Wednesday, December 18, 2013
Guru besar ceburi bidang ternakan lebah kelulut
BIDOR - Bermodalkan RM2,800, seorang guru besar sebuah sekolah di sini, bersama rakan kongsinya mengusahakan ternakan lebah kelulut.
Othman Md Ali, 56, berkata, dia tertarik untuk menternak lebah itu setelah diberikan sebotol madu lebah kelulut oleh seorang rakan yang merupakan usahawan menternak lebah bagi mengubati penyakit batuk dihidapinya.
Menurutnya, setelah beberapa hari minum madu itu, batuk yang dialami beransur sembuh.
“Saya terus tertarik untuk menjadi usahawan lebah kelulut dan sebagai permulaan saya bersama rakan kongsi menternak serangga itu di dalam tujuh kotak.
"Kini kami mempunyai 300 kotak yang mampu menghasilkan kira-kira 40 kilogram sebulan," katanya.
Othman berkata, madu berkenaan dijual dengan harga RM150 sebotol dan pendapatan diterima setiap bulan adalah antara RM5,000 hingga RM6,000.
"Madu ini dijual di pekan Bidor kepada rakan dan peminat madu lebah kelulut yang kini menjadi pelanggan tetap.
"Saya menjalankan perusahaan ini sendiri tanpa bantuan mana-mana agensi kerajaan atau swasta tetapi kini saya berusaha mendapatkan khidmat nasihat Fama, Jabatan Pertanian, Sirim, Mardi dan Jabatan Perdagangan Dalam Negeri Hal Ehwal Pengguna Korporat," katanya.
Source: http://www.sinarharian.com.my/guru-besar-ceburi-bidang-ternakan-lebah-kelulut-1.227196
Wednesday, November 20, 2013
Honey bees selectively avoid difficult choices.
By Seriously Science
Photo: flickr/James Diedrick
Photo: flickr/James Diedrick
I don’t know about you, but I totally avoid making difficult choices, particularly when there doesn’t seem to be any way to determine the what the correct decision might be. Surprisingly, the study shown here suggests that honeybees might approach decisions in the same way. The experiments consisted of decision tests of different levels of difficulty: the “easy choices” were a reward (sugar, yum!) placed clearly above or below a visual reference, and a punishment (quinine, yuck!) in the other position. “Hard choices” were represented by the reward being offset but overlapping with the visual reference, and “impossible choices” were actually impossible to predict: “For impossible trials (so-called because objectively they had no correct answer and therefore were rewarded pseudorandomly), the centers of both targets were in line with that of the reference.” Honeybees were allowed to choose to either be rewarded, punished, or to “opt out” and fly away. It turns out, when presented with harder choices, the bees were more likely to “opt out”, indicating that when the “right answer” is less obvious, the best choice may be to make no choice at all (at least if you are a bee… or me!).
Honey bees selectively avoid difficult choices.
“Human decision-making strategies are strongly influenced by an awareness of certainty or uncertainty (a form of metacognition) to increase the chances of making a right choice. Humans seek more information and defer choosing when they realize they have insufficient information to make an accurate decision, but whether animals are aware of uncertainty is currently highly contentious. To explore this issue, we examined how honey bees (Apis mellifera) responded to a visual discrimination task that varied in difficulty between trials. Free-flying bees were rewarded for a correct choice, punished for an incorrect choice, or could avoid choosing by exiting the trial (opting out). Bees opted out more often on difficult trials, and opting out improved their proportion of successful trials. Bees could also transfer the concept of opting out to a novel task. Our data show that bees selectively avoid difficult tasks they lack the information to solve. This finding has been considered as evidence that nonhuman animals can assess the certainty of a predicted outcome, and bees’ performance was comparable to that of primates in a similar paradigm. We discuss whether these behavioral results prove bees react to uncertainty or whether associative mechanisms can explain such findings. To better frame metacognition as an issue for neurobiological investigation, we propose a neurobiological hypothesis of uncertainty monitoring based on the known circuitry of the honey bee brain.”
Tuesday, October 22, 2013
Kebaikan Madu, Gamat, Susu Kambing
Dapatckan petua-petua menngunakan madu. Click Here!
Artikel Penuh: http://www.utusan.com.my/utusan/Kesihatan/20131013/kn_01/Kebaikan-Madu-Gamat-Susu-Kambing#ixzz2iTRJe2L2
© Utusan Melayu (M) Bhd
Untuk mengekalkan tahap kesihatan, pengambilan makanan yang seimbang dan berkhasiat adalah penting dalam setiap sajian. Terdapat pelbagai pilihan makanan yang kita boleh ambil. Salah satu sebagai makanan tambahan yang mampu memberikan zat dan nutrien yang tidak terdapat dalam makanan utama. Tiga makanan berikut adalah makanan diperakui sebagai makanan yang bukan sahaja memberikan khasiat tambahan, malah boleh membantu memulihkan pelbagai masalah kesihatan.
Khazanah dari dalam laut
Gamat adalah sejenis haiwan laut yang bernilai tinggi. Ia berbentuk seperti sosej, kulit yang keras dan memanjang. Khasiat gamat telah diperakui sejak sekian lama untuk menyembuhkan luka dan sebagai ubat penahan sakit semula jadi.
Kajian daripada penyelidik tempatan dan luar mendapati bahawa gamat mengandungi kandungan protein, karbohidrat, zat galian dan asid lemak yang tinggi. Ia juga mengandungi pelbagai asid lemak omega-3, dan vitamin A, B1, B2, C beserta garam galian seperti kalsium, magnesium, zink dan zat besi.
Salah satu elemen penting di dalam gamat adalah kandungan kolagennya yang tinggi iaitu sebanyak 92 peratus. Dengan komposisi yang banyak ini, ia mampu memerangi kesan penuaan, kemerosotan prestasi sel di dalam badan manusia malah mempercepatkan pertumbuhan sel-sel baru yang telah rosak.
Gamat juga baik dikatakan untuk meredakan sakit sendi, mengurangkan ketegangan otot dan mengurangkan bengkak akibat digigit serangga. Kolagen daripada gamat juga membantu meningkatkan kadar kolagen asli di dalam badan dan seterusnya menganjalkan kulit supaya menjadi awet muda.
