ˆ˙ ˝ ˜ ˛ ’˚2 450 3 6˛ ˜78-2 $ ˜ -’, · PDF...
-
Upload
truongcong -
Category
Documents
-
view
226 -
download
1
Transcript of ˆ˙ ˝ ˜ ˛ ’˚2 450 3 6˛ ˜78-2 $ ˜ -’, · PDF...
![Page 1: ˆ˙ ˝ ˜ ˛ ’˚2 450 3 6˛ ˜78-2 $ ˜ -’, · PDF file˜8g1 ˛3g2 >& ˛& g˜˜j lp: e1’‘˜p2 8> ˛˚4,2 ... n gg . gg ˝ \ggk-& ( ˙ ! q) ’gg=* ?](https://reader034.fdocuments.net/reader034/viewer/2022042619/5a75fce87f8b9a9c548cf395/html5/thumbnails/1.jpg)
������� ����� /������ /����� ��� /�������
��
���������� � ! "��# �$%& �'(�%)�*��% �+���$� ���, -� ./�$(�
(�$��+� ���-'0�*12 � , 3�'�-����$� ��'��2 �450 3�6� �78�-2 �
9'& +�� '� :� �'.��-�� -�+�� ';%0 < �
)����� ���� :��/�/������� ���� ���:�/�/����(
/='�-
=�*��%'�(�% �+������ -'��# .$��'<%& �+�> 0-��� �+� �'?� 7 $��50'� @> A'$������ B��� <+ C�D�4#�� �� <+ � E50
4F G��0 !� (�&�� ���1%�� �': -���� .!� I-+�$�+�J� C:#''C����� ������ �"��#� .:0�K '(�%)�*��% �+���$�� G8�� ��, -� ./�
��12� (�%��(�� ..���� ����L6� + A���� �� F $)!� ��&M�$:0 ��N%&'-� ��O�� C.����� .�0�� �$��#� ��P� ��+'�Q�� �.&'��+-
�$���'� � .&'����'. .& ##'R���STUVS �MWWXTWXM ��UTV�V�WVTV0 �� ��P� 'P �'���Q� L6� �� %�XW�T��X� �US�XT��XW �
�W�T����SWTV�XSTV0 �� ��P�'P �'�(�%&�# ��%��MSTS�� �U�XVT���M ��UTV�S�TV� ��WTV0 �� ��P� 'P �'Y�Q� ��Q%'� �Z
�MUTUX�M�UT��M���TV�S�TV����TV�� ��P� 0'P �'%(�%&0! �� -� ���> .��Q� �� � !� Q$��#� �Q+Cyclotella �Cocconeis �
Surirella ���P� !�'.&Chlorella �Oocystis �Tetraedron �� R��[ .� !� (�%&Q�# �� Q$��#� �Q+Cyclotella �Surirella ��P� !� �Q'.&
Mougeotia �Chlorella �Scenedesmus ��� !� �'�+-Closterium � !� �$���'.&Prorocentrum � !� �'����'.&Chroococcus ��Q R��[ .
�� ��$'�!� Z$��#� �Q+Cyclotella �Surirella���P�!� Q'.&Mougeotia �Chlorella �+-'�Q�� !�Closterium �� !�$��� Q' .&Ceratium !�
�'����QQ' .&Chroococcus(�%&QQ0! �� �!��QQ$��#� �QQ+Cocconeis �Amphora��P� !� �QQ' .&Chlorella �Tetraedron��+-'�QQ�� !�
Closterium�� !� $���'.&Ceratium � !� �'����'.&Tolypothrix [-��� R�� .\]�� �+�� "�Q�# '(���Q� �(�&Q^�T�$_��Q`��0 � Q�
. ##'.Q�0�� RW�/VTUV/V���/�–��/��S�/�T�S/V���Q� �� WW/VTS�/V�W�/�–�W/��XV/�T��/��(�%&Q�# �� W�/VTSV/V�
��/�–SM/��X�/�T�M/V�� �� $'�ZM�/VT��/V�U�/�–�W/V��W/VT�V/V�� (�%&0! �� 7Q� .Q'%b$"�Q�# Cc%&Q$! ��� ��Q�
(�%&�# .-0> 7��.2�6] B��� '� d�'1 �# �@> '! "��# � R$%& �'(�%)�*��% �+��$�� C$ �� ./�.(���9$�� e$.Q/� Q$ I�#�
0 .;4F (��# -������ .
���� �+�fP'-�:�'����� ������ �(�%)�*��% �� �"��# �$��, -� ./�
�.������� !"�#$%& '()*% ��+,-& !')�./ 01�*2 �34,-&
*:2 567829:& �8� !��.��9-��(�9':[email protected]
![Page 2: ˆ˙ ˝ ˜ ˛ ’˚2 450 3 6˛ ˜78-2 $ ˜ -’, · PDF file˜8g1 ˛3g2 >& ˛& g˜˜j lp: e1’‘˜p2 8> ˛˚4,2 ... n gg . gg ˝ \ggk-& ( ˙ ! q) ’gg=* ?](https://reader034.fdocuments.net/reader034/viewer/2022042619/5a75fce87f8b9a9c548cf395/html5/thumbnails/2.jpg)
������� ����� /������/����� ��� /�������
��
.0-;0
"6(9-��6(�� ;2� �< 6-��=>& ?���81?�(@�1 � �<A.BC ?�<
':6B= D��61 E@ ;����BF ?&�&a3*(8< )��(.�G#-H EG���
IH � 3GG�:6� � ��GG�J ��GG ?�GG<EGGK��� �6GG � L� � �GG<
E-�M�� �<'23* �1�?�G�> ���8G1 '�3G*F&�� �G)�./ �
3GG-�& .'GG2 &� '�&6GGC62 �GG(NF 3GG*-�N< EGGF �GG��� "&6GG�
"6(4-��6(�� �<O�GP2 � 3*G �1 ��Q RGB(S2 O�&�G � �G<
3G**F 3 � ."6G(4-��6(�� � '4�T6G:6F& 56G%& U�G=&�1 �G<
V< "�8-& ��$(=& �1 W�.��& � L�*K �G�N<& 'G)�./ 01�G*2 >&
3-�& '�X�1 .G1 '-6G(4-��6(�� �6G� �8G�> �>��G2&E"&6G*Y
!?>�G=�Z�F !'(8G�> ?�G<6F !' ���� "��[1H � \& ?&�Z
?T6:6*4� O�P2 L�6- ?�< EG-�M E�$]G� � �8G�> IH ?�G<
E1 I^�GC "&6G*Y ��$(G=& '(8G�> �M6G= � !'(8G�> ?�G<
'2 3-6 )_!�_���(.
�`2 >& ?���8GGGG1 � a6]GGGGM � '4�T6GGGG:6F& ��GGGG):
"6(4-��6(�� !�< '-�42 � '-�2> ��Y6*� �=& EbJ�2 ;1�Q .L�1
��"6(4-��6( &�G � �<��G� I�GS(-& � �G#-H '�3G-> � 3G � O
���$� L�)2 � cS,2 '`�P2 ?�<�6(F�� ;NP� 6GC� '��G<
�&.EG-6� �6dJ \3Y � �6dJ !�G#-H e*F&�G� ?�G<6+:& !�G<
E)2�C "61 "6��-6���"6(4-��6( G(2 �G#-H ��Y�N(C& � �<f>& �g
�>&3G-& ;G1�Q EGF �=& '`�P2 ?�<�6(F�� G2 ?�G��'�G2& !3G �1
��"6(4-��6( � �P� ��&6N< �<fL�G1 ;G1�h(2 ��gH � ��/�.��& ��g
E]S,2 ?�G<�(2&��� ���G= �G1 L�)2 � �3 E(M�* '`�P2 ?�<
�>&3-& ;1�Q��Z 3-�& �&�Q ��b(-& ;1�Q��Z � ?��� .!LG�& �G1 ���Y
!'GN�BQ& O�&�G � 6GM e*F&�G� � �G=& LG4N2 E-6� A�
i4Y 3-&6(1 '(M�* �8�> � '����&�jC EF 3 �1 E( & 'BN):&
�Gk�& O�&�G EG1 'B��N� � �=& �6N- E1�k� &� "H E( �� �
3 �1 E( &3- '-6*F �3 .1EEG-6� 'BF �6/ � ?�G<�'-6G(4-��6(
E.*C �1 ���b- ?&�1 �)2 ?�< 0��GQ� EBNC >& �8�> O�P2 >& '*
"3G \�� \�Q�& � ��2H !'�6:H !"6�=�4$���6� !'4��&����3�<
�8�> ��4,2 ����8G1 �3G2 >&� �&�G��j� l�P: E1 '`�P2
3*(8< 3�$2)��.(��"6(4-��6( m`= � �<�X ��G�& E':�*NG�"6
��EK� �)� � �<�Eh./ � R3*1?��G���� m`= l�P: E1 EK�'
(trophic state) :6���:�& 3G�N<& EG�3G-�& �.G1E ���G.Y��G+
F��GG�EGG-6� n&?��"6GG(4-��6( �/ >& �GG<GG�:&6GG� o'B]GG� '
(seasonal succession)> p6GGGG*� !GGGG�(8'(biodiversity) !
