The mode of pollination in strawberry clover (Trifolium fragiferum)

1963 ◽  
Vol 3 (8) ◽  
pp. 5 ◽  
Author(s):  
FHW Morley
Keyword(s):  
Honey Bees ◽  
Small Proportion ◽  
Seed Set ◽  
Dense Population ◽  
Cross Pollination ◽  
Commercial Seed ◽  
Pollinating Insects ◽  
Seed Yields

A technique for emasculation and crossing strawberry clover (Trifolium fragiferum) is described. Contrary to reports in the literature this species is predominant4 self-incompatible. A small proportion of plants may set a few seeds on selfing. If seed-set is to be maximal a dense population of pollinating insects such as honey bees is necessary. Commercial seed yields may be greatly improved steps are taken to assure cross pollination.

scholarly journals Does in-hive pollen transfer by honey bees contribute to cross-pollination and seed set in hybrid cotton?

Apidologie ◽  
1994 ◽  
Vol 25 (1) ◽  
pp. 94-102 ◽  
Author(s):  
G. M. Loper ◽  
G. DeGrandi-Hoffman
Keyword(s):  
Honey Bees ◽  
Seed Set ◽  
Pollen Transfer ◽  
Cross Pollination

scholarly journals Seed-set evaluation of four male-sterile, female-fertile soybean lines using alfalfa leafcutting bees and honey bees as pollinators

2008 ◽  
Vol 146 (4) ◽  
pp. 461-469 ◽  
Author(s):  
E. ORTIZ-PEREZ ◽  
R. M. A. MIAN ◽  
R. L. COOPER ◽  
T. MENDIOLA ◽  
J. TEW ◽  
...  
Keyword(s):  
Honey Bees ◽  
Seed Set ◽  
Soybean Seed ◽  
Sterile Plant ◽  
Male Sterile ◽  
Male Sterile Plant ◽  
Local Conditions ◽  
Sterile Female ◽  
Cross Pollination ◽  
Pollinator Species

SUMMARYMale-sterile, female-fertile plants were used to produce hybrid soybean seed. Manual cross-pollination using male-sterile plants to produce large quantities of hybrid seed is difficult and time-consuming because of the low success rate in cross-pollination. Insect pollinators may be suitable vectors to transfer pollen, but the most suitable vector for pollen transfer from the male parent to the female parent has not been identified for soybean. The objective of the present study was to evaluate seed-set on four male-sterile, female-fertile soybean lines by using alfalfa leafcutting bees (Megachile rotundata (F.)) and honey bees (Apis mellifera (L.)) as pollinators. Seed-set was evaluated in summers 2003 and 2005 near Ames, Iowa, USA and in summers 2003, 2004, and 2005 near Wooster, Ohio, USA. Neither the effect of pollinator species nor the interaction effect of pollinator species×location was significant for any year. Honey bees performed similarly to alfalfa leafcutting bees at both locations. The results indicated significant differences for seed-set among male-sterile lines, suggesting preferential pollination. Male-sterile lines, ms1 (Urbana) and ms2 (Ames 2), had higher cross-pollinated seed-set compared to ms6 (Ames 1), and ms6 (Corsoy 79). At the Ames location, ms1ms1 (Urbana) plants had the highest seed-set (50·16 seeds per male-sterile plant in 2005). At the Wooster location, ms1ms1 (Urbana) plants also had the highest seed-set (92·04 seeds per male-sterile plant) in 2005. Costs and local conditions need to be addressed to support the choice of either pollinator species as a pollination vector to produce hybrid soybean seed.

scholarly journals Study of the efficiency of creeping clover pollination (Trifolium repens L.) by honey bees (Apis mellifera L.)

2021 ◽  
Vol 282 ◽  
pp. 03024
Author(s):  
V.N. Zolotarev
Keyword(s):  
Apis Mellifera ◽  
Trifolium Repens ◽  
Honey Bees ◽  
Growing Seasons ◽  
The Family ◽  
Pollinating Insects ◽  
Seed Yields ◽  
Allogamous Species ◽  
Bee Colonies

The creeping clover (Trifolium repens L.) is a natural allotetraploid allogamous species and is characterized by an entomophilic xenogamous pollination method. One of the reasons for the low yield of clover seeds is the insufficient provision of its flowering grass stands with pollinating insects. The main pollinators are representatives of the order of hymenoptera insects (Himenoptera) from the family of true bees (Apidae) – the honey bee Apis mellifera L. and various species of bumblebees (Bombus). Studies have shown that in the conditions of the Central Non-Chernozem region of Russia, the role of bumblebees in the pollination of creeping clover did not exceed 12-13%. In the presence of bumblebees in different growing seasons in the amount of 30-80 to 110-170 indivi-duals/ha during the mass flowering of creeping clover, they -ensured the formation of seed yields of no more than 90 kg/ha. It is established that honey bees perform up to 87-88% of clover pollination. The highest collections of creeping clover seeds are formed at the flight density of bees of 18-21 thousand individuals per hectare. This makes it possible to form a biological clover yield over 720 kg/ha. To ensure such a rich flight of bees, it is necessary to have at least 2-3 strong bee colonies on clover crops.

