Cotton responses to ultraviolet-B radiation: experimentation and algorithm development
The potential impact of an increase in solar ultraviolet-B (UV-B) radiation due to human activity on higher plants has been the subject of many studies. Little work has been carried out so far on cotton responses to enhanced UV-B radiation. The objective of this study was to determine whether or not...
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| Published in | Agricultural and forest meteorology Vol. 120; no. 1; pp. 249 - 265 |
|---|---|
| Main Authors | , , , , |
| Format | Journal Article Conference Proceeding |
| Language | English |
| Published |
Amsterdam
Elsevier B.V
24.12.2003
Oxford Elsevier New York, NY |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0168-1923 1873-2240 |
| DOI | 10.1016/j.agrformet.2003.08.029 |
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| Abstract | The potential impact of an increase in solar ultraviolet-B (UV-B) radiation due to human activity on higher plants has been the subject of many studies. Little work has been carried out so far on cotton responses to enhanced UV-B radiation. The objective of this study was to determine whether or not the current and projected increases in UV-B levels affect cotton growth and development, and to quantify and develop UV-B radiation functional algorithms that can be used in simulation models. Two experiments were conducted during the summer of 2001 using sunlit plant growth chambers in a wide range of UV-B radiations under optimal growing conditions. Leaves exposed to UV-B radiation developed chlorotic and necrotic patches depending on the intensity and length of exposure. Along with changes in visible morphology, cotton canopy photosynthesis declined with increased UV-B radiation. The decline in canopy photosynthesis was partly due to loss of photosynthetic pigments and UV-B-induced decay of leaf-level photosynthetic efficiency (maximum photosynthesis) and capacity (quantum yield) as the leaves aged. The total leaf area was less due to smaller leaves and fewer leaves per plant. Less plant height was closely related to a shorter average internode length rather than a fewer mainstem nodes. The UV-B did not affect cotton major developmental events such as time taken to square, time to flower, and leaf addition rates on the mainstem. Lower biomass was closely related to both smaller leaf area and lower photosynthesis. The critical limit, defined as 90% of optimum or the control, for stem elongation was lower (8.7
kJ
m
−2 per day UV-B) than the critical limit for leaf expansion (11.2
kJ
m
−2 per day UV-B), indicating that stem elongation was more sensitive to UV-B than leaf expansion. The critical limits for canopy photosynthesis and total dry weight were 7 and 7.3
kJ
m
−2 per day, respectively. The identified UV-B-specific indices for stem and leaf growth and photosynthesis parameters may be incorporated into cotton simulation models such as GOSSYM to predict yields under present and future climatic conditions. |
|---|---|
| AbstractList | The potential impact of an increase in solar ultraviolet-B (UV-B) radiation due to human activity on higher plants has been the subject of many studies. Little work has been carried out so far on cotton responses to enhanced UV-B radiation. The objective of this study was to determine whether or not the current and projected increases in UV-B levels affect cotton growth and development, and to quantify and develop UV-B radiation functional algorithms that can be used in simulation models. Two experiments were conducted during the summer of 2001 using sunlit plant growth chambers in a wide range of UV-B radiations under optimal growing conditions. Leaves exposed to UV-B radiation developed chlorotic and necrotic patches depending on the intensity and length of exposure. Along with changes in visible morphology, cotton canopy photosynthesis declined with increased UV-B radiation. The decline in canopy photosynthesis was partly due to loss of photosynthetic pigments and UV-B- induced decay of leaf-level photosynthetic efficiency (maximum photosynthesis) and capacity (quantum yield) as the leaves aged. The total leaf area was less due to smaller leaves and fewer leaves per plant. Less plant height was closely related to a shorter average internode length rather than a fewer mainstem nodes. The UV-B did not affect cotton major developmental events such as time taken to square, time to flower, and leaf addition rates on the mainstem. Lower biomass was closely related to both smaller leaf area and lower photosynthesis. The critical limit, defined as 90% of optimum or the control, for stem elongation was lower (8.7 kJ m super(-2) per day UV-B) than the critical limit for leaf expansion (11.2 kJ m super(-2) per day UV-B), indicating that stem elongation was more sensitive to UV-B than leaf expansion. The critical limits for canopy photosynthesis and total dry weight were 7 and 7.3 kJ m super(-2) per day, respectively. The identified UV-B-specific indices for stem and leaf growth and photosynthesis parameters may be incorporated into cotton simulation models such as GOSSYM to predict yields under present and future climatic conditions. The potential impact of an increase in solar ultraviolet-B (UV-B) radiation due to human activity on higher plants has been the subject of many studies. Little work has been carried out so far on cotton responses to enhanced UV-B radiation. The objective of this study was to determine whether or not the current and projected increases in UV-B levels affect cotton growth and development, and to quantify and develop UV-B radiation functional algorithms that can be used in simulation models. Two experiments were conducted during the summer of 2001 using sunlit plant growth chambers in a wide range of UV-B radiations under optimal growing conditions. Leaves exposed to UV-B radiation developed chlorotic and necrotic patches depending on the intensity and length of exposure. Along with changes in visible morphology, cotton canopy photosynthesis declined with increased UV-B radiation. The decline in canopy photosynthesis was partly due to loss of photosynthetic pigments and UV-B-induced decay of leaf-level photosynthetic efficiency (maximum photosynthesis) and capacity (quantum yield) as the leaves aged. The total leaf area was less due to smaller leaves and fewer leaves per plant. Less plant height was closely related to a shorter average internode length rather than a fewer mainstem nodes. The UV-B did not affect cotton major developmental events