E-6� �<?1�3-&6��6��4(bioindicator species)cM� � !�<?
>GG�(8'(bioindices)GG���� m`GG= �GG1 'GG�� A�.��GG2 EGGK� O
'2 6 )�q.("6(4-��6(�� �6dJ '�3�r�� E1 EC6� �1 � �<
���G� �G1 �&6GC62 LG�& ���G$(2 OG1&�� � O�P2 �< ?�G<
���� �M�* !�+� '(8�> ���81 '-6(4-��6(�� RB(S2 ?�<
�& ��N<&.
T6:6F& ��):�`2�4'��"6(4-��6( EG1 �< � ?�6G2 ��6G%
IX�� EK��� � �< 3 \�k-& "&��& ?�< �=& �)�!�!�!s��.(�1
& E1 EC6��L� EF�"6(4-��6( &�& �<?���� �<?$B(S2 '3*(8G<
� EFfg�Y6*(2 �&�':6� �1 �:�& 3��j� ��/�.��& !E�E&?� tG-� �
%6]M�F ���$'(= &�: 3-�& IH �1�'E1�6+:& A?nG=�*2
N)� ;1�Q ��&�1 V?� o/�*2 �EK� &?6GC62 ��GY�/& u3-& �1
&6 �=& �.�� EG):�`2 ����Gv &�G: G�E&?& � G�a6]GM L
6:�& � "�*rN<�61 3<&6M �.��(=&�?1 ��):�`2 G��3G "�
-&�&�� !e*F&�� E):�`2'F�� ��E-6� n&?� E)2�C �"6(4-��6( �<
���2& �*J 3= EK�?���v ?2'3 �1 .&�� L�V#2 >& EK� L���
V(8�=6F& EF �=& "�#$%& "�(=& � '1H ?�< � �q?�(26GB�F
\��N= "�(=�# )��q "�#$G%& w�G I6G*C ?�(26GB�@ (��
x�Y '��G��&�jC°���'��� ':�NG 56G/ '��G��&�jC °���
's{'Q� �=& 0Q&�);4 �(.� L�& �EK�3*-�2 G�IX�G� A
��GG�J !�C�GG#2 "��3GG-�� ?&�GG1 '4�T6GG:6F& �GG�N<& � eGGJ�
�& "�G�<�2 a6]GM E1 ?[1H �&6C62 .>&�Gb- "�G�<�2 "6G��
':6GF ;2�G '261 '<�2 E-6�)Alburnus sp.([G�� '<�G2 ���G= !
iGB�)Capoeta damascina ( U6�-�G�H �)Aphanius isfahanensis(
'GG��/ U&��GGF '<�GG2 EGG-6� � �)Carassius auratus (EGGF
5[GGGQ '<�GGG2 � '26GGG1 &�GGG�& OGGG=6� "�GGGNF L�GGG+-� ?XH
)Oncorhynchus mykiss (1 ��� O=6� EF'G��)2 EK��� E
�3 3-&)�.(
![Page 3: ˆ˙ ˝ ˜ ˛ ’˚2 450 3 6˛ ˜78-2 $ ˜ -’, · PDF file˜8g1 ˛3g2 >& ˛& g˜˜j lp: e1’‘˜p2 8> ˛˚4,2 ... n gg . gg ˝ \ggk-& ( ˙ ! q) ’gg=* ?](https://reader034.fdocuments.net/reader034/viewer/2022042619/5a75fce87f8b9a9c548cf395/html5/thumbnails/3.jpg)
����� %&$! "��# � ����� �(�%)�*��%'� (�$� ���, -� ./�$�� ��+
�{
& E1 EC6� �1�LE2�-�1 EF �<?IH �G1 ���Gb- �G<?G ����G(#1 L
�=�* U�=&�1 �=&'����� �<?26-68F�� RB(S2 �4'�� 3 �1
[<�E*�<?E2�-�1 �<?���b- '&�1 ?32���& �G�IH Le<�GF �G<
�31� .=��1 &�:'-&�&�� !e*F&�� 'p6*� ���"6(4-��6( �<��EK�
�1��F ��Y�/& 5�= RB(S2 56]� � �*J 3=?T6:6F& �4'�
1�T6:6�4'&�1 &� ?� ���b- � '4�T6:6F& "&6� L��)� ����3G2
� L�& '�H�� � EK��EK� 6GN- 3G<&6M V<&�� E1�,2 ?�< .�G�&
& � EGGKGG� GG=��1 e<�|GG� L'j�GG����(M�GG= �&�?EGG)2�C
��"6(4-��6( � �< )� �G� G���� m`G= L'�EGK�� G=��1 �6G2 '
�& "�N� �2 �2& �����&�Q�32 EF V����3G2 >&� ���Gb- � �
&�� L�2 EK�'� EG)2�C ��(M�G= U�G=&�1 3G-&6��-6G(4-��6('!
F�$�IH ��=��1 'j� 3-�� ��� �&�'� � '6 \�k-& .
h�� � ���0 �+
� � .;i�0 �:0$��N%& �+�.���� ����
C ��)Q62� '����&�j�;4G � �*J 3= EK���3G cS,G2
�GG=& .�GG#C oGG�hP� LGG�& � �GGb- �6GG2 }&3GG<& 'GG=��1
E-6N- "�(81�� >& 5�= A� �32 E1 ?�&�1��_��G� ��G#1��_{
L)��.�� .b;� $��N%&$� 7':8�0 � ��, ./�.���� ��+F�Q�0 �� ����j�����)S1, S2 ,S3
0i�.;��S4 �S5 .;i�0��S6 .;i�0�(.
�
�
�
º��,´��,"sqN
º��,´s�,"��E
º��,´��,"��N
º��,´s_,"��E
º��,´�s,"{N
º��,´s{,"��E
1SS2 S3
S6
S5
S4
![Page 4: ˆ˙ ˝ ˜ ˛ ’˚2 450 3 6˛ ˜78-2 $ ˜ -’, · PDF file˜8g1 ˛3g2 >& ˛& g˜˜j lp: e1’‘˜p2 8> ˛˚4,2 ... n gg . gg ˝ \ggk-& ( ˙ ! q) ’gg=* ?](https://reader034.fdocuments.net/reader034/viewer/2022042619/5a75fce87f8b9a9c548cf395/html5/thumbnails/4.jpg)
������� ����� /������/����� ��� /�������
�_
� AG�T�� Eh`*2 >& ;]� �< O=&�& ��\�Gk-& �G*J 3G= EGK�
3��� .E):�`2 L�& � ���$� E1 EC6� �1 �<?L�+-��2 � eJ��
� oNY T6G:6��2 ���G$� � IX�G� E1 IH ?��� !EK���4'�
;4 EG-6N- ?&�G1 EGh`*2 EG= "H �)G=� � IX�� � ?�&�G1
��3GG EGG(��� �GGb- � 3GG= EGGK�);9GG �.(EGGh`*2�);GGP2
��+(8�& ?�G<�!���(L�G1 oGNY OG=6(2 ?&�&�q��q!�G(2
���3NY �(81 !IH ?��� "�31 EG-& �G1 � '+*= !�G � ?3G*1
Eh`*2�)��+(8�& ;P2 ?�<s��(L�1 oNY O=6(2����!�(2
IH ?��� ?&�&)�3GGJ�qIX�GG� IH ?��� >& 3GG%� (!
E-& �1 �(81 E=�2 � O=6(2 ?3*1 � ���* ?[1H "�<��� ?&�& !?&
E/6Z Eh`*2 !���)��+(8�& ;P2�(L�1 oNY O=6(2�q���(2
���3NY �(81 �1 !���8G1 'G:H &62 ?&�& !'=� IH ?��� ?&�&
)�3J�q� IH ?��� >& 3%� �EK�(?[G1H "�G<��� ?&�& !
E/6Z �=& IH � ���* � �� .1 ���$� ;4 �< ��o/�G*2 L
�h2 ��& E1 E8���+(8 �<?81 o/�*2 "�� �6G1 EbJ�2 ;1�Q �� .
� �J�82�EK�{qq �G�� m`G= >& p�$��& !��(4< ��qq !�G(2
IH oNY E-X�= L�+-��2�qEh`*2 E-X�= '�3-��1 O=6(2 � �(2
�_q 'B�2 �(2 '23 �1 .L���� O=6(2 &6G< ?�G2 L���X�1 � L���
E1 LN#1 � n����)�/�'(-�G= EGC� &�G� (&�G2 � �)�/��
'(-�= EC� &�G� ('G2 3G �1 .� �G= V�GBQ& ?&�& EGh`*2 LG�&
1 �=& '-�(8<6@E?�6/ ;]G� >& 'GN�- � EGK��� m`G= EG@
82> '2 � >& �3� 6� "�( 3 �1 .eGS1 EGK��� oGNY VGF ?�G<
1Ei*C >& IH � L1 "�<��� EB�=� ?�G<Phragmites !Typha !
