Chlorophyll as a measure of plant health: Agroecological aspects

As photosynthesis is the basic process during which light energy is absorbed and converted into organic matter, the importance of the plant pigment chlorophyll (a and b forms) as an intermediary in transformation of the absorbed solar energy and its activity in the process of photosynthesis and synt...
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Gespeichert in:

Autor*in:	Danijela Pavlović [verfasserIn] Bogdan Nikolić [verfasserIn] Sanja Đurović [verfasserIn] Hadi Waisi [verfasserIn] Ana Anđelković [verfasserIn] Dragana Marisavljević [verfasserIn]

Format:	E-Artikel
Sprache:	Englisch ; srp

Erschienen:	2014

Schlagwörter:	Chlorophylls; Photosynthesis; Plant health

Übergeordnetes Werk:	In: Pesticidi i Fitomedicina - Institute of Pesticides and Environmental Protection, 2017, 29(2014), 1, Seite 21-34
Übergeordnetes Werk:	volume:29 ; year:2014 ; number:1 ; pages:21-34

Links:	Link aufrufen Link aufrufen Link aufrufen Journal toc

DOI / URN:	10.2298/PIF1401021P

Katalog-ID:	DOAJ037622587

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authorswithroles_txt_mv	Danijela Pavlović @@aut@@ Bogdan Nikolić @@aut@@ Sanja Đurović @@aut@@ Hadi Waisi @@aut@@ Ana Anđelković @@aut@@ Dragana Marisavljević @@aut@@
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callnumber-first	S - Agriculture
author	Danijela Pavlović
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topic_title	SB1-1110 Chlorophyll as a measure of plant health: Agroecological aspects Chlorophylls; Photosynthesis; Plant health
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title	Chlorophyll as a measure of plant health: Agroecological aspects
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title_full	Chlorophyll as a measure of plant health: Agroecological aspects
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title_auth	Chlorophyll as a measure of plant health: Agroecological aspects
abstract	As photosynthesis is the basic process during which light energy is absorbed and converted into organic matter, the importance of the plant pigment chlorophyll (a and b forms) as an intermediary in transformation of the absorbed solar energy and its activity in the process of photosynthesis and synthesis of organic substances in plants are crucial. Therefore, this paper provides an overview of methods for monitoring the optical activity of chlorophyll molecules and methods (non-destructive and destructive) for quantification of chlorophyll in plants. These methods are used to estimate the effects of different stress factors (abiotic, biotic and xenobiotic) on the efficiency of photosynthesis and bioproductivity, aiming to assess the impact that these limiting factors have on the yield of various cultivars. Also, those methods for analysis of chlorophyll optical activity and/or content are appropriate for assessing the reaction of weed species to different agricultural practices (mineral nutrition, treatment by herbicides, etc.) and studies of different aspects of weed ecophysiology and their influence on crop harvest.
abstractGer	As photosynthesis is the basic process during which light energy is absorbed and converted into organic matter, the importance of the plant pigment chlorophyll (a and b forms) as an intermediary in transformation of the absorbed solar energy and its activity in the process of photosynthesis and synthesis of organic substances in plants are crucial. Therefore, this paper provides an overview of methods for monitoring the optical activity of chlorophyll molecules and methods (non-destructive and destructive) for quantification of chlorophyll in plants. These methods are used to estimate the effects of different stress factors (abiotic, biotic and xenobiotic) on the efficiency of photosynthesis and bioproductivity, aiming to assess the impact that these limiting factors have on the yield of various cultivars. Also, those methods for analysis of chlorophyll optical activity and/or content are appropriate for assessing the reaction of weed species to different agricultural practices (mineral nutrition, treatment by herbicides, etc.) and studies of different aspects of weed ecophysiology and their influence on crop harvest.
abstract_unstemmed	As photosynthesis is the basic process during which light energy is absorbed and converted into organic matter, the importance of the plant pigment chlorophyll (a and b forms) as an intermediary in transformation of the absorbed solar energy and its activity in the process of photosynthesis and synthesis of organic substances in plants are crucial. Therefore, this paper provides an overview of methods for monitoring the optical activity of chlorophyll molecules and methods (non-destructive and destructive) for quantification of chlorophyll in plants. These methods are used to estimate the effects of different stress factors (abiotic, biotic and xenobiotic) on the efficiency of photosynthesis and bioproductivity, aiming to assess the impact that these limiting factors have on the yield of various cultivars. Also, those methods for analysis of chlorophyll optical activity and/or content are appropriate for assessing the reaction of weed species to different agricultural practices (mineral nutrition, treatment by herbicides, etc.) and studies of different aspects of weed ecophysiology and their influence on crop harvest.
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title_short	Chlorophyll as a measure of plant health: Agroecological aspects
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