この研究は、1971年運用開始で1998年まで運用予定のラトビアのSkrunda Radio Location Station(位置探知無線局)から発せられる高周波電磁界(RF EMF)が松の成長と発達に及ぼす影響を調べた。1993年に、この無線局周辺の4つの地域(RF EMFばく露なし、低ばく露、高ばく露、非常に高ばく露)それぞれにおいて樹齢50〜60年のマツの樹頂から松葉および松カサを採集し、形態観察を行なった。その結果、2年生の葉の葉肉の葉緑体の超微細構造において、密な間質、コンパクトな顆粒膜系、でんぷん顆粒およびプラスト顆粒の量の変化という特徴が見られた;低ばく露および非常に高ばく露地域のサンプルにおいて、プラスト顆粒の量が多く、ゴルジ体の構造および輸送物質が変化し、異なるタイプの細胞において大型の好オスミウム酸顆粒が現れた;明らかに、EMFはゴルジ体の修飾を誘発し、その機能を細胞壁(リグニン)の前駆体合成から樹脂の前駆体の形成および輸送に切り替える、と報告している。
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To examine the impact of radiofrequency electromagnetic fields of the Skrunda radar station on growth and development of pine trees.
In a previous study of Balodis et al. 1996, it was shown that exposure to the Skrunda radar station decreased the radial growth of pine trees. In the present study, ultrastructural effects were examined in order to understand the changes.
Pine needles and cones were collected in 1993/94 in four different areas (pine forests) near the Skrunda station: 1. area) no exposure (0.04 mV/m), 2.) low exposure (9.5 mV/m), 3.) high exposure (79.4 mV/m) and 4.) very high exposure (250 mV/m).
The seeds were planted and grown in a glasshouse. Second year needles were analyzed.
| ばく露 | パラメータ |
|---|---|
|
ばく露1:
154–162 MHz
Modulation type:
pulsed
ばく露時間:
continuous
|
|
|
ばく露2:
154–162 MHz
Modulation type:
pulsed
ばく露時間:
continuous
|
|
|
ばく露3:
154–162 MHz
Modulation type:
pulsed
ばく露時間:
continuous
|
|
|
ばく露4:
154–162 MHz
Modulation type:
pulsed
ばく露時間:
continuous
|
|
Pulse level of the Skrunda radar could have intensities of 375 µW/cm² or more.
| 周波数 | 154–162 MHz |
|---|---|
| タイプ |
|
| ばく露時間 | continuous |
| Modulation type | pulsed |
|---|
| ばく露の発生源/構造 |
|
|---|
| 測定量 | 値 | 種別 | Method | Mass | 備考 |
|---|---|---|---|---|---|
| 電界強度 | 0.04 mV/m | - | 測定値 | - | - |
| 周波数 | 154–162 MHz |
|---|---|
| タイプ |
|
| ばく露時間 | continuous |
| Modulation type | pulsed |
|---|
| ばく露の発生源/構造 |
|
|---|
| 測定量 | 値 | 種別 | Method | Mass | 備考 |
|---|---|---|---|---|---|
| 電界強度 | 9.5 mV/m | - | 測定値 | - | - |
| 周波数 | 154–162 MHz |
|---|---|
| タイプ |
|
| ばく露時間 | continuous |
| Modulation type | pulsed |
|---|
| ばく露の発生源/構造 |
|
|---|
| 測定量 | 値 | 種別 | Method | Mass | 備考 |
|---|---|---|---|---|---|
| 電界強度 | 79.4 mV/m | - | 測定値 | - | - |
| 周波数 | 154–162 MHz |
|---|---|
| タイプ |
|
| ばく露時間 | continuous |
| Modulation type | pulsed |
|---|
| ばく露の発生源/構造 |
|
|---|
| 測定量 | 値 | 種別 | Method | Mass | 備考 |
|---|---|---|---|---|---|
| 電界強度 | 250 mV/m | - | 測定値 | - | - |
All seeds from the area with low exposure germinated (100 %), while 85 % of the unexposed seeds germinated. However, only 55 % and 27 % of the seeds obtained from areas with high exposure (areas 3 and 4, respectively) germinated.
In the needles from the young pines, grown from seeds which were collected from low and high exposed areas (area 2, 3 and 4), an increased amount of plastoglobules (globular formation made of lipids; a marker of stress response) was found compared to those not exposed. Additionally, near golgi apparatus, large osmiophilic globules (a characteristic chloroplast component) were found in the needles obtained from exposed seeds in comparison to needles belonging to unexposed seeds.
The authors suppose that pulsed radiofrequency electromagnetic fields could lead to an unspecific stress response, such as accelerated resin production and promoted senescence of pine trees and hence influence the radial growth.
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