Juncus �Cyperus'2 5�j & ':�J � 6 EG/6Z "�<��� EF��
i*C >& ?�<Potamogeton !Ceratophyllum !Myriophyllum
�Polygonum3-�& 6C� �#2 �� �,#.��& >& .
�.����!�-�� � @> ���� $�'�'��=$Z'� ��+��%f�� �'`
EGG-6N- VGG#2 L�GG�)� �GG#C IH >& ?�&�GG1 ?�GG<�(2&��� L��GG�
�Y�GG= >& IH '���N�GG 69�[����GG� ��>& ��$(GG=& �GG1 m.GG%
E-6N- IH �&�1Van Dorn m`= >& )>& �(NF��(2 ("��2 !)��G�
��(2 (oNY �){���q�(2 (Eh`*2 E= �);4G �(EGK��� >&
�G��� \�Gk-& �*J 3= .;2�G IH '���N�G 69�[�� ?�G<�(2&���
!�2pH !oNY � 56BP2 "|�8@& �G1 EGh`*2 �G< ;GP2 � ����
�6GG�C �*GG=�2 !?& pH �GG(2)5�GG(�k�Schottgerate 53GG2 !
������!"�N:H �M�=(�G(2 "|�8G@& !)53G2Paqualab ELE !
"�N:H �M�= (�>&3-& ',4= EP$% �3 ?���.EG:�h2 LG�& �
;]G� �G< ?&�G1 oGNY EG= >& �Gb- �6G2 ?�G<�(2&��� L�+-��2
3G ��&[� .EG-6N- oGNY >& IH ?�G< o/�G*2 � ���G$(2 ?�G<
E= G1 � 3G ;h(*2 ��+,��2>H E1 E-��E� �&�G(�- EG-��&3C �6G/
�>&3-& �#-H ��$8� 3 ?��� .�&�(�- 1E�+1�GS(-& ��G(9:& EB�=�
'-6G�)Ion Selective Electrode !53G2 JEAN WAY 3310 !
"�N:H �M�=(t-� ��� E1 56BP2 ��$8� !��$(G=& �G1 'k*=
�(26(���(9�GG=& >&)53GG2JEAN WAY6400"�GGN:H �M�GG= !(
�>&3-& 3 ?���)�s(.� ��$8G� � �&�(�- ���(- L�+-��2 �EGK�
�=& �3 ��&[� E:�h2 L�& � ;]� �< �.
.���� ����� C'':# � $����� ������'(�%=�*��%�+
E-6N- "6(4-��6(�� >& ?�&�1 0GNC �1 �< oGNY >& IH ?��H ?�G<
L�1q��\�Gk-& �G#-H "6GN- W6GBS2 >& i� '��F "&[�2 E1 �(2
3 ."6G(4-��6(�� ��.�� �#C EG-6N- EG1 �G< IH ?�G< 56GBP2
L�6�H 56�6:)�q'B�2 �< ?&>& E1 �(�:�qq 'GB�2 EG-6N- �G(�: (
=�* � 3 E��v& i*C '�� ?�6G- �69=��9�2 >& ��$(=& �1 �<
'��GG=�* ?�<3GG�B@ �)�q!�����(�GG��� \�GGk-& .���NGG
��"6(4-��6( �3G= \X >& ��$(G=& �G1 �G<����NG � �G�&� A
\�� �<?E( � &?��"6(4-��6( �>&3-& U�=&�1 �< ���?E( � 56/
2 >& ��$(=& �1�N,K �(2��4'3 \�k-& )�q.(
\]�� .4��50 �+�"��#
EGGG-6� p6GGG*� EGGG):�`2 LGGG�& � 'BGGG%& E(GGG= EGGG= � ?&
E-6� ?�*Z cM� ?&)species richness ( cM�G U�G=&�1
R:�GG���2)Margalef index(�GG�.:�Z !/EGG-6� '(M&6GG*4� ?&
)species evenness/dominance ( = cM�G U�=&�1�"68G�N
)Simpson index (F�� ���*Z n?.:�Z �G�EG-6� �&?U�G=&�1
![Page 5: ˆ˙ ˝ ˜ ˛ ’˚2 450 3 6˛ ˜78-2 $ ˜ -’, · PDF file˜8g1 ˛3g2 >& ˛& g˜˜j lp: e1’‘˜p2 8> ˛˚4,2 ... n gg . gg ˝ \ggk-& ( ˙ ! q) ’gg=* ?](https://reader034.fdocuments.net/reader034/viewer/2022042619/5a75fce87f8b9a9c548cf395/html5/thumbnails/5.jpg)
����� %&$! "��# � ����� �(�%)�*��%'� (�$� ���, -� ./�$�� ��+
��
��-K�.�� �� _P%m0 ��6� �� @> 1'� ��+%0���� $��, ./�)C'N��'0±���-��%�� ��i] .(C'N��'0 L8�-, ����� .f _$�� + �� �+
oi� �� ���0> p� !� -�%&+ q%b0 I, r$VS/V �:0 I*%]� C=��� (�0!> � -2�� -���-� ����.
"�(82> [���� "�(81�� ��#1 �(2&���
�s/q±�s/� d s�/q±��/�� c s{/q±��/�q a ��/q±{�/�s b (ºC)IH ?�2
q�/q±{�/� a q_/q±�s/{ b ��/q±s�/{ b ��/q±q�/_ b (mg/L)56BP2 "|�8F&
�/�±�/�� c s/�±�/��_ a {/�±�/�q� b �/�±�/�_ c (cm) ',4= ���� oNY
q�/q±��/_ a q�/q±�s/_ b q�/q±�s/_ a q�/q±q{/_ c pH
q�/q±�{/� a q�/q±_�/� bc �_/q±��/� b q{/q±�_/� c (mg/L)�&�(�-
qq/q±q�/q c q�/q±�{/q b ��/q±�q/� a q�/q±q�/q c (mg/L)��$8�
cM�GG "6-�GG ����GG*)Shannon-Wiener index (� �6GG2
GG=��1 � E.GG=�P2'�GG��� �&�GGQ .cM�GG �GG<?=�� "68GG�N
"6-� ���\�G- >& ��$(=& �1 �* �&[G�&Ecological Methodology
)��(U�=&�1 R:����2 cM� �R:�G���2 ��Gh�hP� )�q!��
���(�� E.=�P2�3.
���>'�+Z����0>
�& cM�G � IH '$�F ?�< �G<?[�:�G-H >& ��$(G=& �G1 p6G*�
E��/ A� i-���&�)One – way ANOVA (�62 ?��2H E�[k�
L�+-�G�2 � !���� �&�Q �6G2 LG4-& "6G2>H >& ��$(G=& �G1 �G<
�G��� �&�Q E8��h2)��.(:�-H \�GN� �'G*)2 m`G= � �G<[ ?�&
q�/q\�- >& ��$(=& �1 �&[G�&)SPSS; version 11.5 ( 3G \�Gk-&
)�q.(
s$�%�
@> $�'�'��)$Z'� ��+��%���
��]S,2 IH '���N� 64�[�� � �� EK� 5�3C��3G E�&�&
�=& .?�G2 'B]G� L�+-��2 EG1 56GBP2 "|�8G@& � IHnG����
C◦{�/�s�q�/_'B�2 !��G#1 � �(�: �1 \��C◦��/�q�s�/{
'B�2"�(81�� � �(�: �1 \��!C◦�� /����s/{'B�2 �(�: �1 \��
�[���� �C◦�s/��{�/�'B�2 6G1 "�(8G2> � �G(�: �G1 \��.
]� L�+-��2 'BpH E1 ',4= EP$% ���� oNY �n���� q{/_
��/�_'(-�= !��#1 � �(2 �s/_��/�q�'(-�= !"�(8G1�� � �(2
�s/_��/��_'(-�= � [���� � �(2 ��/_��/��'(-�G= � �G(2
6G1 "�(8G2> . ��$8G� � �&�G(�- 'B]G� L�+-�G�2 [G�- 56GBP2
E1 n�����_/��q�/q'B�2 ��G#1 � �G(�: �1 \�� !��/���q/�
'B�2 !"�(81�� � �(�: �1 \��_�/���{/q'B�2 � �G(�: �G1 \��
� [�����{/��q�/q'B�2 G1 "�(82> � �(�: �1 \��E3G2H �G=
)5�3C�(.
�#'.��` R������� � �'(�%)�*��% �+
F���E-6� n&?G-&�&�� �'��"6G(4-��6( �G<?& � G���+(8 �G<?