scholarly journals Camelina (Camelina sativa L. Crantz) Crop Performance, Insect Pollinators, and Pollen Dispersal in the Northeastern US

2019 ◽  
Author(s):  
Richard Rizzitello ◽  
Chuan-Jie Zhang ◽  
Carol Auer
Keyword(s):  
Gene Flow ◽  
Honey Bees ◽  
Pollen Dispersal ◽  
Camelina Sativa ◽  
Genetically Engineered ◽  
Oilseed Crop ◽  
Crop Failure ◽  
Long Distance ◽  
Insect Visitation ◽  
Pollinating Insects

AbstractCamelina sativa (camelina) is an oilseed crop in the Brassicaceae that has been genetically engineered for the production of biofuels, dietary supplements, and other industrial compounds. Cultivation in North America is both recent and limited, so there are gaps in knowledge regarding yield, weed competition, and pollen-mediated gene flow. For these experiments, camelina ‘SO-40’ was grown for three years without weed control. Spring-sown camelina was harvested at 80-88 days with ∼1200 growing degree days (GDD) with yields of 425-508 kg/hectare. Camelina yields were the same with or without weeds, showing competitive ability in low-management conditions. Crop failure in 2015 was associated with delayed rainfall and above-average temperatures after seeding. Camelina flowers attracted pollinating insects from the Hymenoptera, Diptera, Lepidoptera, and Coleoptera. Hymenoptera included honey bees (Apis melifera), mining bees (Andrenidae), sweat bees (Halictidae), bumble bees (Bombus spp.) and leaf cutter bees (Megachilidae). Insect visitation on camelina flowers was associated with modest increases in seed yield. Honey bees comprised 28-33% of all pollinators and were shown to carry camelina pollen on their legs. Air sampling showed that wind-blown pollen was present at low concentrations at 9 m beyond the edges of the field. These experiments demonstrated for the first time that camelina pollen dispersal could occur through honey bees or wind, although bee activity would likely be more significant for long-distance gene flow.

scholarly journals Honey bee mortalities caused by direct and indirect poisoning in Hungary

2017 ◽  
pp. 101-107
Author(s):  
Marianna Takács ◽  
János Oláh
Keyword(s):  
Honey Bee ◽  
Honey Bees ◽  
Agricultural Society ◽  
Chemical Residues ◽  
Pollinating Insects ◽  
The Times

Bee poisoning related top lant production shows an increasing tendency. The poisoning of honey bees most of the times is caused by neonikotinoids and insecticides. The bee pasture has imparied because of the too high bee-density,therefore the beekeepers had to locate their colonies near to the farmland. The pollinating insects experience dimmesurable damages because the ignorance of the agricultural society and the lack of communication. In cases of bee poisoning sometimes it can be intentional. The samples of direct bee-destruction show higher dose of chemical residues than the amount of which they can get during the pollinating activity. In our study we also demonstrate the direct bee poisoning which is caused by endosulfan and dichlorvos.

ALSIKE CLOVER POLLINATION BY HONEY BEES IN THE PEACE RIVER REGION

1959 ◽  
Vol 39 (4) ◽  
pp. 505-511 ◽  
Author(s):  
P. Pankiw ◽  
C. R. Elliott
Keyword(s):  
Honey Bee ◽  
Plant Species ◽  
Honey Bees ◽  
Climatic Conditions ◽  
Bumble Bees ◽  
Flowering Period ◽  
Peace River ◽  
River Region ◽  
Native Pollinator ◽  
Seed Yields

Pollination studies involving zero, one and three colonies of honey bees per acre, on commercial alsike clover fields ranging in size from 15 to 75 acres, were conducted in 1954, 1955, and 1957 in the Hinton Trail district of the Peace River Region of Alberta. These studies indicated that in large fields one colony of honey bees per acre is sufficient to pollinate alsike clover, consideration being given to competition of other crops and to the climatic conditions. The influence of competing crops was such that 65- to 75-acre fields, with one colony per acre, were similar in honey bee populations and seed production to 15- to 20-acre fields with three colonies per acre. Competing plant species accounted for 15 to 36 per cent of the pollen collected by honey bees. Fields with the higher populations of pollinators matured earlier than fields deficient in pollinators. A population of 3400 honey bees per acre (0.7 bee per sq. yd.) throughout the flowering period resulted in seed sets up to 82 per cent and seed yields to 375 lb. per acre. Check fields, where no honey bees were supplied, ranged in production from 29 lb. per acre, with a low native pollinator count, to 293 lb. where a pollinator equivalent of 1300 bumble bees per acre was observed. Bumble bees worked alsike clover at the rate of 28.6 florets per minute, as compared to 20.0 for leaf-cutter bees and 18.7 for honey bees.