Penawar daripada madu
Madu adalah salah satu bahan makanan yang mempunyai sifat penyembuh semula jadi. Ia sudah dikenali sejak zaman dahulu sebagai salah satu sumber makanan yang baik untuk kecantikan dan kesihatan dalaman.
Dalam perubatan Islam, madu sering digunakan sebagai ubat untuk membantu meringankan sakit seperti membersihkan kotoran di dalam usus, menormalkan kelembapan tubuh badan, mancairkan kahak dan menguatkan sistem pertahanan tubuh.
Menurut Dr. Susan Percival dari Jabatan Nutrisi Manusia dan Sains Makanan, Universiti Florida, Amerika Syarikat, madu mengandungi pelbagai kandungan mineral dan vitamin seperti B6, tiamina, miacin, ribotlorina dan asid pontohenic. Ia juga mengandungi zat-zat seperti kalsium, zat besi, kuprum, magnesium, manganese, fosforus, potasium, sodium dan zink.
Madu turut mengandungi vitamin B1, B2, C, B6 dan B3. Komposisinya berubah-ubah sesuai dengan kualiti madu bunga dan serbuk sari yang diperoleh lebah. Madu berperanan sebagai anti oksida dalam badan manusia yang mampu menghapuskan bahan-bahan radikal yang menjadi penyebab utama kepada penyakit-penyakit kronik. Kajian terkini membuktikan, kandungan madu lebah yang terdiri daripada bahan semula jadi pelbagai gula seperti glukos dan fruktos ini mampu meningkatkan stamina.
Madu boleh diamalkan dalam diet seharian kerana madu sesuai dijadikan pengganti gula sekaligus dapat menjaga kesihatan badan. Selain itu, amalan minum air madu hangat selepas makan boleh membantu melancarkan pencernaan serta meningkatkan metabolism tubuh.
Dari segi kecantikan, madu sebenarnya telah lama digunakan untuk mencantik, menghalus, melembab dan mengawal keanjalan kulit.
Artikel Penuh: http://www.utusan.com.my/utusan/Kesihatan/20131013/kn_01/Kebaikan-Madu-Gamat-Susu-Kambing#ixzz2iTRJe2L2
© Utusan Melayu (M) Bhd
Sunday, September 22, 2013
Peroleh RM1,000 seminggu
DAPATKAN RAHSIA KHASIAT MADU. Click Here!
Dari kiri: Mohd Ariffin dan Ahmad tidak melepaskan peluang menikmati madu lebah kelulut dari koloninya menggunakan penyedut minuman.
PASIR MAS - Setiap graduan yang tamat pengajian pasti mengimpikan untuk bekerja dengan sesebuah organisasi dan mendapat upah setimpal dengan usaha selama ini.
Namun tidak bagi anak jati Kampung Jintan, Chetok, iaitu Azeman Jaya, 22, atau lebih dikenali sebagai Tok Cik apabila dia memilih untuk mengusahakan ternakan lebah kelulut bagi mencari rezeki yang halal.
Walaupun pada peringkat awal pilihannya itu sering diragui namun, berkat usaha dan keyakinan diri, Azeman mengorak langkah cuba membuktikan kelainan yang dilakukannya itu.
Cabar diri sendiri
Berbekalkan pengalaman yang diperoleh sepanjang pengajian di Institusi Vaterina, Kluang, Johor, Azeman mencabar dirinya dengan memulakan ternakan lebah kelulut secara kecil-kecilan.
“Ramai graduan sekarang yang memasang angan-angan untuk makan gaji tetapi tidak bagi saya kerana dengan bekerja sendiri juga kita mampu berjaya dalam hidup.
“Bermula dengan modal RM10,000 hasil bantuan adik-beradik, saya hanya menggunakan kawasan halaman rumah untuk ternakan ini,” katanya kepada Sinar Harian.
Menurutnya, yang juga anak bongsu daripada lapan beradik itu, halaman rumah yang dipenuhi dengan pokok buah-buahan memberi kelebihan kepada usahanya itu kerana ia dapat menarik minat lebah kelulut.
Katanya, selepas enam bulan bersusah payah berusaha akhirnya dia berjaya menghasilkan 350 koloni kelulut yang diletakkan di sekitar kawasan rumahnya.
“Daripada jumlah itu, 30 koloni sudah berjaya menghasilkan madu,” katanya.
Pendapatan lumayan
Namun tidak bagi anak jati Kampung Jintan, Chetok, iaitu Azeman Jaya, 22, atau lebih dikenali sebagai Tok Cik apabila dia memilih untuk mengusahakan ternakan lebah kelulut bagi mencari rezeki yang halal.
Walaupun pada peringkat awal pilihannya itu sering diragui namun, berkat usaha dan keyakinan diri, Azeman mengorak langkah cuba membuktikan kelainan yang dilakukannya itu.
Cabar diri sendiri
Berbekalkan pengalaman yang diperoleh sepanjang pengajian di Institusi Vaterina, Kluang, Johor, Azeman mencabar dirinya dengan memulakan ternakan lebah kelulut secara kecil-kecilan.
“Ramai graduan sekarang yang memasang angan-angan untuk makan gaji tetapi tidak bagi saya kerana dengan bekerja sendiri juga kita mampu berjaya dalam hidup.
“Bermula dengan modal RM10,000 hasil bantuan adik-beradik, saya hanya menggunakan kawasan halaman rumah untuk ternakan ini,” katanya kepada Sinar Harian.
Menurutnya, yang juga anak bongsu daripada lapan beradik itu, halaman rumah yang dipenuhi dengan pokok buah-buahan memberi kelebihan kepada usahanya itu kerana ia dapat menarik minat lebah kelulut.
Katanya, selepas enam bulan bersusah payah berusaha akhirnya dia berjaya menghasilkan 350 koloni kelulut yang diletakkan di sekitar kawasan rumahnya.
“Daripada jumlah itu, 30 koloni sudah berjaya menghasilkan madu,” katanya.
Pendapatan lumayan
Azeman berkata, madu yang dikumpulkan dijual dengan harga serendah RM50 bagi 200 gram, manakala RM140 untuk sekilogram.