E-6N- �3 ?�&�1 � RB(S2 56]� � �*J 3= EK��� 5�&3GC�
����=& �3 E�&�& .��G#1 ;]G� � i*GC ?�G< >& '-6G(4-��6(��
\6��GG� �GG<)Bacillariophyceae ( E8GG����BF �)Chlorophyceae(
)NCGG� 4,GG� &� nGG:�Z ��:�GGJ � & ;'NGG= >& EGGF��<3
)Desmidaceae ( i*GGGC �GGG#*�Cosmarium >& ���6*GGG� E8
)Dinophyceae ( i*GGCCeratium�GG=�* '��� GG�3.EGG*2&
-&�&��'��"6(4-��6( & � ��#1 � �<���+(8 �G<?&�G1 RGB(S2 ?
�\6�� �<�����sq� ���BF !�E8�{{_�{_�N= !��<3�s�q�
��6*�E8{q�q2 � 56B= �B':�1 �(E3G2H �=)5�3GC�(.�
��#1 G�\6�� �G<?i*GC nG:�Z �G<?Cyclotella !Cocconeis �
SurirellaGG-&�&�� EGG*2& EGGF 6GG1 'EGG1 �GG#-H ���GG� n�{���{�!
{_���q� �����_�2 � 56BGG= �GGB':�& � �GG(GG���+(8 �GG<?
6GG1 RGGB(S2 .GG1E#1�,GG2 �6GG/'���BF � GG�i*GGC !E8 �GG<?
Chlorella !Oocystis �Tetraedron -&�&�� E*2& � 61 n:�Z '
![Page 6: ˆ˙ ˝ ˜ ˛ ’˚2 450 3 6˛ ˜78-2 $ ˜ -’, · PDF file˜8g1 ˛3g2 >& ˛& g˜˜j lp: e1’‘˜p2 8> ˛˚4,2 ... n gg . gg ˝ \ggk-& ( ˙ ! q) ’gg=* ?](https://reader034.fdocuments.net/reader034/viewer/2022042619/5a75fce87f8b9a9c548cf395/html5/thumbnails/6.jpg)
������� ����� /������/����� ��� /�������
{q
��-K�.�# '.��` R��0 �'N��'C)±�i] ��%�� ���-� (����� )0 �� ��P�'P �'%(�'(�%)�*��% �+�./�$�� ��,
� �� ��� L6� ��$��N%& �+�_P%m0
��+(8�& E-6N- ?�< ?�&�1
� � s � � �i*C �
�
s/{q±�/�{ s/s±s/� q q _/��±�/�� q Navicula �/{__±�/�q� �/���±�/�� {/s�s±�/�s� s/�{{±�/�_� �/�_�±�/�� �q�±s/ss Cocconeis �/s�±�/�� q q q q q Amphora
q q �/��±�/�� q q q Encyonema �{�±�/��_ �/�{�±�/�s s{s±q s/{��±_/{� �/��q±�_ �/���±�/�� Cyclotella
�/���±�/��_ �/�_s±�/�� �/���±s/�� _/��{±_/{� �/���±{/�� �/_�±�/�_ Surirella �/���s±s/�s� _/���±�/�q� {/��_�±�/��s {/���_±�/��� �qs�±_/��� �/sqs±�q� L�+-��2
\6���
�<
_/���±_/�� �/��±�/�s s/��_±�s {/��_±_/�q� s/���±�/�q{ �/�q±q Scenedesmus
q q �/�±�/�� q q �/�±s/_ Pediastrum �/����±�/ss� �/�_s±_/_� �/���q±s/��� s/�_q�±�/{_� �/�qqq±�/��� �/���{±s� Chlorella �/�_�±�/�� �/�_�±�/�� �/��±�/�� ��_±�/�s �/�s±�/__ W/��±X/�M Tetraedron �/�_±�/�{ q q �/��±�/s_ q V Mougeotia _/���±_/�� �/{s±�/�� �/�s_±�/�� {/�{s±��� �/���±�_ {/�q�±�/�q� Oocystis
�/����±�/��� �/{_�±�/��s �/�_{�±_/�{{ �/�{{{±�/
���� _/��_�±�/�_� ��sq±s/�{q L�+-��2
E8����BF
q q q q q {/��±_/�� Cosmarium
q q q q q {/��±_/�� L�+-��2 �<3�N=
s/{q±q q q q q q Ceratium
s/{q±q q q q q q L�+-��2 E8��6-��=
EGG1 �GG#-H ���GG� n�_q���_�!�{��{����_��s� 56BGG=
2�B':�61 �()5�3C�(.
F�� "�(81�� ;]� ��E-6� n&?-&�&�� �'��"6G(4-��6( �G<
&� ��81 O�2 �� � EF � & �&�Q n=�* 5�3C��3G EG�&�&
�=& .& ����+(8 �<?E-6N- �&�1?-&�&�� '�\6�� ���BF !�<�!E8
N=� !�<3��6*�= � E8��6-� G� E8(Cyanophyceae) EG1 ��� G� n
�_{����_�!s��_���_{ !�{����!��{�q�_��q56BGG=
'GGB�2 � 6GG1 �GG(�: .i*GGC \6��GG� nGG:�Z ?�GG< �GG<Cyclotella �
Surirella E1 �#-H '-&�&�� E*2& EF 61 nG�������q�{qq ��_��
��� 'GB�2 � 56B= E8G����BF >& !�G(�:Mougeotia!Chlorella �
Scenedesmus E1����-&�&�� E*2& n'�q�{���!��q���q��
��{�����2 � 56B= �GB':�NG= >& !�G(��<3Closterium �G1
-&�&��'�s_�q2 � 56B= �B':��( >& !��6*�E8Prorocentrum
GG-&�&�� �GG1'��s�q2 � 56BGG= �GGB':�= >& � �GG(��6-� GG� E8
Chroococcus -&�&�� E*2& �1 '_��q2 � 56BG= �GB':�6G1 �G(
)5�3C�.(
�(-�F�� ��-&�&�� � n'��"6G(4-��6( �G� ;]G� � �G<��� [
5�3Cs�h2 � EGF �=& �3 E�&�& G�E8�G1 �G� "�(8G1�� ;]G�
![Page 7: ˆ˙ ˝ ˜ ˛ ’˚2 450 3 6˛ ˜78-2 $ ˜ -’, · PDF file˜8g1 ˛3g2 >& ˛& g˜˜j lp: e1’‘˜p2 8> ˛˚4,2 ... n gg . gg ˝ \ggk-& ( ˙ ! q) ’gg=* ?](https://reader034.fdocuments.net/reader034/viewer/2022042619/5a75fce87f8b9a9c548cf395/html5/thumbnails/7.jpg)
����� %&$! "��# � ����� �(�%)�*��%'� (�$� ���, -� ./�$�� ��+
{�
��-K�.�# '.��` R��0 �'N��'C)±�i] ���-��%�� �(����� )0 �� ��P�'P �'%(�'(�%)�*��% �+���$��, ./�
� �� (�%&�# L6� ��$��N%& �+�_P%m0
��+(8�& E-6N- ?�< ?�&�1
� � s � � �i*C �
�
�/��_±�/�� �/{�±�/s_ �/���±�q �/�{±q s/_s±�/s� {/�_±�/�q Navicula _/���±_/�� s/��±�/�� �/{{±_/�{ q/_�±�/�� �/���±�/�q� �/{s±s/s� Cocconeis �/��±�/s� �/��±�/�� q �/�{±q �/_s±{/�q �/{s±s/s� Amphora _/���±�/�s s/��±�/�� s/��±�/�_ q q q Coscinodiscus �/���±_/�� �/{�±�_ s/���±�q �/s�±�/�� {/�_�±�/_� �/���±�/�� Nitzschia
q q s/��±�/�_ �/�±�/�� q �/��±�/�� Fragilaria �/�s±s/�{ �/��±�/�� _/�q±�/�_ �/�_±�/�� �/�q±q q Encyonema s/_�±�/�q �/��±q {/��±�/�_ �/�{±q �/�q±q {/�s±�/�� Gomphonema
q q _/�q±�/�_ q q q Asterionella _/���q±_{� �/{qq±�/{q �/���±�/_� s/���±�/��_ q/���q±�/�s{ �/{q�±_/s�_ Cyclotella {/s�±�/�� �/��±�/�� q q �/�{±�/s� {/�s±�/�� Cymbella �/�s±s/�{ �/��±�/�� q �/�±�/�� �/���±�/s� �{±q Synedra {/�{q±�/��� s/�{{±�{� �/�_�±s/��� �/��_±�/{� �/���±�/�q� �/��q±�/��� Surirella �/��_{±_/��_� �/��_�±�/s�� _/��q�±�/�_� q/��{�±�/��� �/�_{�±{/�_� �/�s_�±�/_�� L�+-��2
�\6��
�<
�/�s�±�/��_ {/�{�±{/�s �/���±�q �/��_±�/�� �/�{�±�/s� �/�s�±�/�s Scenedesmus �/�_±s/�{ �/��±�/�� q q �/�q±q �/��±�/�� Pediastrum �/�q��±s/�q� s/��q�±�q�s {/�__�±_/�_� �/�{s�±�/�s� �/��q�±�/�q� {/����±�/���� Chlorella