Increased seed production of subterranean clover pastures in response to fertilizers supplying calcium

1974 ◽  
Vol 14 (71) ◽  
pp. 749 ◽  
Author(s):  
PG Ozanne ◽  
KMW Howes
Keyword(s):  
Seed Production ◽  
Calcium Concentration ◽  
Field Experiments ◽  
Seed Set ◽  
Subterranean Clover ◽  
Trifolium Subterraneum ◽  
Unit Weight ◽  
Gypsum Plaster ◽  
Total Seed ◽  
Seed Yields

The effects of four common fertilizers containing calcium on seed production in subterranean clover (Trifolium subterraneum) were measured at six locations over five years in a total of fifteen field experiments. Calcium as a sulphate, carbonate or phosphate salt was applied to subterranean clover pastures either at the start of the growing season (autumn) or at flowering (spring). Gypsum, plaster of Paris, or lime gave large increases in seed yield per unit area and also per unit weight of tops. Spring applications of superphosphate increased seed yields in only two out of four experiments. Gypsum applied in spring at 200-500 kg ha-1 was as effective as 2,000 kg ha-1 of lime applied in autumn. Applications of lime in spring were much less effective. Increased seed yields were due to increases in burr yield, seed number per burr, and mean weight per seed. They were usually accompanied by increases in calcium concentration in the seed. Responses in seed production to calcium applications were obtained in all three sub-species of Trifolium subterraneum. In two experiments, newly sown on a soil type on which subterranean clover regeneration and persistence is commonly very poor, applied calcium doubled or quadrupled seed set. In 13 experiments using soils on which subterranean clover had persisted as the major component of the pasture for several years, calcium in the year of application increased the total seed bank by 6 to 31 per cent, and the current seed set by a greater amount.

Undersowing wheat with annual legumes: Effects on wheat yields and legume seed yields in the south-eastern wheat belt of Western Australia

1970 ◽  
Vol 10 (42) ◽  
pp. 84 ◽  
Author(s):  
ML Poole ◽  
JW Gartrell
Keyword(s):  
Seed Yield ◽  
Western Australia ◽  
Seed Set ◽  
Wheat Yield ◽  
The South ◽  
Legume Seed ◽  
Mixed Stands ◽  
South Eastern ◽  
Different Response ◽  
Seed Yields

Ten annual Trifolium and Medicago cultivars were sown at low (1-6 lb an acre) and high (3-18 lb an acre) seeding rates with wheat crops in five trials in the south-eastern wheatbelt of Western Australia. Wheat and legume seed yields from these mixed stands were compared with stands of the same rates of wheat and legume sown alone. Sowing the legumes with the crop reduced wheat yields by from 7.4 bushels an acre (25 per cent) in one trial to 1.5 bushels an acre (5 per cent) in another. The evidence did not suggest which factors caused the different response. Legume seed production under the crop was severely reduced in all trials. In 30 of the 44 comparisons made it was reduced by more than 50 per cent, and in 13 cases by more than 75 per cent. In 9 cases the amount of seed set under the crop was less than 30 lb an acre. In most cases trebling the amount of legume seed sown under the crop greatly increased legume seed yield but caused only a small (less than one bushel per acre) further decrease in wheat yield.

scholarly journals Identification of Chrysanthemum (Chrysanthemum morifolium) Self-Incompatibility

2014 ◽  
Vol 2014 ◽  
pp. 1-9 ◽  
Author(s):  
Fan Wang ◽  
Feng-Jiao Zhang ◽  
Fa-Di Chen ◽  
Wei-Min Fang ◽  
Nian-Jun Teng
Keyword(s):  
Small Proportion ◽  
Seed Set ◽  
Staining Method ◽  
Pollen Grains ◽  
Chrysanthemum Morifolium ◽  
Fluorescence Microscope ◽  
Blue Staining ◽  
Self Incompatibility ◽  
Wide Range ◽  
Aniline Blue Staining

There has been a heated argument over self-incompatibilityof chrysanthemum (Chrysanthemum morifolium) among chrysanthemum breeders. In order to solve the argument, we investigated pistil receptivity, seed set, and compatible index of 24 chrysanthemum cultivars. It was found that the 24 cultivars averagely had 3.7–36.3 pollen grains germinating on stigmas at 24 hours after self-pollination through the fluorescence microscope using aniline blue staining method. However, only 10 of them produced self-pollinated seeds, and their seed sets and compatible indexes were 0.03–56.50% and 0.04–87.50, respectively. The cultivar “Q10-33-1” had the highest seed set (56.50%) and compatible index (87.50), but ten of its progeny had a wide range of separation in seed set (0–37.23%) and compatible index (0–68.65). The results indicated that most of chrysanthemum cultivars were self-incompatible, while a small proportion of cultivars were self-compatible. In addition, there is a comprehensive separation of self-incompatibility among progeny from the same self-pollinated self-compatible chrysanthemum cultivar. Therefore, it is better to emasculate inflorescences during chrysanthemum hybridization breeding when no information concerning its self-incompatibility characteristics is available. However, if it is self-incompatible and propagated by vegetative methods, it is unnecessary to carry out emasculation when it is used as a female plant during hybridization breeding.

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