“Oleh kerana madu lebah kelulut mempunyai banyak khasiat, terutama sebagai penawar penyakit kencing manis, darah tinggi, asma dan sebagainya, ia sering mendapat permintaan yang tinggi daripada pembeli.
“Kadang-kadang permintaan yang diterima lebih tinggi daripada hasil pengeluaran,” katanya yang memperoleh pendapatan RM1,000 seminggu hasil ternakan itu.
Azeman berkata, melihat kepada sambutan yang diterima, dia bercadang untuk membuka sebuah ladang kelulut di tanah peninggalan keluarga untuk mendapatkan bekalan madu yang lebih banyak pada masa akan datang.
“Ia masih lagi di peringkat perancangan dan saya berharap dengan sokongan ramai impian ini akan menjadi kenyataan,” katanya.
Galak anak muda
Sementara itu, Ketua Pengarah Lembaga Pemasaran Pertanian Persekutuan (Fama), Datuk Ahmad Ishak berkata, beliau menggalakkan petani atau pengusaha muda yang ingin berkecimpung dalam bidang ternakan lebah kelulut tersebut.
“Kami bersedia untuk membantu dari segi mempromosikan madu ini kerana dengan adanya penghasilan madu lebah kelulut ia dapat menambahkan koleksi madu yang ada di Fama, selain madu lebah dan tualang,” katanya semasa mengadakan lawatan
khas ke ladang ternakan kelulut Sungai Lombong Agro Farm milik Azeman, di sini.
Hadir sama, Pengarah Fama Wilayah Timur 1, Mohd Ariffin Awang.
Menurutnya, usaha yang dipraktikkan Azeman cukup kreatif terutama penggunaan sumbar asli dalam menghasilkan madu tersebut.
Beliau berharap Azeman dapat melakukan lebih banyak pengeluaran madu agar ia dapat dipasarkan dengan lebih meluas lagi.
“Oleh kerana madu lebah kelulut mempunyai banyak khasiat, terutama sebagai penawar penyakit kencing manis, darah tinggi, asma dan sebagainya, ia sering mendapat permintaan yang tinggi daripada pembeli.
“Kadang-kadang permintaan yang diterima lebih tinggi daripada hasil pengeluaran,” katanya yang memperoleh pendapatan RM1,000 seminggu hasil ternakan itu.
Azeman berkata, melihat kepada sambutan yang diterima, dia bercadang untuk membuka sebuah ladang kelulut di tanah peninggalan keluarga untuk mendapatkan bekalan madu yang lebih banyak pada masa akan datang.
“Ia masih lagi di peringkat perancangan dan saya berharap dengan sokongan ramai impian ini akan menjadi kenyataan,” katanya.
Galak anak muda
Sementara itu, Ketua Pengarah Lembaga Pemasaran Pertanian Persekutuan (Fama), Datuk Ahmad Ishak berkata, beliau menggalakkan petani atau pengusaha muda yang ingin berkecimpung dalam bidang ternakan lebah kelulut tersebut.
“Kami bersedia untuk membantu dari segi mempromosikan madu ini kerana dengan adanya penghasilan madu lebah kelulut ia dapat menambahkan koleksi madu yang ada di Fama, selain madu lebah dan tualang,” katanya semasa mengadakan lawatan
khas ke ladang ternakan kelulut Sungai Lombong Agro Farm milik Azeman, di sini.
Hadir sama, Pengarah Fama Wilayah Timur 1, Mohd Ariffin Awang.
Menurutnya, usaha yang dipraktikkan Azeman cukup kreatif terutama penggunaan sumbar asli dalam menghasilkan madu tersebut.
Beliau berharap Azeman dapat melakukan lebih banyak pengeluaran madu agar ia dapat dipasarkan dengan lebih meluas lagi.
Saturday, August 31, 2013
Who, what, why: How do you track a honey bee?
By Denise WintermanBBC News Magazine
The latest research investigating why honey bees are dying involves tracking the small insects, but how do you track a bee?
Bee numbers have been falling dramatically and scientists are trying to understand why. In the past 25 years honey bee numbers in England have more than halved and they are still decreasing. It is a similar story elsewhere in the UK and in other countries.
Bees of all types - there are hundreds of them - play a huge role in the life of the countryside and a third of what we eat is reliant on bee pollination. Studying the behaviour of these complex insects is crucial to finding out what is happening but it is also a big challenge.
The answer
- A tiny antenna is glued to the thorax of the insect
- A radar transmitter emits a signal
- A diode in the centre of the antenna converts it into a unique signal that researchers can track
honey bee can visit several thousand flowers in one day and navigate over several kilometres, so how do you track one?
Scientists are using harmonic radar technology. A radar transmitter emits a signal which is received by a tiny antenna glued on a honey bee's thorax (back). A small diode in the centre of the antenna converts it into a different wavelength that can be detected and followed.
The converted signal is unique. There is no other source in the environment, so scientists know it's the tagged honey bee. A portable radar tracking station is used to transmit the signal and gather the information sent back.
The system was developed by scientists at the Natural Resources Institute and is operated by scientists at Rothamsted Research, a government-funded agricultural research centre in Hertfordshire. It's currently being used in several major research projects.
Read more at:http://www.bbc.co.uk/news/magazine-23448846
Saturday, August 3, 2013
Honeybees Self-Medicate with Anti-Fungal Resin
The Honey, Garlic And Vinegar Miracle, Click Here!
Propolis (yellow) lining the inside of a beehive.
Beekeepers would love to get rid of propolis, a sticky substance made of resins that bees use to line their hives, because it makes it hard to pry hives open. But propolis isn’t just gluing the hive together, according to a new study published in PLoS ONE—honeybees use it to fight off fungal infections and seek it out when their hives are infected.
Bees have to invest effort in hunting down the resins that make up propolis, which like nectar is foraged from plants. That means that every minute a bee is looking for resin is a minute it’s not looking for food. The trade-off is worth it, apparently, because propolis kills bacteria and fungi lurking in the colony.
In this new study, the authors looked at whether propolis helped stop a fungal infection called chalkbrood that kills larvae. When experimenters painted propolis extract on hives, these propolis-enriched hives had lower rates of chalkbrood infection. And when colonies got infected with chalkbrood, bees went looking for resins more often. That’s where things get interesting because the adult bees doing the foraging are not directly affected by chalkbrood—it only lurks in larvae—so the “self”-medication happens at the level of colony instead of the individual bee. Honey bees, which are eusocial insects, really act together to benefit the entire colony rather than just themselves.