q q s/��±�/�_ q q V Coelastrum
s/_�±�/�� s/��±s/�� q �/�±�/�� �/�q±q {/�s±�/�� Tetraedron {/_��±�/{� ��{±�/��� �_�±�/�q� �/��±�/{_ _/sqs±q/�� _/�q��±�/��� Mougeotia �/�_±s/�{ s/��±�/�� �/s�±{/�� �/�_±�/�� �/�q±q �/{s±�/�� Oocystis
s/���q±s/_sq �/�_�{±�/��{� �/�{��±�/s�� �/��_�±�/�_� �/���{±�/�q� �/s��{±�/��q� L�+-��2 E8����BF
q �/��±�/�� q q �/�q±q �/��±�/�� Desmidium �/�s±s/�{ q s/��±�/�_ �/�_±�/�� q �/��±�/�� Cosmarium
q q _/��_±�{q �/{�±�/_� q �/�s_±s/�_� Closterium �/�s±s/�{ �/��±�/�� �/��s±�/�__ �/��±�/�qq �/�q±q _/�{�±�/��� L�+-��2
�<3�N=
{/s�±q s/��±�/�� q �/�±�/�� q q Ceratium _/���±{� q q q q �/��±�/�� Prorocentrum �/���±{� s/��±�/�� q �/�±�/�� q �/��±�/�� L�+-��2 E8
��6*�
q �/��±�/�� q q q q Agmenellum
q �/��±�/�� q �/�±�/�� q q Aphanizomenon
q s/��±�/�� _/�q±�/�_ �/�±�/�� q {/�s±�/�� Anabaena
s/_�±�/{� �/��±�/�� q q q �{±q Chroococcus
q q q q q �/��±�/�� Tolypothrix
s/_�±�/{� ��±{/�s _/�q±�/�_ �/�_±�/�� q �/{s±�/�q L�+-��2
E8��6-��=
![Page 8: ˆ˙ ˝ ˜ ˛ ’˚2 450 3 6˛ ˜78-2 $ ˜ -’, · PDF file˜8g1 ˛3g2 >& ˛& g˜˜j lp: e1’‘˜p2 8> ˛˚4,2 ... n gg . gg ˝ \ggk-& ( ˙ ! q) ’gg=* ?](https://reader034.fdocuments.net/reader034/viewer/2022042619/5a75fce87f8b9a9c548cf395/html5/thumbnails/8.jpg)
������� ����� /������/����� ��� /�������
{�
��-KU.�# '.��` R��0 �'N��'C)±�i] ���-��%�� �(����� )0 �� ��P�'P �'%(�'(�%)�*��% �+���$, ./� ��
�� L6� ��$'� �� Z$��N%& �+�_P%m0
��+(8�& E-6N- ?�< ?�&�1
� � s � � �i*C �
�
�/{�±�/�s �/��±_/s� �/{{±�/�_ q {/��±{/�q �/��±�/�� Navicula �/�_±�/�s q q �/�_±�/�� q q Cocconeis �/�s±s/�{ q �/s�±{/�� q {/��±�/s� q Amphora �/�s±s/�{ q q �/�±�/�� {/��±�/s� q Coscinodiscus {/s�±�/�q s/��±�/�� �/��±q q q �/��±�/�� Nitzschia
q q _/�q±�/�_ q q q Fragilaria q �/{�±�_ {/��±_/�{ �/�qq±�/�� q q Encyonema q q q �/�_±�/�� �/��±{/�q q Gomphonema q q q q �/��±{/�q q Asterionella
�/���±{� �/{��±�/��_ _/{�s±�/�q� s/���±_/�� s/���±��� {/s��±�/�q Cyclotella q s/��±s/�� _/�q±_/�{ q �/��±{/�q q Cymbella
_/���±�/s� s/���±s/�_ �/�qq±�/_� �/��{±�/�{ �/��_±�/�ss �/���±�/��� Surirella
{/_��±_/��� �/��q�±��� �/���s±{/sq� �/_��±_/��{ �/����±�/s�_ �/���±�/��� L�+-��2
\6���
�<
_/���±�/s� �/��_±�q� �/�q{±�/�_ �/��±�/�� {/��_±{/�s �/�s_±s/�s Scenedesmus q �/��±�/�� s/��±�/�_ q q q Pediastrum
�/��s�±�/���s �/s�qq±��q �/��{�±�/��� {/�_��±�/�{ ���q±{/��s� �/���q±�/�{� Chlorella q q q �/�±�/�� q V Coelastrum
�/�_±s/�{ q �/{{±�/�_ q {/��±{/�q {/�_±�/��q Tetraedron {/��_±{/��� _/��q±�/{q s/�q_±_/��� �/��{±{/s_ �/��q±{/�s {/��q±s/�_� Mougeotia {/�{q±{/��� s/��±�/�� s/��±�/�_ q {/��±{/�q �{±�/�� Oocystis
�/���_±_/��_� s�_q±�/��� �/�q�{±{/��� �/��s�±�/��_ �/����±�/�{qq �/����±{�q L�+-��2 E8����BF
q q q �/�±�/�� q q Cosmarium �/�s±s/�{ q q q q q Staurastrum
�/�s±s/�{ q q �/�±�/�� q q L�+-��2 �<3�N=
q q q q {/��±�/s� q Ceratium q q q �/�±�/�� �/��±{/�q q Pyrodinium
q q q �/�±�/�� �/�q±�� q L�+-��2 E8��6*�
q q q �/�±�/�� q q Aphanizomenon
q q q �/�{±�/�� q q Chroococcus
q q q �/��±�/�q q q L�+-��2 E8��6-��=
![Page 9: ˆ˙ ˝ ˜ ˛ ’˚2 450 3 6˛ ˜78-2 $ ˜ -’, · PDF file˜8g1 ˛3g2 >& ˛& g˜˜j lp: e1’‘˜p2 8> ˛˚4,2 ... n gg . gg ˝ \ggk-& ( ˙ ! q) ’gg=* ?](https://reader034.fdocuments.net/reader034/viewer/2022042619/5a75fce87f8b9a9c548cf395/html5/thumbnails/9.jpg)
����� %&$! "��# � ����� �(�%)�*��%'� (�$� ���, -� ./�$�� ��+
{�
��-KS.�# '.��` R��0 �'N��'C)±�i] ���-��%�� �(����� )0 �� ��P�'P �'%(�'(�%)�*��% �+���$��, ./�
� �� (�%&0! L6� ��$��N%& +��_P%m0
&���+(8 �<?E-6N- �&�1?
� � s � � �i*C �
�
q ��±�/�q q �/���±�/��� q q Cocconeis q �/�{±q q q q s/��±s/{s Amphora q q q q �/�s±�/�� q Nitzschia q ��±�/�q q q q q Gomphonema q q q q �/�s±�/�� q Cyclotella q �/��±�/�� q q q q Cymbella q �qq±�/{� q �/���±�/��� �/s_±�� s/��±s/{s 2�+-��L
�\6��
�<
�/�q±�� q q q q q Scenedesmus �/��s±�� �/_{±�/�� ��q±�/�� {/�_q±�/�s �/�ss±q �/��q±�/��{ Chlorella
q s/s��±�/{q �/�±_ q �/���±_/��s �/��±{/��s Tetraedron �/sqs±��s �/s��±s/_� �/���±�/�s {/�_q±�/�s _/sq�±_/��s �/��s±�/�_� 2�+-��L
���BF
�E8
q �/��±�/�� q q q q Ceratium
q �/��±�/�� q q q q 2�+-��L
��6*
�E8
q q �/s�±_ q q q Anabaena q q �/_�±�/�� q q q Tolypothrix q q �/���±�/�s q q q 2�+-��L
=��6-�
�E8
�3J?�=& �3 ���3P2 .E*2& -&�&�� '�\6�� ���BF !�<�!E8
NGG=� !�<3��6*GG�= � E8��6-�GG�EGG1 E8���GG� n��������!
s�_q����� !�s�q!���q� !�{�q2 � 56BGG= �GGB':�� �GG(
&���+(8 �<?1 RB(S2 E3G2H �= .��"6G(4-��6( �G<?>& nG:�Z
�����;2� \6��Cyclotella �Surirella E1����G-&�&�� �1 n'
����s�{��������2 � 56B= �GB':����BF !�G( G� ;2�G E8
Mougeotia �Chlorella EGG1 ���GG� n������_ �s�q������
2 � 56B=�B':� >& !�(��6*�i*C E8Ceratium -&�&�� '�s�q
2 � 56B=�B':�= >& � �(��6-� G� i*GC E8Chroococcus EG*2&
GG-&�&��'�{�q2 � 56BGG= �GGB':�& � �GG(GG���+(8 �GG<?RGGB(S2
E-6N- �&�1?� & &� .
