Narrow‐wide‐row planting pattern increases the radiation use efficiency and seed yield of intercrop species in relay‐intercropping system

Narrow‐wide‐row planting pattern increases the radiation use efficiency and seed yield of intercrop species in relay‐intercropping system

Abstract Planting arrangements affect radiation use efficiency (RUE) and competitiveness of intercrop species in intercropping systems. Here, we reveal that narrow‐wide‐row planting arrangement in maize‐soybean relay‐intercropping system increases the dry matter and competitiveness of soybean, incre...

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Main Authors: Muhammad Ali Raza, Ling Yang Feng, Wopke van derWerf, Gao Ren Cai, Muhammad Hayder Bin Khalid, Nasir Iqbal, Muhammad Jawad Hassan, Tehseen Ahmad Meraj, Muhammd Naeem, Imran Khan, Sana ur Rehman, Muhammad Ansar, Mukhtar Ahmed, Feng Yang, Wenyu Yang
Format: Article
Language:English
Published: Wiley 2019-07-01
Series:Food and Energy Security
Subjects:
competition
intercropping
land equivalent ratio
radiation use efficiency
Online Access:https://doi.org/10.1002/fes3.170
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spelling doaj-330933da1f48403b85bddcc6f633c2132021-03-02T01:31:44ZengWileyFood and Energy Security2048-36942019-07-0183n/an/a10.1002/fes3.170Narrow‐wide‐row planting pattern increases the radiation use efficiency and seed yield of intercrop species in relay‐intercropping systemMuhammad Ali Raza0Ling Yang Feng1Wopke van derWerf2Gao Ren Cai3Muhammad Hayder Bin Khalid4Nasir Iqbal5Muhammad Jawad Hassan6Tehseen Ahmad Meraj7Muhammd Naeem8Imran Khan9Sana ur Rehman10Muhammad Ansar11Mukhtar Ahmed12Feng Yang13Wenyu Yang14College of Agronomy Sichuan Agricultural University Chengdu ChinaCollege of Agronomy Sichuan Agricultural University Chengdu ChinaCentre for Crop Systems Analysis Wageningen University Wageningen The NetherlandsCollege of Agronomy Sichuan Agricultural University Chengdu ChinaCollege of Agronomy Sichuan Agricultural University Chengdu ChinaCollege of Agronomy Sichuan Agricultural University Chengdu ChinaDepartment of Grassland Science Sichuan Agricultural University Chengdu ChinaCollege of Agronomy Sichuan Agricultural University Chengdu ChinaCollege of Agronomy Sichuan Agricultural University Chengdu ChinaDepartment of Grassland Science Sichuan Agricultural University Chengdu ChinaDepartment of Agronomy Pir Mehr Ali Shah Arid Agriculture University Rawalpindi PakistanDepartment of Agronomy Pir Mehr Ali Shah Arid Agriculture University Rawalpindi PakistanDepartment of Agronomy Pir Mehr Ali Shah Arid Agriculture University Rawalpindi PakistanCollege of Agronomy Sichuan Agricultural University Chengdu ChinaCollege of Agronomy Sichuan Agricultural University Chengdu ChinaAbstract Planting arrangements affect radiation use efficiency (RUE) and competitiveness of intercrop species in intercropping systems. Here, we reveal that narrow‐wide‐row planting arrangement in maize‐soybean relay‐intercropping system increases the dry matter and competitiveness of soybean, increased the RUE of maize and soybean, and compensates the yield loss of maize by substantially increasing the yield of soybean. In this field study, maize was planted with soybean in different planting arrangements (P1, 20:180, P2, 40:160; P3, 60:140, and P4, 80:120) of relay intercropping, all the relay‐intercropping treatments were compared with sole crops of maize (SM) and soybean (SS). Results showed that P1 improved the total RUE 3.26 g/MJ (maize RUE + soybean RUE) of maize and soybean in relay‐intercropping system. Compared to P4, treatment P1 increased the soybean competition ratio (CR) values (by 55%) but reduced the maize CR values (by 29%), which in turn significantly improved the yield of soybean by maintaining the maize yield. Generally, in P1, soybean produced 82% of SS yield, and maize produced 88% of SM yield, and it achieved the land equivalent ratio of 1.7. These results suggest that by maintaining the appropriate planting distances between maize and soybean we can improve the competitiveness and yield of intercrop species in relay‐intercropping system.https://doi.org/10.1002/fes3.170competitionintercroppingland equivalent ratioradiation use efficiency