Image via Wikimedia Commons / Abalg
Friday, August 2, 2013
Substances in honey increase detoxification gene expression, team finds
Research in the wake of Colony Collapse Disorder, a mysterious malady afflicting (primarily commercial) honey bees, suggests that pests, pathogens and pesticides all play a role.
New research indicates that the honey bee diet influences the bees’ ability to withstand at least some of these assaults. Some components of the nectar and pollen grains bees collect to manufacture food to support the hive increase the expression of detoxification genes that help keep honey bees healthy.
The findings appear in the Proceedings of the National Academy of Sciences.
University of Illinois professor of entomology May Berenbaum, who led the study, said that many organisms use a group of enzymes called cytochrome P450 monooxygenases to break down foreign substances such as pesticides and compounds naturally found in plants, known as phytochemicals. However, honey bees have relatively few genes dedicated to this detoxification process compared to other insect species, she said.
“Bees feed on hundreds of different types of nectar and pollen, and are potentially exposed to thousands of different types of phytochemicals, yet they only have one-third to one-half the inventory of enzymes that break down these toxins compared to other species,” Berenbaum said.
Determining which of the 46 P450 genes in the honey bee genome are used to metabolize constituents of their natural diet and which are used to metabolize synthetic pesticides became a “tantalizing scientific question” to her research team, Berenbaum said.
“Every frame of honey (in the honey bee hive) is phytochemically different from the next frame of honey because different nectars went in to make the honey. If you don’t know what your next meal is going to be, how does your detoxification system know which enzymes to upregulate?” Berenbaum said.
Research had previously shown that eating honey turns on detoxification genes that metabolize the chemicals in honey, but the researchers wanted to identify the specific components responsible for this activity. To do this, they fed bees a mixture of sucrose and powdered sugar, called bee candy, and added different chemical components in extracts of honey. They identified p-coumaric acid as the strongest inducer of the detoxification genes.
“We found that the perfect signal, p-coumaric acid, is in everything that bees eat – it’s the monomer that goes into the macromolecule called sporopollenin, which makes up the outer wall of pollen grains. It’s a great signal that tells their systems that food is coming in, and with that food, so are potential toxins,” Berenbaum said.
Her team showed that p-coumaric acid turns on not only P450 genes, but representatives of every other type of detoxification gene in the genome. This signal can also turn on honey bee immunity genes that code for antimicrobial proteins.
According to Berenbaum, three other honey constituents were effective inducers of these detoxification enzymes. These components probably originate in the tree resins that bees use to make propolis, the “bee glue” which lines all of the cells and seals cracks within a hive.
“Propolis turns on immunity genes – it’s not just an antimicrobial caulk or glue. It may be medicinal, and in fact, people use it medicinally, too,” Berenbaum said.
Many commercial beekeepers use honey substitutes such as high-fructose corn syrup or sugar water to feed their colonies. Berenbaum believes the new research shows that honey is “a rich source of biologically active materials that truly matter to a bee.”
She hopes that future testing and development will yield honey substitutes that contain p-coumaric acid so beekeepers can enhance their bees’ ability to withstand pathogens and pesticides.
Although she doesn’t recommend that beekeepers “rush out and dump p-coumaric acid into their high fructose corn syrup,” she hopes that her team’s research can be used as the basis of future work aimed at improving bee health.
“If I were a beekeeper, I would at least try to give them some honey year-round,” Berenbaum said, “because if you look at the evolutionary history of Apis mellifera, this species did not evolve with high fructose corn syrup. It is clear that honey bees are highly adapted to consuming honey as part of their diet.”
Read more at http://scienceblog.com/65330/substances-in-honey-increase-detoxification-gene-expression-team-finds/#lQQFHftritFxzZwm.99
New research indicates that the honey bee diet influences the bees’ ability to withstand at least some of these assaults. Some components of the nectar and pollen grains bees collect to manufacture food to support the hive increase the expression of detoxification genes that help keep honey bees healthy.
The findings appear in the Proceedings of the National Academy of Sciences.
University of Illinois professor of entomology May Berenbaum, who led the study, said that many organisms use a group of enzymes called cytochrome P450 monooxygenases to break down foreign substances such as pesticides and compounds naturally found in plants, known as phytochemicals. However, honey bees have relatively few genes dedicated to this detoxification process compared to other insect species, she said.
“Bees feed on hundreds of different types of nectar and pollen, and are potentially exposed to thousands of different types of phytochemicals, yet they only have one-third to one-half the inventory of enzymes that break down these toxins compared to other species,” Berenbaum said.
Determining which of the 46 P450 genes in the honey bee genome are used to metabolize constituents of their natural diet and which are used to metabolize synthetic pesticides became a “tantalizing scientific question” to her research team, Berenbaum said.
“Every frame of honey (in the honey bee hive) is phytochemically different from the next frame of honey because different nectars went in to make the honey. If you don’t know what your next meal is going to be, how does your detoxification system know which enzymes to upregulate?” Berenbaum said.
Research had previously shown that eating honey turns on detoxification genes that metabolize the chemicals in honey, but the researchers wanted to identify the specific components responsible for this activity. To do this, they fed bees a mixture of sucrose and powdered sugar, called bee candy, and added different chemical components in extracts of honey. They identified p-coumaric acid as the strongest inducer of the detoxification genes.
“We found that the perfect signal, p-coumaric acid, is in everything that bees eat – it’s the monomer that goes into the macromolecule called sporopollenin, which makes up the outer wall of pollen grains. It’s a great signal that tells their systems that food is coming in, and with that food, so are potential toxins,” Berenbaum said.
Her team showed that p-coumaric acid turns on not only P450 genes, but representatives of every other type of detoxification gene in the genome. This signal can also turn on honey bee immunity genes that code for antimicrobial proteins.
According to Berenbaum, three other honey constituents were effective inducers of these detoxification enzymes. These components probably originate in the tree resins that bees use to make propolis, the “bee glue” which lines all of the cells and seals cracks within a hive.