GG-&�&�� "�(8GG2> �'GG�\6�� ���BF !�GG<GG� !E8��6*GG� � E8
=��6-�GG�EGG1 E8���GG� n��s�s_!��s����!���q!���q�
����q2� 56B= �B':�G1 �G(E3G2H �G= .G�\6�� �G<?i*GC
Cocconeis �Amphora E1����G-&�&�� �G1 n'��s�q����q
2 � 56B=�B':����BF !�( G� �G E8;2Chlorella �Tetraedron
E1 ����n����__�s���q2 � 56BG= �GB':� >& !�G(��6* G� E8
i*GGCCeratiumGG-&�&�� '���q2 � 56BGG= �GGB':�>& � !�GG(
=��6-��i*C E8Tolypothrix -&�&�� E*2& �1 '_��q� 56BG=
2�B':�& � �(���+(8 �G<?EG-6N- RGB(S2 �&�G1?3G-61 nG:�Z
)5�3C�(.
]��\�+�"��#
cM�GG �GG<?� p6GG*� �"6GG(4-��6( � RGGB(S2 56]GG� � �GG<
![Page 10: ˆ˙ ˝ ˜ ˛ ’˚2 450 3 6˛ ˜78-2 $ ˜ -’, · PDF file˜8g1 ˛3g2 >& ˛& g˜˜j lp: e1’‘˜p2 8> ˛˚4,2 ... n gg . gg ˝ \ggk-& ( ˙ ! q) ’gg=* ?](https://reader034.fdocuments.net/reader034/viewer/2022042619/5a75fce87f8b9a9c548cf395/html5/thumbnails/10.jpg)
������� ����� /������/����� ��� /�������
{s
&���+(8 �<?E-6N- �&�1?� �3 �� �*J EK� ;4 ��3 E�&�&
�=& .�(-�cM� ��#1 ;]� � EF & "�,- ��<?=�� "68�N
"6-�GG ���EGG1 �GG* ���GG� EGG*2& n{�/q�sq/q���/�–��/�
1E1 EF 32H �=��(,�& � L���+(8��(NF ��& � "H LG���+(8
�61 ."H E*2& ��#1 � R:����2 cM� ��/����/qEGF 6G1
1��(,��(NF � L�E1 "H L����& � n���+(8���61 .;]G� �
cM� "�(81�� �<?=�"6-� � "68�N���EG1 �G* ��� G� EG*2& n
{{/q���/q�{�/�–�{/�GG1 E1 EGGF 3GG2H �GG=GG��(,�� L
&GG� ��+(8��GG(NF ��L& � "H GG� ��+(8�)= U�GG=&�1�"68GG�N (
&����+(8�)"6-� U�=&�1����*(6G1 .� R:�G���2 cM�G
&�"H E*2& ;]� L_q/����/�1 EGF 61 G��(,��G(NF � L�"H L
E1 ����& � n���+(8��s6G1 .�G� ;]G� ���cM�G [�G<?
=�"6-�GG � "68GG�N���EGG1 �GG* ���GG� EGG*2& n{�/q��q/q�
��/�–��/�1E1 EF 32H �=��(,��G(NF � L�EG1 "H L��� G� n
& �GG� ��+(8s��6GG1 .- R:�GG���2 cM�GG GG� "H EGG*2& [
_�/����/q1 EF 61 ��(,��(NF � L�E1 "H L����& � nG���+(8
s��61 ."�(82> ;]� � cM� �<?=�"6-�G � "68G�N�
��E1 �* ����E*2& n��/q���/q�s�/�–�{/q1E3G2H �G=
EF 1G��(,�& � LG���+(8s)= U�G=&�1�"68G�N (& �G���+(8�
)"6-� U�=&�1����*(�(NF ��& � LG���+(8�6G1 .cM�G
R:����2 -�"H E*2& [�{/q��q/q1 EF 61 ��(,��(NF � L�"H L
E1 ����& � n���+(8���61 .
t5
� IH�56]� \�N� � �*J EK�E-6N- �&�G1?'-|�8GF& O�&�G
I6B`2){�/��s�/{2�B': � \����((& "�,- &� EFe�&[G�&
'*)2 �&"H���3NY "�(82> � �G=& W6G1�2 IH L���� ?�2 E1.
'G2 &� 56GBP2 "|�8GF& � IH ?�2 � ���$� "&[G�2 EG1 "&6G�
�&���j� � IH ?���m`= ��G�)NC !EGK��� '1H VkJ �
"6(4-��6(�� E�[k� "&[�2 � �< � '����(F�1 ?�<�EK� & �.8G- .
L�+-�GG�2 ',GG4= EP$GG% �GG��� oGGNY EGG*2& �/����/��_
'(-�= &� "�(8G2> � IH ����$G � �6- ^6$- e<�F EF 61 �(2
'2 � 6GC62 U6(��� �&�^ � IH "3 '(B�= "&[�2 E1 "&6�
& �.8- IH)�(.���8G1 ?�G<�6(F�� �6G- � IH ?�2 L�&�1�*1
3�:6� "&[�2 �1 &��> 3*(8< 'N#2 � E�:�& �-6(4-��6('"|�8GF& �
� � 56BP2�EK� � �<f'2 ��g �&�G�)����.(pH � IH�EGK�
>& ��X�1 56]� \�N� � �*J{G2 &� "H �BY EF �61 'EG1 "&6G�
u�M &�& '���BQ ?�<?'1 � ��*1�F ��G*1�F �G� � V�8GBF ?�G<
& �.8G- [G��1H Ev6J>& �3 o(,2 'F�M '���BQ �&[B� ���=
)�(EG�:�& 3�:6� � 6M EF��-6G(4-��6('eGh- "H '1�G�>�& �
�& 'GGN#2)�{.(� � �$8GG� �GGbBZ �56]GG� � �GG*J EGGK�
E*2& RB(S2 >& ?&q�/q�� "�(82> � �/�'B�2 � �G(�: � \��
� & "�(81�� EFU�=&�1 Eh./ 3*1?�&��"&��G4N< �){(LG�&
��8� "&[�2 &��> �& }���6� ��)v� EK� IH � �$��EGK�
�*J >& ��X�G1 56]G� EG�BF � _'G2 �G(�: � \�G���4�2 3G �1
)5�3C�(.IH ��6G)� "6G1 '-X6/ � IH "3 �k1�C \3Y
� ��EK� �G<)�s(G� IH '���N�G 64�[�� ���%6]GM �G1f��g
'2 �&�� .IH � 56BP2�$8� "&[�2 G1 ')�./ ?�<E'B]G� �6G/
>& "H "&[�2 � �=& ���j(2����q'G2 �G(�: � \����4�2 3G �1
)��.("68.�� �$8� "&[�2 Er-�*K E:3()2 o/�*2 � EF �F "��1
>& �GG(NF EGG1_q�GG� ��q3GG�:6� 3GG=�1 �GG(�: � \�GG���4�2
"6(4-��6(�� '2 e<�F �< 31��)�q.(EG1 E(8G1 !�G+� ?6G= >&
��)Q62 � '4�T6:6F& ?�<�"6G(4-��6( EG*�#1 �.8G- �G< �$8G� :
-�"T��GGG()N:P ( �GGG=& ���GGG$(2 ���8GGG1)�����.(nGGG:�Z
��"6(4-��6( � � �<����3GNY RGB(S2 56]G� � �G*J EGK� >&
�\6�� ���BF � �<�E8EK��& 61 =��6-� G� 'G-&�&�� � E8 8G1���
� & 6C� L���� .�.8-N:P \6��G�>& ?���8G1 � �G<�q:�!
