LOGIN
|
REGISTER
Monday, September 9, 2024
Home
Summaries
Country Summary
Site of Action Summary
Site of Action Table
ALS Mutation Database
Graphs
Chronological Increase in USA
Saving Graphs for PowerPoint
Multiple Resistance within Populations
Weeds Resistant to Many SOA's
Global Maps
Chronological Increase
Resistance by Site of Action
Graph Data for Resistance by SOA
Resistance by SOA listing species
Resistance by SOA and Crop
Resistance by Weed Family
Weed Families by # SOA
Top 15 Weed Species by # SOA
Lifecycle Duration for Resistant Weeds vs Weeds in General
Top 15 Herbicides to Select Resistance
ALS inhibitor mutations
ALS inhibitor Mutations - Residue #
#Herbicides for each of the Top 15 SOA's
Recent Additions
Select Multiple Resistance by Country
Resistant Weeds
By Species
By Crop
By Country
By Herbicide Site of Action
By Individual Herbicide
Add New Case
Add New Case of Resistance
Criterion for Confirmation
Herbicides
Herbicide Classification System
Herbicides by Site of Action
Herbicide Poster
Researchers
Login
Log Out
Edit Your Contact Details
Find Researchers
Register as Researcher
Email me my Password
Change my Password
Literature
Search Reference Database
Add a Document
Add a Reference
E-Books
Herbicide Resistant Phalaris minor in Wheat - India
Management of Resistant Weeds in Rice
Prevención y manejo de malezas resistentes a herbicidas en arroz
Help
About US
FAQ
FAQ
Login
FAQ
About Us
Cite this Site
Add New Case
Add Documents
Summaries
US State Map
European Map
Recent Cases
Countries
Sites of Action
All Species by SOA Table
Herbicides
Glyphosate Resistant Weeds
ALS Mutation Database
Sequence Database
Graphs
Global Maps
Herbicide Poster
Herbicide Classification System
Resistant Weeds
By Site of Action
By Crop
By Species
By Country
By Individual Herbicide
Membership
Register
Retrieve Your Password
Edit Your Contact Details
Change Your Password
Contacts
Researchers
Contact Us
Search the Herbicide-Resistance Reference Database
Searches the reference database - authors, title, abstract, and keywords fields. Not case sensitive.
You can use
AND, OR, AND NOT
operators. For instance :
Tranel and Amaranthus and not glyphosate
REFERENCES
1
Page size:
select
5
10
20
50
Page:
of 1
Items
1
to
1
of
1
Zichang Zhang, Tao Gu, Buhong Zhao, Xia Yang, Qiong Peng, Yongfeng Li and Lianyang Bai
.
2017
.
Effects of common Echinochloa varieties on grain yield and grain quality of rice
.
Field Crops Research
203
:
163 - 172
.
Barnyard grass, such as
Echinochloa crus-galli
var.
mitis
,
Echinochloa crus-galli
var.
zelayensis
and
Echinochloa colonum
, are the main troublesome weeds in rice (
Oryza sativa
) paddies. This study aimed to investigate the rice yield (quality and quantity) when grown with these common barnyard grass varieties. A 2-year field experiment was conducted using two high-yielding rice cultivars, Liangyoupeijiu (an
O. sativa indica
hybrid cultivar) and Nanjing 9108 (an
O. sativa japonica
cultivar) at different develop-mental stages from transplant to maturity. Treatments included a weed-free (control), rice grown with
Echinochloa. crus-galli
var.
mitis
(Ecm), rice grown with
E. crus-galli
var.
zelayensis
(Ecz), and rice grown with
E. colonum
(Ec). The results showed that when barnyard grasses were grown with the same rice cultivar, the order of plant height of the three barnyard grass varieties was Ecz > Ecm > Ec, the growth duration was Ecm > Ecz > Ec and the dry matter accumulation of both Ecm and Ecz was greater than Ec. Compared with the weed-free control, there was no significance difference in rice tiller numbers among the treatments within the same rice cultivar. The Ecm and Ecz treatments for both rice cultivars and the Ec treatment of Nanjing 9108 had significantly lower leaf photosynthetic rate, root biomass, root oxidation activity, and dry matter accumulation at both the heading and maturity stages. Lower rice yield loss was detected for all rice grown with barnyard grass, but the loss in yield differed by treatments. Losses in grain yield of rice were 12.7–42.6% in the Ecm treatment, 22.3–55.2% in the Ecz treatment, and1.5–12.1% in the Ec treatment. For both rice cultivars, Ecm and Ecz treatments had significantly lower grain yield compared with the control. The Ec treatment for Nanjing 9108 had significantly lower grain yield compared to the control, but there was not a significant difference between Ec and the control for Liangyoupeijiu. In general, the
japonica
cultivar had a greater loss in grain yield compared with the indicia hybrid cultivar under the same treatment. The degree of yield loss by barnyard grass cultivar was Ecz > Ecm > Ec. Grain quality in head rice, chalky kernel, chalky size, and gel consistency was significantly lower for both rice cultivars in the Ecm and Ecz treatments and also for Nanjing 9108 but not for Liangyoupeijiu in the Ec treatment. We conclude that the reduction in leaf photosynthetic rate, root biomass, root oxidation activity at the grain filling stage, and dry matter accumulation at maturity was caused by interference in canopy light transmission caused by barnyard grass and that these factors resulted in losses in grain yield and quality.
1
Page size:
select
5
10
20
50
Page:
of 1
Items
1
to
1
of
1
PERMISSION MUST BE OBTAINED FIRST if you intend to base a significant portion of a scientific paper on data derived from this site.
Cite this site as:
Heap, I. The International Survey of Herbicide Resistant Weeds. Online. Internet.
Monday, September 9, 2024
. Available
www.weedscience.org
Copyright � 1993-
2024
WeedScience.org All rights reserved. Fair use of this material is encouraged. Proper citation is requested.
{1}
##LOC[OK]##
{1}
##LOC[OK]##
##LOC[Cancel]##
{1}
##LOC[OK]##
##LOC[Cancel]##