“Propolis turns on immunity genes – it’s not just an antimicrobial caulk or glue. It may be medicinal, and in fact, people use it medicinally, too,” Berenbaum said.
Many commercial beekeepers use honey substitutes such as high-fructose corn syrup or sugar water to feed their colonies. Berenbaum believes the new research shows that honey is “a rich source of biologically active materials that truly matter to a bee.”
She hopes that future testing and development will yield honey substitutes that contain p-coumaric acid so beekeepers can enhance their bees’ ability to withstand pathogens and pesticides.
Although she doesn’t recommend that beekeepers “rush out and dump p-coumaric acid into their high fructose corn syrup,” she hopes that her team’s research can be used as the basis of future work aimed at improving bee health.
“If I were a beekeeper, I would at least try to give them some honey year-round,” Berenbaum said, “because if you look at the evolutionary history of Apis mellifera, this species did not evolve with high fructose corn syrup. It is clear that honey bees are highly adapted to consuming honey as part of their diet.”
Read more at http://scienceblog.com/65330/substances-in-honey-increase-detoxification-gene-expression-team-finds/#lQQFHftritFxzZwm.99
Saturday, July 13, 2013
Rakyat disaran rebut peluang industri lebah - Ismail Sabri
ISMAIL Sabri Yaakob (dua dari kanan) dan Mustafa Kamal Baharuddin (tiga dari kanan) melihat kaedah mengeluarkan madu dari sarang lebah ketika melawat gerai jualan di Pusat Pertanian Parit Botak, Batu Pahat, Johor, semalam. - BERNAMA
BATU PAHAT 27 Jun - Kementerian Pertanian dan Industri Asas Tani menyarankan masyarakat dan usahawan tani supaya menceburi industri lebah bagi mengurangkan jumlah import madu.
Menterinya, Datuk Seri Ismail Sabri Yaakob berkata, rakyat perlu merebut peluang untuk melabur dalam industri berkenaan kerana permintaannya semakin meningkat apabila setiap produk kesihatan, perubatan dan kosmetik menggunakan madu lebah.
Menurutnya, bagi memenuhi permintaan madu sebelum ini, negara perlu mengimportnya dari China, New Zealand dan Australia dengan nilai mencecah RM27 juta pada 2010 dan jumlah itu dijangka melonjakkan sehingga RM50 juta pada tahun ini.
"Sebab itu, kerajaan mahu rakyat menceburi industri lebah supaya mereka dapat menikmati hasilnya yang bukan sahaja daripada madu, sebaliknya produk hiliran yang turut mendapat permintaan tinggi.
"Untuk menarik minat rakyat, kementerian akan menyediakan satu pakej khas yang terdiri daripada latihan, pinjaman, sumbangan peralatan dan pemasaran produk di dalam dan luar nagara," katanya selepas merasmikan Hari Ladang Lebah di Pusat Pertanian Parit Botak, di sini hari ini.
Yang turut hadir ialah Pengerusi Jawatankuasa Pertanian dan Industri Asas Tani negeri, Ismail Mohamed dan Ketua Pengarah Pertanian, Datuk Mustafa Kamal Baharuddin.
Ismail Sabri berkata, pihaknya juga akan melakukan perbincangan dengan Agro Bank dan Tabung Ekonomi Kumpulan Usaha Niaga (TEKUN) untuk menyediakan pinjaman kepada usahawan lebah yang baharu.
Beliau memberitahu, bagi melahirkan usahawan baharu itu, Jabatan Pertanian ditugaskan untuk menyemai minat masyarakat terhadap bidang berkenaan.
"Jabatan Pertanian akan membuat kajian tentang minat usahawan baharu. Malah, mereka juga perlu membuat tinjauan bagi memperbesarkan lagi industri yang dijalankan usahawan sedia ada.
"Pada masa akan datang, kementerian akan menghantar pegawai Jabatan Pertanian untuk mengikuti kursus di negara pengeksport madu lebah supaya kita juga mahir dalam industri tersebut," katanya.
Artikel Penuh: http://www.utusan.com.my/utusan/Dalam_Negeri/20130628/dn_08/Rakyat-disaran-rebut-peluang-industri-lebah---Ismail-Sabri#ixzz2Yw4mEct9
© Utusan Melayu (M) Bhd
Monday, June 10, 2013
MARDI kumpul 30 spesies kelulut
Oleh Mohd Sabran Md Sani
Di Malaysia terdapat kira-kira 30 spesies kelulut dan kebanyakannya ditemui di kawasan hutan.
Berbanding lebah yang hanya menghasilkan madu, kelulut begitu unik kerana mengeluarkan tiga produk madu iaitu bebola madu, propolis dan pollen (debunga).
Melihat kepada pasaran madu kelulut, harganya mampu mencecah RM120 sebotol bagi 350 mililiter, sedangkan madu biasa dijual RM30 dalam kuantiti sama.
Pegawai Penyelidik MARDI, Mohd Fahimee Jaapar berkata, pihaknya giat mengumpulkan spesies kelulut di seluruh negara.
“Pada mulanya, kelulut digunakan MARDI sebagai agen pendebungaan. Kita mahu pokok yang ditanam berbuah dengan adanya agen pendebungaan iaitu kelulut. Bagi kami, pendebungaan adalah hasil pertama manakala madu dan propolis hasil kedua.
“Pemikiran bagi kebanyakan orang kampung, lebah kelulut tidak mempunyai madu, tetapi kajian mendapati serangga itu mengeluarkan madu setanding madu lebah,” katanya.
Semua spesies kelulut dikumpulkan sejak 2007 dan kini diternak di dua kawasan khas di MARDI iaitu di Bahagian Pendebungan dan kebun buah-buahan.
“Ada 15 spesies lebah kelulut dikumpulkan dan hanya dua spesies yang dikomersialkan iaitu jenis ‘Trigona Itama’ dan ‘Trigona Thoracica’,” katanya.
Mohd Fahimee dibantu rakan setugas iaitu Penolong Pegawai Penyelidik, Zulidzham Mohd Sani dan Pembantu Penyelidik Kanan, Hamdan Sipon.
Beliau berkata, hasil kajian dilakukan mendapati kelulut menghasilkan ‘ramuan’ untuk perubatan alternatif.