���BFGG� E8�:�q!��6*GG�E8��:��=��6-�GG�L�GG1 E8�:s��GG�
�:���'23 �1)�_!�����.(
'BY ���$� VZ� 1 !�<E\6��� 'BF �6/ !�<3�NG= !E8G����BF !�G<
EK��� � E8��6-��= � E8��6*� �*J 3= 6GC� �& .\6��G� >& �G<
V#2 "6(4-��6(�� L��� O�P2 ?�< EGK��� ?�G< ?&EG:3()2 o/�G*2 �
3*(8< �3NY eS1 EF � &� E�:�& 3�:6� >& ?& HI2 n.= �<'3-6G
)_��q.(� �� �GGGGG*J EGGGGGK�GGGGG�\6�� ;]GGGGG� � �GGGGG<
![Page 11: ˆ˙ ˝ ˜ ˛ ’˚2 450 3 6˛ ˜78-2 $ ˜ -’, · PDF file˜8g1 ˛3g2 >& ˛& g˜˜j lp: e1’‘˜p2 8> ˛˚4,2 ... n gg . gg ˝ \ggk-& ( ˙ ! q) ’gg=* ?](https://reader034.fdocuments.net/reader034/viewer/2022042619/5a75fce87f8b9a9c548cf395/html5/thumbnails/11.jpg)
����� %&$! "��# � ����� �(�%)�*��%'� (�$� ���, -� ./�$�� ��+
{�
L)��.\]�� �+�� "��# '(���� �(�&^�T�$� _��`��0 � ��'(�%)�*��%�+�� �� �Q�, -Q� ./�$�� Q$��N%&�Q+�
.���� ��� _P%m0 ��6� � �.0'N��'C�+����� �L8�-, $� + �� .�b0 I, e$��Q0> Qp� !� ��N%&�(�Q0!> �Q
�:0 I*%]� <+� C)��� ����-� -���)P>0.05.(
0.0
0.2
0.4
0.6
0.8
1.0
1 2 3 4 5 6
��ر ���ن�� ����� ز����ن
.���� ��N%&$� ����
�'�\]��
(�&^
a
b
c
aa
b
c
c
aa
b b
ab
aa
b
c
b
a
aa
a
.���� ��N%&$� ����
0.0
0.5
1.0
1.5
2.0
2.5
3.0
1 2 3 4 5 6
��ر ���ن�� ����� ز����ن
(����\]��
T�$�
a
b
a aa
a
a
b bb
b
a
bc
a
b
c
a
cd
d
c
a
b
0.0
0.5
1.0
1.5
2.0
2.5
3.0
1 2 3 4 5 6
��ر ���ن�� ����� aز����ن
.���� ��N%&$� ����
b
c
b
a
c
a
b
d
c
ba
a
d
b
cb
a
b
a
b
c
b
c
_��`��0\]��
![Page 12: ˆ˙ ˝ ˜ ˛ ’˚2 450 3 6˛ ˜78-2 $ ˜ -’, · PDF file˜8g1 ˛3g2 >& ˛& g˜˜j lp: e1’‘˜p2 8> ˛˚4,2 ... n gg . gg ˝ \ggk-& ( ˙ ! q) ’gg=* ?](https://reader034.fdocuments.net/reader034/viewer/2022042619/5a75fce87f8b9a9c548cf395/html5/thumbnails/12.jpg)
������� ����� /������/����� ��� /�������
{�
��G� � "�(81���&�G [�.G=�*2 O'F�� l�GP: EG1 G�G-&�&�� � n'
E-6� &?�h2 � �3*( & "�(82> � ��#1 �1 E8.2 &� �BY 'EG1 "&6�
&� �� O�[� 64�N��'�1 IH n=�*2 E�.8G- l�GP: E1 a6]M
$8� - E1 ��& �.8- "T��( .6= >&?� 6GC� !�+ G�\6�� �G<?
$2�& � 3�L��EK� %6]M �1 �:X �F n=�*2 ���$'� IH
"�(81�� ;]��&.
� ��EGK� �G*J 3GG= GG�\6�� i*GGC �>& �G<Cyclotella �
Surirella �*�(GG=& �GG1 56]GG� \�GGN� �?VGG#2 "�(8GG2> �GG��� L
"&�&�� ���3-61 L.2 &� �BY'&6� %6]GM EG1 "�F ���G$'!IH
1E�2 a6]M?&�G1 "�(8G2> � EGF & �.8- IH ?� 3G �
�4��81 ����?� >& �"6(4-��6( - n=�*2 �<�-&�&�� � �8'e<�F
EbJ�2 ;1�Q &?2'�3G1�)�q!����{.(6G= >&?�e<�GF !�G+
2�-&�&�� "&['�3J �� �?F�� �EG-6� n&?G�\6�� ��G#1 � �G<
2'�]2 ;%�J 3-&6� "6G(4-��6�> OG=6� "3 &�K � }� �G<
(J'<�2 ��X �� "��3 �1 �&6M "6(4-��6()��.(
��"6(4-��6( �<?���BF ���� � "�(81�� !��#1 � E8�F�� [G�n
E-6� &?�h� ���. ��82 ?� & .G2 &� �BY'F EG1 "&6G��$G�IH �
��&� � EK����G1�1 O?���BF G�& �.8G- E8)�q!�����.(
1EBF�6/'81���?>&A.BC �<?���BF �&�& E8?�:6B= ��&6'
[:6B=?81 �3J �� EF 3*(8< ���?B1�Q �"3 }�]2 � &�K �
�h2 � &� �#-H��= �1 E8�E-6� ��<? 3Q�� �[:6B= ��&6?.Q >& G�;
�E26�� 2 �3P2 �<'�N-�3)�q.(6= >&?�&[�& �+�-&�&�� e'
���BF�2 &� ��#1 � E8'- }�]2 E1 "&6� �4� � "3, G� :6� � �G�3
E-6� ;�2 �<?& >& �A.BC L81 EF �<�� �� G� 3*(8G< [)EGBNC >&
Chlorella ( & �.8- .N= E(= >&�V#2 !�<3 ���Li*GC &G�L
��EK� Cosmarium IH "3G �G= �G1 EGF �=& )�G2?�/�
(-�= EC�'"�(8G2> � &�� (� ��EGK� �3G� 3,G- )�q.(>&
������6*�E8E-6� �G<'�i*GC >& Ceratium 56G/ \�GN� �
� � 5�=�/ � �#-H e*F&�� EK��& �& 6C� EK�';]� �<
& E1 �3P2�%�M ��+(8'>&��EK� �� �3.2 "�N� �2'*F�EF V
*K >��1 ��&� L�`'!�2 "&[�2 ^6$- �bBZ !�6- &62 !?�Gj2
V@&�G� "��3G**@&�K )"6G(9-��6�> �G<(!OG1&�� '(8G�-6��(-H �G1
"�<��� !?[1H ���j� � IH �&6G<!?T6:��3G�< � IHoGNY IH
2�3 �1 �g)�{(.
1��(,�p6*� L>G�(8'��"6G(4-��6( �G< & � G�hP� LG�� o
& � "�(81�� � ��#1 56]����+(8�61 .X EBNC >&�;:�N(J& '
&[�&�2 p6*� e'�G2 "6G1 n=�*2 E1 "&6�?��X ��$(G=& !IH
<�2GG�4-��6�> >& "�"6GG( e<�GGF � �GG< .8GG-'&�GGK ��,GG� ?
-6GGG(4-��6�>'!�&62 ��� -3GGG)2'��GGGj2?>&���?IH
��� EK�;P2 &G���+(8 �G<?�& �.8G- )�!�!_!�q!��!
�� !�����.(& � GG���+(8 �oGGNY ��EGGK�u3GG-& !IH� \&�H
� V/�� "�31&�&?, 6� '>&��[1H "�<�?E/6Z ���*G � ��
2 IH �'3 �1 .�IH�<?��EK� &?�1>& �G(NF oNY �q�G(2
e<�GGF "3GG W6GGBS2 oGGNY GG-&�&�� e<�GGF nGGC62 IH'
��-6(4-��6('2'�� .6= >&?�N<& !�+ G� "6G(4-��6�> ��G<
F�� 5�GG(*F �GG�n!GG-&�&�� '�>?� �6GG� �-6GG(4-��6('�
��EK� �<?1H 01�*2 �'��2�F G2 cS,G2 '3G �1 >G�&�&�GK ?
"6GG(4-��6�> � >& �GG<�"6GG(4-��6( > e<�GGF �GGY�1 �GG<?�6GG�
��"6(4-��6( 2 �<'(J 6 '- � �$8� �bBZ ��& �56BP2 "T��(
3 �1 X�1 V<)�����.(&�1�*1�!L� p6*��"6(4-��6( � �< � ��G#1
� "�(81���h2���� �1 E8�"�(82> � [1G�6G1 �(, .6G= >&?��G+
2 "�N�'EF �� E=�2 n=�*2 �(81 6C� &?* �'�3GJ �� ?
&[�& nC62�= e�BG�8�� IH V�G= ��F�� �$2 ��G. G� �(8G1 >& 3
2'& � EF 6 ���+(8 �<?�G(NF "�G42& ��X�1 oNY �1 ?6GC�
�&)�q.(�h2�& E8���+(8 p6G*� l�P: E1 �< ��G� 56]G� ��� [
"�(82> EF & "�,- 1��(,�& � p6G*� LG���+(8s����EGK�
�=& .V#2 ���: L�;& � p6*� "61 VF �56]� L�h2 � ��G1 E8
56]���+2 &� '�3P2 E1 "&6���G2 �'�IH& � G�56]G� L
-6GGBF � 3GG � nGG=�*2 EGGF & �.8GG-'8GG1 � "3GG ���?>&
E-6� �<?��-6(4-��6('-��8)�q!����{.(�;]� "�(8G2>
���6@ "3 56/ >�� ����j� E��&> �6- 3� �6M � x�GY ?�G<
��G��&�jC'OG=6(2 �X�G1 'G2 3G-&6� ;G2&6Y>& �3G-�&>�1 3G �
D.BC �<�3�:6� c:�M �#-H !3 �1 1E?�6/ E@O�&� ?&�1 3G �
i*C ?�< nG:�Z 3Y�8G2�- �3G �V@&�G� �G#-H VG@ 'G2 6G �
![Page 13: ˆ˙ ˝ ˜ ˛ ’˚2 450 3 6˛ ˜78-2 $ ˜ -’, · PDF file˜8g1 ˛3g2 >& ˛& g˜˜j lp: e1’‘˜p2 8> ˛˚4,2 ... n gg . gg ˝ \ggk-& ( ˙ ! q) ’gg=* ?](https://reader034.fdocuments.net/reader034/viewer/2022042619/5a75fce87f8b9a9c548cf395/html5/thumbnails/13.jpg)
����� %&$! "��# � ����� �(�%)�*��%'� (�$� ���, -� ./�$�� ��+
{{
i*C ?�< I6Bj2 V< '2 3*-&6� �� �>&3-& ?&6M &� "�,G- 3G*<.
