sharp temperature fluctuations, and a decrease in humidity during the winter period in the burnt areas in comparison to unburnt sites.

The sex-age structure of Lacerta agilis populations shows abundance proportions of yearlings (juveniles), adult males (adults and adult females (adults ÇÇ) of the Sand lizard found in both transects, presented in Table 2.

Late April - early May 2015, the percentage of juveniles and female adults of Lacerta agilis at transect 1 was higher than at transect 2. However, these differences were not statistically significant (p > 0.05). Late May 2015, the sex-age structure at both transects evened out even more. Late August 2015, the abundance of male adults, female adults and juveniles became the same at the burnt and unburnt areas. And we found no statistically

significant differences between both transects during following observations. On the contrary, mid-May and mid-June 2017, transect 1 differed from transect 2 by a lower abundance of juveniles. Differences in sample proportions were highly significant (p < 0.01). Probably, the juvenile individuals of Lacerta agilis died first as a result of steppe fires.

Conclusions

As a result of fires in 2014 and 2016, which influenced the cluster area «Burtinskaya Steppe» of the Orenburg State Nature Reserve, the Lacerta agi-lis abundance decreased at areas adjacent to the fire border. It especially concerned juvenile individuals. After the first wintering after the fire impact, we noted the restoration of the abundance and sex-age structure of the Sand lizard population at the periphery of the steppe areas burnt late summer. The restoration we studied in the cluster area «Burtinskaya Steppe» was associated with the Sand lizard migration through a mineralised strip dividing the burnt and unburnt sites. The changes in abundance and sex-age structure of this species were more remarkable under fire influence in comparison to the body condition index and the predation press.

Acknowledgments

The authors are grateful to O.G. Kalmykova, M.A. Kh-ramova, O.I. Zinenko and M.K. Ryzhov for their help in field research and the text translation into English.

Table 2. Sex-age structure of the Lacerta agilis populations at both transects

Date n % ± m

Transect 1 Transect 2

juveniles adults 33 adults ÇÇ juveniles adults 33 adults ÇÇ

After the fire in August 2014

Late April - early May 2015 10 17.9 ± 5.12 32 57.1 ± 6.61 14 25.0 ± 5.79 2 10.0 ± 6.71 16 80.0 ± 8.94 2 10.0 ± 6.71

Late May 2015 5 13.2 ± 5.48 14 36.8 ± 7.825 19 50.0 ± 8.11 4 11.8 ± 5.53 12 33.3 ± 8.08 18 52.9 ± 8.56

Late August 2015 1 25.0 ± 21.65 2 50.0 ± 25.00 1 25.0 ± 21.65 1 25.0 ± 21.65 2 50.0 ± 25.00 1 25.0 ± 21.65

Early May 2016 9 34.6 ± 9.36 9 34.6 ± 9.36 8 30.8 ± 9.07 4 15.4 ± 7.00 13 50.0 ± 9.81 9 34.6 ± 9.36

Mid-June 2016 - 2 66.7 ± 27.15 1 33.3 ± 27.15 - - 2 100.0

Early August 2016 1 20.0 ± 17.89 2 40.0 ± 21.91 2 40.0 ± 21.91 - 1 50.0 ± 35.36 1 50.0 ± 35.36

After the fire in August 2016

Mid-May 2017 7 21.2 ± 15.39 16 48.5 ± 12.49 10 30.3 ± 14.49 35 67.3 ± 8.06 10 19.2 ± 12.41 7 13.5 ± 12.81

Mid-June 2017 3 11.5 ± 18.42 11 42.3 ± 14.88 12 46.2 ± 14.39 20 54.1 ± 11.14 3 8.1 ± 15.76 14 37.8 ± 12.97

Mid-July 2017 21 61.8 ± 10.59 4 11.8 ± 16.13 9 26.5 ± 14.71 19 45.2 ± 11.41 5 11.9 ± 14.53 18 42.9 ± 11.67

Note: n - number of individuals; m - error of the mean; % - proportion of the total number of individuals in sampling.

References

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ДИНАМИКА ЧИСЛЕННОСТИ И ВОЗРАСТНОГО СОСТАВА LACERTA AGILIS (REPTILIA, LACERTIDAE) ПОСЛЕ ПОЖАРОВ В ГОСУДАРСТВЕННОМ ПРИРОДНОМ ЗАПОВЕДНИКЕ «ОРЕНБУРГСКИЙ» (РОССИЯ)

А. Г. Бакиев*, Р. А. Горелов, А. А. Кленина

Институт экологии Волжского бассейна РАН, Россия *e-mail: herpetology@list.ru

Изучались численность и половозрастная структура прыткой ящерицы (Lacerta agilis) в разные месяцы сезона активности 2015-2017 гг. на двух трансектах. Параллельные трансекты заложены в юго-восточной части участка «Буртинская степь» Оренбургского государственного заповедника (Россия). Длина каждого маршрута была равна 3 км. Ширина минерализованной полосы, разделяющей маршруты, была равна 9-11 м. Трансекта 2 была расположена на территории, которая сгорела в августе 2014 г. Трансекта 1 располагалась на территории, которая сгорела в августе 2016 г. По размеру и внешним морфологическим признакам особи прыткой ящерицы были разделены на три группы: молодые особи, взрослые самцы и взрослые самки. После измерений меченые животные возвращались в места отлова. Численность и половозрастная структура восстанавливались на маршрутах в мае - июне после первой зимовки, следующей за пожаром. Например, на трансекте 1 в конце апреля - начале мая 2015 г. встречаемость была почти в три раза выше (18.67 экз./км), чем на маршруте 2 (6.67 экз./км). Но в конце мая 2015 г. численность на обоих трансектах стала практически одинаковой (12.67 экз./км на трансекте 1 и 11.33 экз./км на трансекте 2). Молодые особи страдали от пожаров больше, чем взрослые. Так, после пожара 2016 г. доля ювенильных особей в середине мая 2017 г. составила 21.2% от общего числа особей прыткой ящерицы, встреченных на сгоревшей трансекте 1, и 67.3% на трансекте 2, сгоревшей в 2014 г. На наш взгляд, быстрое восстановление численности и половой возрастной структуры в Буртинской степи связано с миграцией особей прыткой ящерицы через минерализованную полосу, разделяющую горевшие и негоревшие трансекты.

Ключевые слова: заповедный участок «Буртинская степь», Оренбургская область, пожары, прыткая ящерица

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