“Kelulut banyak ditemui di kawasan kampung terutama di negeri yang mempunyai pokok rambutan tua seperti di Melaka, Perak, Kedah dan Kelantan.
“Penebangan hutan secara berleluasa turut menyebabkan penghijrahan spesies terbabit ke kawasan kampung,” katanya.
Menurutnya, sarang kelulut dipindahkan dari tempat asalnya dalam batang kayu ke dalam kotak kayu buatan dan diternak di lapangan.
“Anak kelulut dimasukkan ke dalam kotak khas bagi menghasilkan madu.
“Setakat ini, lebah kelulut yang diternak menghasilkan propolis, pollen dan madu,” katanya.
Katanya, kelulut tidak menyengat, namun serangga itu hanya menyerang orang pertama yang mendekatinya.
“Kelulut sama dengan lebah yang akan mengeluarkan ‘feromon’. Ketika ada bahaya, seekor lebah akan mengeluarkan sejenis bahan kimia dikenali feromon untuk memanggil rakannya.
“Bau berkenaan biasanya akan ditinggalkan pada musuh pertama, namun jika ramai, semua akan diserang,” katanya.
Menurutnya, setiap spesies kelulut menghasilkan bentuk sarang berbeza.
“Sistem lebah kelulut unik kerana setiap sarang akan ada tiang. Tiang ini dibina daripada propolis atau damar. Penutup sarang yang terdapat dalam koloni terbabit digunakan sebagai pertahanan diri,” katanya.
Katanya, madu kelulut mempunyai lebih antioksidan.
“Kelulut mengeluarkan propolis yang mengandungi antibiotik semula jadi, antimikrob, antifungus dan antikanser.
“Sebab itu sarangnya tidak ada fungus. Ini kerana kelulut menggunakan resin daripada pokok, diproses di dalam badannya bagi mencegah pembiakan mikrob,” katanya.
Kajian di MARDI menunjukkan madu kelulut mempunyai asid fenilpropanaoik, asid protocatechuik dan asid 4-hidroksifenilasetik yang tergolong dalam kumpulan asid fenolik bebas.
“Ia boleh bertindak sebagai antikanser, antitumor dan antioksidan untuk diserap dalam tubuh manusia.
“Selain berupaya menurunkan glukosa, mengurangkan kerosakan fungsi ginjal dan meningkatkan ketebalan trabekular tulang yang menguatkan tulang melalui penyerapan,” katanya.
Kajian mendapati, kelulut boleh melakukan pendebungaan di Rumah Hijau berbanding lebah.
Katanya, perancangan masa depan, Bahagian Mekanisasi dan Automasi MARDI membantu untuk mengeluarkan mesin penyedut madu yang fleksibel dan mudah alih.
MARDI juga akan menawarkan kursus penternakan kelulut kepada orang ramai yang berminat untuk terbabit dalam industri itu.
“Bagi mereka yang mahu menternak kelulut, Unit Promosi dan Teknologi Mardi menawarkan kursus jangka pendek selama dua hari termasuk makan dan minum dengan kos RM600.
“Ia membabitkan 30 peratus teori dan selebihnya amali termasuk mengajar cara membelah kayu bagi memasukkan anak kelulut ke dalam kotak,” katanya.
Katanya, ada peserta kursus memperoleh pendapatan kira-kira RM10,000 sebulan dengan menternak kelulut secara komersial.
“Biasanya harga bagi sebatang kayu mengandungi anak kelulut dijual kepada penternak sekitar RM200 manakala kelulut di dalam kotak pula dijual sekitar RM500 hingga RM700.
“Bagaimanapun kebanyakan penternak mendapatkan bekalan anak daripada pembalak dan harganya lebih rendah,” katanya.
Tidak ramai menyedari, lebah kelulut mampu mendatangkan pendapatan lumayan walaupun serangga itu gemar menjadikan batang pokok sebagai habitat semula jadinya.
Kelulut sering disamakan dengan spesies penyengat tetapi ia mempunyai nilai tinggi dalam pengeluaran madu berkualiti yang kaya dengan antioksidan.
Khasiat madu kelulut dikatakan dapat meningkatkan metabolisme badan, menambahkan tenaga batin, menjaga kecantikan, memberi tenaga kepada wanita yang baru bersalin dan membantu merawat kecederaan dalaman.
Madu kelulut juga memperlahankan pertumbuhan sel kanser, mengecutkan keradangan dan meningkatkan daya imunisasi tubuh.
Madu kelulut juga memperlahankan pertumbuhan sel kanser, mengecutkan keradangan dan meningkatkan daya imunisasi tubuh.
KELULUT menghasilkan tiga jenis madu iaitu madu (kiri), propolis dan pollen.
Khasiatnya dalam dunia perubatan memang banyak malah ujian turut dilakukan penyelidik Institut Penyelidikan dan Kemajuan Pertanian Malaysia (MARDI) dan Universiti Sains Malaysia (USM).
Di Malaysia terdapat kira-kira 30 spesies kelulut dan kebanyakannya ditemui di kawasan hutan.
Berbanding lebah yang hanya menghasilkan madu, kelulut begitu unik kerana mengeluarkan tiga produk madu iaitu bebola madu, propolis dan pollen (debunga).
Melihat kepada pasaran madu kelulut, harganya mampu mencecah RM120 sebotol bagi 350 mililiter, sedangkan madu biasa dijual RM30 dalam kuantiti sama.
Pegawai Penyelidik MARDI, Mohd Fahimee Jaapar berkata, pihaknya giat mengumpulkan spesies kelulut di seluruh negara.
“Pada mulanya, kelulut digunakan MARDI sebagai agen pendebungaan. Kita mahu pokok yang ditanam berbuah dengan adanya agen pendebungaan iaitu kelulut. Bagi kami, pendebungaan adalah hasil pertama manakala madu dan propolis hasil kedua.
“Pemikiran bagi kebanyakan orang kampung, lebah kelulut tidak mempunyai madu, tetapi kajian mendapati serangga itu mengeluarkan madu setanding madu lebah,” katanya.
Semua spesies kelulut dikumpulkan sejak 2007 dan kini diternak di dua kawasan khas di MARDI iaitu di Bahagian Pendebungan dan kebun buah-buahan.
