Root methods for intercropping
Research output: Book/Report › Ph.D. thesis › Research
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Root methods for intercropping. / Hassan, Affendy Bin.
Department of Plant and Environmental Sciences, Faculty of Science, University of Copenhagen, 2020. 145 p.Research output: Book/Report › Ph.D. thesis › Research
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TY - BOOK
T1 - Root methods for intercropping
AU - Hassan, Affendy Bin
PY - 2020
Y1 - 2020
N2 - A sustainable way to enhance overall food production is to increase the exploitation of subsoil resources with deep roots. In this regard, intercropping is highly recommended to maintain agricultural systems, because it can increase the soil exploitation, especially when using deep-rooted crops. Various root measurement techniques help to understand the importance of roots and their role in intercropping. In this work, there are two main objectives: (i) to study methods that enable the distinction of roots and root function of plant species grown in mixed cropping; and (ii) to investigate the root interaction and resourcecompetition in intercropping systems.The methods used for distinguishing roots and root function in intercropping systems were qPCR, amplicon sequencing, 15N tracer uptake, and anatomical techniques. Experiments were conducted to study the root competition between legume and non-legume mixtures under semi-field conditions, and variousstands of mixed crops in strip intercropping in the field. The root studies were conducted by direct visual distinction in rhizotron tubes, by determining uptake of labeled nitrogen, and by root excavation followed by different analyses.It is concluded that several methods can be used to distinguish roots from different species in intercropping systems. By the use of the DNA-based methods, qPCR and amplicon sequencing, it was possible to quantify root fractions from root mixtures in intercropping. Root activity of individual speciesof crops in the mixtures could also be detected by 15N tracer uptake. Additionally, microscopy with a suitable staining method further allowed reliable differentiation among species by studying differences in root anatomy. Finally, the use of red-colored roots also allowed for differentiation between two speciesgrown in intercropping systems, observed via direct visual observations and by using root imaging techniques. The observations on belowground interactions in strip intercropping of different crop species in this study could be useful as a guidance and to provide profound understanding about the mechanismsthat are responsible for the yield advantages of intercropping systems, crop design, and optimization of agronomic choices in intercropping systems.
AB - A sustainable way to enhance overall food production is to increase the exploitation of subsoil resources with deep roots. In this regard, intercropping is highly recommended to maintain agricultural systems, because it can increase the soil exploitation, especially when using deep-rooted crops. Various root measurement techniques help to understand the importance of roots and their role in intercropping. In this work, there are two main objectives: (i) to study methods that enable the distinction of roots and root function of plant species grown in mixed cropping; and (ii) to investigate the root interaction and resourcecompetition in intercropping systems.The methods used for distinguishing roots and root function in intercropping systems were qPCR, amplicon sequencing, 15N tracer uptake, and anatomical techniques. Experiments were conducted to study the root competition between legume and non-legume mixtures under semi-field conditions, and variousstands of mixed crops in strip intercropping in the field. The root studies were conducted by direct visual distinction in rhizotron tubes, by determining uptake of labeled nitrogen, and by root excavation followed by different analyses.It is concluded that several methods can be used to distinguish roots from different species in intercropping systems. By the use of the DNA-based methods, qPCR and amplicon sequencing, it was possible to quantify root fractions from root mixtures in intercropping. Root activity of individual speciesof crops in the mixtures could also be detected by 15N tracer uptake. Additionally, microscopy with a suitable staining method further allowed reliable differentiation among species by studying differences in root anatomy. Finally, the use of red-colored roots also allowed for differentiation between two speciesgrown in intercropping systems, observed via direct visual observations and by using root imaging techniques. The observations on belowground interactions in strip intercropping of different crop species in this study could be useful as a guidance and to provide profound understanding about the mechanismsthat are responsible for the yield advantages of intercropping systems, crop design, and optimization of agronomic choices in intercropping systems.
UR - https://soeg.kb.dk/permalink/45KBDK_KGL/1pioq0f/alma99124005219305763
M3 - Ph.D. thesis
BT - Root methods for intercropping
PB - Department of Plant and Environmental Sciences, Faculty of Science, University of Copenhagen
ER -
ID: 260244494