E1 'B@�6/ EN< ?�<�6(@�� '���N� 69�[�� �(8�>'�G1 nG�@��
E-6� ?&�>?�6� "6(9-��6(�� �<��gf� E( &�� ��&3h2 �p6G*�
�#-H &� ���j� '2 3<.
��ZN��^��
>&���NJ O�GP2 �G��$J ;GF ��&& ':�G2 ?�< "�(G=& �8G�>
��/ n:�Q � "�#$%&��s�{�!G*� � ',G<�|� �-��)2�?��
� "�#$GG%& '()*GG% ��+,GG-& 'GG)�./ 01�GG*2 �39,G-&"X678GG2
� "& �&�Q ���(M& � ?&�1 "�(=& IH "�2>�=f�G*J 3G= ��8�=
��F ?&�C& L�J �'2 '-&�3Q � �9,� V��N-.
G��0 ���0 ���1%��
�.3GGNJ&?\ !.�.��66.GG=��1'��"6GG(4-��6( �GG<?��IH � "62�GG< EGGK� �GG<?GG �J �"H E../ 01�GG*2 EGGBk2 �GG)'&GG�"&�
�� :���6.
�.� !&�H A.= .�\.��42'2.���� ."6(4-�� '-&�&�� � e*F&�� 5�= '/ ':[-& IX�� � �#-H eh- � �< ?�G<���6�G� ����.EGBk2
"&��& ��� 'NBY��)�:(������.
�.2�Z'p !.!�.�#(C& ?�}.�&> V=�Q .��_s .=��1'E-6� p6*� &?T6:6F& ��� A�"6(4-��6( �<?��"�G+-[1 EK� .GNBY EGBk2'
�& ���"&��:���s�.
s.J��'\ !.��{_.-6(4-�� ��&[� '< �T��� �T6:��3?< �G�1��3�T6:6?G:[-& IX�G� '.hP� [GF�2 �G ��Gh���'G� "�(G=& �!"�
���a.
�." !'-���6% '16.P2 .��__.\61 ��):�`2 ��&[� � �1 �*J p6*N2 ��4 '1X�� � '-�(8<6F o/�*2 '(M�* f�h��& "�42& 3�F�EGh`*2
g � �3 ���$J�82&� "6�8-&6*F � �. .��K �= �.
�.-�C3NP2'W !.�p.J��3?.����.�=�* '���"6(4-��6( �<?���?�#-H e*F&�� � �[M.hP� "�2>�= �G �>6G2H � ��Gh���
&�hP� [F�2 !"&��� ��h�!"���a.
7. Auer, M. T., M. S. Kieser and R. P. Canale.1986. Identification of criteria nutrient levels through field verification of models for phosphorus and phytoplankton growth. Canadian Journal of Fisheries and Aquatic Science 43: 379-388.
8. Barsanti, L. and P. Gualtieri. 2006. Algae: Anatomy, Biochemistry and Biotechnology. CRC Press, Taylor and Francis Group, 320 pp.
9. Batelle Columbus Laboratories. 1971. Water quality criteria data books. Volume 3. Effects of Chemicals on Aquatic Life – Selected. Data from the Literature Through 1968, for the U.S. Environmental Protection Agency, Project No. 18050, Battelle, Columbus, OH, 530 pp.
10. Bellinger, E.G. and D. C. Sigee. 2010. Freshwater Algae: Identification and Use as Bioindicators. John Wiley & Sons Ltd., 271 pp.
11. Benndorf, J., D. Uhlmann and K. Putz. 1981. Strategies for water quality management in reservoirs in the German Democratic Republic. WHO Water Quality Bulletin 6: 68-73.
12. Boyd, C. E. 1979. Water Quality in Warmwater Fish Ponds. Auburn University, Craftmaster Printers, Opelika, Alabama, 359 pp.
13. Chaghtai, F. and S. M. Salfullai. 1988. An Illustrated Account of Species Ceratium, University of Karachi, Pakistan, 50 pp.
14. Clesceri, I., A. E. Green berg and M. A. Franson. 1998. Standard Methods for the Examination Water and Wastewater, American Public Health Association, Maryland, USA, 1368 pp.
![Page 14: ˆ˙ ˝ ˜ ˛ ’˚2 450 3 6˛ ˜78-2 $ ˜ -’, · PDF file˜8g1 ˛3g2 >& ˛& g˜˜j lp: e1’‘˜p2 8> ˛˚4,2 ... n gg . gg ˝ \ggk-& ( ˙ ! q) ’gg=* ?](https://reader034.fdocuments.net/reader034/viewer/2022042619/5a75fce87f8b9a9c548cf395/html5/thumbnails/14.jpg)
������� ����� /������/����� ��� /�������
{_
15. Cox, J. E. 1996. Identification of Freshwater of Diatom from Live Material. Chapman and Hall, London. 16. Davis, C. C. 1955. The marine and Fresh-Water Plankton. Michigan State University Press, 562 pp. 17. Day, J. W., C. A. S. Hall, W. M. Kemp and A. Yanez-Arancibia. 1989. Estuarine Ecology. A. Wiley-Interscience
Publication, John Wiley and Sons Ltd., New York, 558 pp. 18. Demirbas, A. and M. F. Demirbas. 2010. Algae Energy: Algae as a New Source of Biodiesel. Springer Pub., 199 pp. 19. Demirbas, A. 2006. Biogas potential of manure and straw mixtures. Energy Source A 28:71–78. 20. Gibson, C. E. 1997. The dynamics of phosphorus in freshwater and marine environments. PP. 119-135, In: Tunney,
H., O. T. Carton, P. C. Brookes, A. E. Johnston (Ed.), Phosphorus Loss from Soil to Water. Cab Intl., Harpenden UK., 467 pp.
21. Krebs, C. J. 2001. Programs for Ecological Methodology. 2nd ed., Benjamin Cummings, 624 pp. 22. Lee, R. E.(ed.). 1989. Phycology. 2nd ed., Cambridge University Press, 645 pp. 23. Margalef, R. 1958. Temporal succession and spatial heterogeneity in phytoplankton. In: Buzzati-Traverso, A. (Ed.),
Perspectives in Marine Biology. Berkeley, CA, University of California Press. 24. Marsden, M. W. 1989. Lake restoration by reducing external phosphorus loading: the influence of sediment
phosphorus release. Freshwater Biology 21: 139-162. 25. Odum, E. P. 1971. Fundamentals of Ecology. 3rd ed., W. P. Saunders Co., Philadelphia, London, Toronto, 574 pp. 26. Omori, M. and T. Ikeda. 1984. Methods in Zooplankton Ecology. John Wiley & Sons, New York, 332 pp. 27. Onyema, I. C. 2008. Checklist of phytoplankton species of the Iyagbe Lagoon, Lagos. J. Fisheries and Aquatic Sci.
3: 167-175. 28. Prairie, Y. T., C. M. Duarte and J. Kalff. 1989. Unifying nutrient chlorophyll relationship in lakes. Canadian
Journal of Fisheries and Aquatic Science 46:1176-1182. 29. Redfield, A. C. 1934. On the proportions of organic derivatives in sea water and their relationship to the
composition of plankton. PP. 176-192. In: James Johnston Memorial Volume, Liverpool University Press, Liverpool.
30. SPSS, 2002. Statistical Package of Social Science. Ver, 11.5. SPSS, Chicago, IL, USA. 31. Uhlmann, D. 1958. Biological self-purification in sewage ponds. Verhandlungen des Internationalen Verein
Limnologie 13: 617-623. 32. Uhlmann, D. and E. Albrecht. 1968. Biogeochemische Faktoren der Eutrophier-ung von Trinkwassen-Talsperren.
Limnologica (Berlin) 6: 225-245. 33. Zar, J. H. 1984. Bioststistical Analysis. 2nd ed., Prentice Hall Inc., Englewood Cliffs, New York, USA, 718 pp.