“Ada 15 spesies lebah kelulut dikumpulkan dan hanya dua spesies yang dikomersialkan iaitu jenis ‘Trigona Itama’ dan ‘Trigona Thoracica’,” katanya.
Mohd Fahimee dibantu rakan setugas iaitu Penolong Pegawai Penyelidik, Zulidzham Mohd Sani dan Pembantu Penyelidik Kanan, Hamdan Sipon.
Beliau berkata, hasil kajian dilakukan mendapati kelulut menghasilkan ‘ramuan’ untuk perubatan alternatif.
“Kelulut banyak ditemui di kawasan kampung terutama di negeri yang mempunyai pokok rambutan tua seperti di Melaka, Perak, Kedah dan Kelantan.
“Penebangan hutan secara berleluasa turut menyebabkan penghijrahan spesies terbabit ke kawasan kampung,” katanya.
Menurutnya, sarang kelulut dipindahkan dari tempat asalnya dalam batang kayu ke dalam kotak kayu buatan dan diternak di lapangan.
“Anak kelulut dimasukkan ke dalam kotak khas bagi menghasilkan madu.
“Setakat ini, lebah kelulut yang diternak menghasilkan propolis, pollen dan madu,” katanya.
Katanya, kelulut tidak menyengat, namun serangga itu hanya menyerang orang pertama yang mendekatinya.
“Kelulut sama dengan lebah yang akan mengeluarkan ‘feromon’. Ketika ada bahaya, seekor lebah akan mengeluarkan sejenis bahan kimia dikenali feromon untuk memanggil rakannya.
“Bau berkenaan biasanya akan ditinggalkan pada musuh pertama, namun jika ramai, semua akan diserang,” katanya.
Menurutnya, setiap spesies kelulut menghasilkan bentuk sarang berbeza.
“Sistem lebah kelulut unik kerana setiap sarang akan ada tiang. Tiang ini dibina daripada propolis atau damar. Penutup sarang yang terdapat dalam koloni terbabit digunakan sebagai pertahanan diri,” katanya.
Katanya, madu kelulut mempunyai lebih antioksidan.
“Kelulut mengeluarkan propolis yang mengandungi antibiotik semula jadi, antimikrob, antifungus dan antikanser.
“Sebab itu sarangnya tidak ada fungus. Ini kerana kelulut menggunakan resin daripada pokok, diproses di dalam badannya bagi mencegah pembiakan mikrob,” katanya.
Kajian di MARDI menunjukkan madu kelulut mempunyai asid fenilpropanaoik, asid protocatechuik dan asid 4-hidroksifenilasetik yang tergolong dalam kumpulan asid fenolik bebas.
“Ia boleh bertindak sebagai antikanser, antitumor dan antioksidan untuk diserap dalam tubuh manusia.
“Selain berupaya menurunkan glukosa, mengurangkan kerosakan fungsi ginjal dan meningkatkan ketebalan trabekular tulang yang menguatkan tulang melalui penyerapan,” katanya.
Kajian mendapati, kelulut boleh melakukan pendebungaan di Rumah Hijau berbanding lebah.
Katanya, perancangan masa depan, Bahagian Mekanisasi dan Automasi MARDI membantu untuk mengeluarkan mesin penyedut madu yang fleksibel dan mudah alih.
MARDI juga akan menawarkan kursus penternakan kelulut kepada orang ramai yang berminat untuk terbabit dalam industri itu.
“Bagi mereka yang mahu menternak kelulut, Unit Promosi dan Teknologi Mardi menawarkan kursus jangka pendek selama dua hari termasuk makan dan minum dengan kos RM600.
“Ia membabitkan 30 peratus teori dan selebihnya amali termasuk mengajar cara membelah kayu bagi memasukkan anak kelulut ke dalam kotak,” katanya.
Katanya, ada peserta kursus memperoleh pendapatan kira-kira RM10,000 sebulan dengan menternak kelulut secara komersial.
“Biasanya harga bagi sebatang kayu mengandungi anak kelulut dijual kepada penternak sekitar RM200 manakala kelulut di dalam kotak pula dijual sekitar RM500 hingga RM700.
“Bagaimanapun kebanyakan penternak mendapatkan bekalan anak daripada pembalak dan harganya lebih rendah,” katanya.
Sperm Banks For Bees Help Preserve Biodiversity And Create New Breeds
Image Credit: Thinkstock.com
Brett Smith for redOrbit.com – Your Universe Online
Beekeepers around the United States have been experiencing an unusually high level of colony die-off and a group of Washington State University (WSU) researchers has just announced a plan to preserve the survival and biodiversity of honey bee colonies by creating a sperm bank for the tiny insects.
Using liquid nitrogen to preserve their samples, the WSU scientists said they will begin to collect bee semen from colonies across the US and Europe. They also say they plan to use these samples to produce more diverse, resilient honey bee subspecies.
According to Steve Sheppard, professor of entomology at WSU, bees face threats from invasive mites, pesticides and the agricultural practice of monoculture that offers little of the nutritional variety that bees need. Experts say that a combination of these factors typically plays a major role in a colony’s collapse.
In 1922, UK entomologists identified tracheal mites as the likely cause of widespread bee deaths on England’s Isle of Wight, causing the US to restrict the importation of live honey bees. Today, entomologists say the import ban has resulted in a limited honey bee gene pool.
“Honey bees, Apis mellifera, have 28 recognized subspecies – in Europe, Africa, and Asia, the general vicinity of where honey bees are thought to have originated,” said Sheppard.
Many entomologists have said these subspecies could be used to breed bees that are resistant to deadly mites or the effects of a limited diet.
In 2008, the USDA permitted WSU researchers to import honey bee semen for breeding purposes after the samples had passed a strict screening test for viruses.
Because beekeepers in different US climate zones have different demands of their bees, Sheppard and his colleagues identified three different subspecies for import. Southern beekeepers often want fast-breeding bees to provide pollination for early-blooming crops, while northern beekeepers want slow-breeding bees since young bees are susceptible to sudden cold snaps that often happen in the spring.