collection DOAJ
language English
format Article
sources DOAJ
author Muhammad Ali Raza
Ling Yang Feng
Wopke van derWerf
Gao Ren Cai
Muhammad Hayder Bin Khalid
Nasir Iqbal
Muhammad Jawad Hassan
Tehseen Ahmad Meraj
Muhammd Naeem
Imran Khan
Sana ur Rehman
Muhammad Ansar
Mukhtar Ahmed
Feng Yang
Wenyu Yang
spellingShingle Muhammad Ali Raza
Ling Yang Feng
Wopke van derWerf
Gao Ren Cai
Muhammad Hayder Bin Khalid
Nasir Iqbal
Muhammad Jawad Hassan
Tehseen Ahmad Meraj
Muhammd Naeem
Imran Khan
Sana ur Rehman
Muhammad Ansar
Mukhtar Ahmed
Feng Yang
Wenyu Yang
Narrow‐wide‐row planting pattern increases the radiation use efficiency and seed yield of intercrop species in relay‐intercropping system
Food and Energy Security
competition
intercropping
land equivalent ratio
radiation use efficiency
author_facet Muhammad Ali Raza
Ling Yang Feng
Wopke van derWerf
Gao Ren Cai
Muhammad Hayder Bin Khalid
Nasir Iqbal
Muhammad Jawad Hassan
Tehseen Ahmad Meraj
Muhammd Naeem
Imran Khan
Sana ur Rehman
Muhammad Ansar
Mukhtar Ahmed
Feng Yang
Wenyu Yang
author_sort Muhammad Ali Raza
title Narrow‐wide‐row planting pattern increases the radiation use efficiency and seed yield of intercrop species in relay‐intercropping system
title_short Narrow‐wide‐row planting pattern increases the radiation use efficiency and seed yield of intercrop species in relay‐intercropping system
title_full Narrow‐wide‐row planting pattern increases the radiation use efficiency and seed yield of intercrop species in relay‐intercropping system
title_fullStr Narrow‐wide‐row planting pattern increases the radiation use efficiency and seed yield of intercrop species in relay‐intercropping system
title_full_unstemmed Narrow‐wide‐row planting pattern increases the radiation use efficiency and seed yield of intercrop species in relay‐intercropping system
title_sort narrow‐wide‐row planting pattern increases the radiation use efficiency and seed yield of intercrop species in relay‐intercropping system
publisher Wiley
series Food and Energy Security
issn 2048-3694
publishDate 2019-07-01
description Abstract Planting arrangements affect radiation use efficiency (RUE) and competitiveness of intercrop species in intercropping systems. Here, we reveal that narrow‐wide‐row planting arrangement in maize‐soybean relay‐intercropping system increases the dry matter and competitiveness of soybean, increased the RUE of maize and soybean, and compensates the yield loss of maize by substantially increasing the yield of soybean. In this field study, maize was planted with soybean in different planting arrangements (P1, 20:180, P2, 40:160; P3, 60:140, and P4, 80:120) of relay intercropping, all the relay‐intercropping treatments were compared with sole crops of maize (SM) and soybean (SS). Results showed that P1 improved the total RUE 3.26 g/MJ (maize RUE + soybean RUE) of maize and soybean in relay‐intercropping system. Compared to P4, treatment P1 increased the soybean competition ratio (CR) values (by 55%) but reduced the maize CR values (by 29%), which in turn significantly improved the yield of soybean by maintaining the maize yield. Generally, in P1, soybean produced 82% of SS yield, and maize produced 88% of SM yield, and it achieved the land equivalent ratio of 1.7. These results suggest that by maintaining the appropriate planting distances between maize and soybean we can improve the competitiveness and yield of intercrop species in relay‐intercropping system.
topic competition
intercropping
land equivalent ratio
radiation use efficiency
url https://doi.org/10.1002/fes3.170
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