such as time taken to square, time to flower, and leaf addition rates on the mainstem. Lower biomass was closely related to both smaller leaf area and lower photosynthesis. The critical limit, defined as 90% of optimum or the control, for stem elongation was lower (8.7 kJ m−2 per day UV-B) than the critical limit for leaf expansion (11.2 kJ m-2 per day UV-B), indicating that stem elongation was more sensitive to UV-B than leaf expansion. The critical limits for canopy photosynthesis and total dry weight were 7 and 7.3 kJ m-2 per day, respectively. The identified UV-B-specific indices for stem and leaf growth and photosynthesis parameters may be incorporated into cotton simulation models such as GOSSYM to predict yields under present and future climatic conditions. The effects of enhanced UV-B radiation on cotton morphology, phenology, growth, and physiology were investigated at an experimental site in Mississippi, and the data were used to develop UV-B radiation-specific functional algorithms that can be used in cotton simulation models. A range of biologically effective UV-B radiations were used. Exposure caused leaves to develop chlorotic and necrotic patches, depending on the intensity of the UV-B radiation and the length of exposure, and canopy photosynthesis declined with increasing UV-B radiation. Total leaf area and lower plant height were recorded with increasing UV-B radiation, although no effects on time taken to square, time to flower, and leaf addition rates on the mainstem were noted. Ultraviolet-B radiation-specific growth and developmental indices were developed, and the corresponding regression parameters and coefficients are tabulated. The potential impact of an increase in solar ultraviolet-B (UV-B) radiation due to human activity on higher plants has been the subject of many studies. Little work has been carried out so far on cotton responses to enhanced UV-B radiation. The objective of this study was to determine whether or not the current and projected increases in UV-B levels affect cotton growth and development, and to quantify and develop UV-B radiation functional algorithms that can be used in simulation models. Two experiments were conducted during the summer of 2001 using sunlit plant growth chambers in a wide range of UV-B radiations under optimal growing conditions. Leaves exposed to UV-B radiation developed chlorotic and necrotic patches depending on the intensity and length of exposure. Along with changes in visible morphology, cotton canopy photosynthesis declined with increased UV-B radiation. The decline in canopy photosynthesis was partly due to loss of photosynthetic pigments and UV-B-induced decay of leaf-level photosynthetic efficiency (maximum photosynthesis) and capacity (quantum yield) as the leaves aged. The total leaf area was less due to smaller leaves and fewer leaves per plant. Less plant height was closely related to a shorter average internode length rather than a fewer mainstem nodes. The UV-B did not affect cotton major developmental events such as time taken to square, time to flower, and leaf addition rates on the mainstem. Lower biomass was closely related to both smaller leaf area and lower photosynthesis. The critical limit, defined as 90% of optimum or the control, for stem elongation was lower (8.7 kJ m −2 per day UV-B) than the critical limit for leaf expansion (11.2 kJ m −2 per day UV-B), indicating that stem elongation was more sensitive to UV-B than leaf expansion. The critical limits for canopy photosynthesis and total dry weight were 7 and 7.3 kJ m −2 per day, respectively. The identified UV-B-specific indices for stem and leaf growth and photosynthesis parameters may be incorporated into cotton simulation models such as GOSSYM to predict yields under present and future climatic conditions. |
| Author | Reddy, K.Raja Kakani, V.G Mohammed, A.R Zhao, D Gao, Wei |
| Author_xml | – sequence: 1 givenname: K.Raja surname: Reddy fullname: Reddy, K.Raja email: krreddy@ra.msstate.edu organization: Department of Plant and Soil Sciences, Mississippi State University, Box 9555, Mississippi, MS 39762, USA – sequence: 2 givenname: V.G surname: Kakani fullname: Kakani, V.G organization: Department of Plant and Soil Sciences, Mississippi State University, Box 9555, Mississippi, MS 39762, USA – sequence: 3 givenname: D surname: Zhao fullname: Zhao, D organization: Department of Plant and Soil Sciences, Mississippi State University, Box 9555, Mississippi, MS 39762, USA – sequence: 4 givenname: A.R surname: Mohammed fullname: Mohammed, A.R organization: Department of Plant and Soil Sciences, Mississippi State University, Box 9555, Mississippi, MS 39762, USA – sequence: 5 givenname: Wei surname: Gao fullname: Gao, Wei organization: USDA UV-B Monitoring and Research Program, Natural Resource Ecology Laboratory, Colorado State University, Fort Collins, CO 80523, USA |
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| Keywords | Growth and development Cotton Modeling Ultraviolet-B radiation Malvaceae Growth UVB radiation Model study Ozone Agroclimatology Fiber crop Algorithm OZONE DEPLETION Ultraviolet irradiation Dicotyledones Angiospermae Development Spermatophyta Gossypium hirsutum Biological effect Simulation model Solar radiation Anthropogenic factor |
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| Snippet | The potential impact of an increase in solar ultraviolet-B (UV-B) radiation due to human activity on higher plants has been the subject of many studies. Little... The effects of enhanced UV-B radiation on cotton morphology, phenology, growth, and physiology were investigated at an experimental site in Mississippi, and... |
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| SubjectTerms | Agricultural and forest climatology and meteorology. Irrigation. Drainage Agricultural and forest meteorology Agronomy. Soil science and plant productions algorithms anthropogenic activities Biological and medical sciences Biological effects of radiation biomass canopy Cotton Crop climate. Energy and radiation balances Fundamental and applied biological sciences. Psychology General agronomy. Plant production Growth and development growth chambers internodes leaf area leaves Modeling Non ionizing radiations. Hertzian waves. Biooptics photosynthesis pigments simulation models stem elongation summer Tissues, organs and organisms biophysics ultraviolet radiation Ultraviolet-B radiation |
| Title | Cotton responses to ultraviolet-B radiation: experimentation and algorithm development |
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