For warm-weather beekeepers, the WSU team collected semen from Italian bees, which are bred for that country’s more temperate climate. Sheppard and colleagues collected semen from Carniolan bees of the eastern Alps and Caucasian bees from the nation of Georgia for northern beekeepers.
According to WSU researcher Susan Cobey, applying a small amount of pressure to a mature drone’s abdomen will release the semen, which can then be collected in a syringe. The semen will remain viable at room temperature for up to 14 days, giving the team plenty of time to either freeze the sample or inseminate a queen.
While the WSU researchers are putting years of planning and work into their effort to boost bee biodiversity, some scientists say bees’ contribution to pollination and, therefore, to agriculture in general has been overstated.
According to the Keith S. Delaplane, a professor of entomology at the University of Georgia, the phrase “honey bees are responsible for every third bite of food we eat” is an example of “hyperbole” regarding the role of honey bees in agricultural pollination.
“I suspect that even in 1976 this estimate was generous and applicable only to the most affluent economies where hay-powered beef and dairy products, oilseeds, and fruits make up a significant fraction of the diet,” he said.
A recent analysis by the UN’s Food and Agriculture Organization (FAO) found that about 5 to 8 percent of global food production is attributable to animal pollination.
Source: Brett Smith for redOrbit.com - Your Universe Online
Tuesday, June 4, 2013
Killer Bee Attack: Science Explains Man's Death
Africanized honey bees, aka "killer bees," have spread throughout the southern United States.
CREDIT: Simon_g | Shutterstock.com
A Texas man died after being attacked by a swarm of Africanized honeybees, sometimes called "killer bees."
Larry Goodwin, 62, was driving a tractor near his home south of Waco when he disturbed a pile of wood that contained a hive of the notoriously aggressive bees; eight people have been killed by the bees since 1990, the Waco Tribunereports.
"You can't believe how bad they are. They make me want to get out of this business," Allen Miller, owner of Bees Be Gone, who later destroyed the hive, told the Tribune. [Image Gallery: Honeybee Scouts Find Food]
"They can get up under your clothes where no other insect can go," Miller said. "In a hive of ordinary European bees, about 10 percent will attack if the hive is threatened, but with African bees, all of them attack you."
Eight to 10 stings per pound of body weight are considered lethal, according to the Texas Agricultural Extension Service. Goodwin's family members told KCENTV.com that there was no part of his body that was not covered in bee stings.
When science goofs
T
he introduction of Africanized honeybees into the Western Hemisphere was the result of a scientific experiment gone awry, according to a Texas A&M University report.
In 1956, Warwick Kerr, a honeybee geneticist with the University of São Paulo, Brazil, imported African bees (Apis mellifera scutellata) to study. His intention was to selectively introduce traits such as disease resistance and faster reproductive rate into native honeybees.
But a handful of the African bees escaped into the wild, where they interbred with native bees to produce bees with traits primarily derived from their dominant African forbearers (traits of the more docile native bees tended to be recessive and therefore lost), leading to the term "Africanized honey bees." [Sting, Bite & Destroy: Nature's 10 Biggest Pests]
The bees spread rapidly from Brazil and are now found throughout South and Central America. Hives have been reported in the United States in Florida and across the South and Southwest into Southern California.
If attacked, run
Though the bees aren't predatory, they become very aggressive when defending their hive, and minor disturbances like a lawn mower or a moving car — even as far away as 100 feet (30 meters) — can trigger an attack.
And Africanized honeybees aren't picky about where they build a hive. Old tires, junk piles, building eaves, cement blocks, upturned flower pots and even empty soda cans have been occupied by the bees, according to the U.S. Department of Agriculture.
In the event of a bee attack, victims are advised to run as fast as they can toward an enclosed area like a car or building; even though some bees will follow, most will be shut out.
Protect your face and head as much as possible from stings by covering your head with a shirt or jacket. And do not jump into water (such as a swimming pool) to escape the bees — they will wait at the surface for their victim to come up for air, according to Texas A&M University.
Stings from Africanized honeybees aren't more venomous than stings from native honeybees, but victims tend to be stung dozens or hundreds of times.
Goodwin, who was reportedly stung more than 1,000 times, was pronounced dead at the scene. A woman and her daughter who tried to help were also hospitalized with dozens of stings, KCENTV.com reported; firefighters who responded to a 911 call were also attacked.
One redeeming quality
Researchers have noticed that Africanized honeybees seem to be isolated in their current range by temperature and rainfall, according to the USDA.
They cannot survive a cold winter, and they seem to dislike steady, year-long rainfall. "Rainfall over 55 inches, distributed evenly throughout the year, is almost a complete barrier to [Africanized honey bee] spread," entomologist José D. Villa of the Honey Bee Breeding, Genetics and Physiology Research Unit in Baton Rouge, La., told Agricultural Research magazine..
While attacks by the bees remain very rare, Miller told KCENTV.com that he's seen at least five cases of Africanized hives in the past month, more than he usually sees all year.
As loathed as they are, the Africanized bees might have one redeeming quality: They could hold the key to solving the problem of bee colony collapse disorder, a deadly syndrome that's wiping out native bee populations throughout North America and Europe.
Though the Africanized bees can carry the Varroa mites that have been implicated in colony collapse disorder, they have considerable resistance to the mites, unlike native honeybees. If researchers could isolate the trait that gives the Africanized bees their resistance, they may be able to save native honeybee populations.
Follow Marc Lallanilla on Twitter and Google+. Follow us @livescience, Facebook & Google+. Original article on LiveScience.com.
Sunday, May 12, 2013
Third of US honey bees killed last winter, threatening food supply
Shutterstock
Nearly one in three commercial honeybee colonies in the United States died or disappeared last winter, an unsustainable decline that threatens the nation's food supply.
Multiple factors -- pesticides, fungicides, parasites, viruses and malnutrition -- are believed to cause the losses, which were officially announced today by a consortium of academic researchers, beekeepers and Department of Agriculture scientists.
"We're getting closer and closer to the point where we don't have enough bees in this country to meet pollination demands," said entomologist Dennis vanEngelstorp of the University of Maryland, who led the survey documenting the declines.
Beekeepers lost 31 percent of their colonies in late 2012 and early 2013, roughly double what's considered acceptable attrition through natural causes. The losses are in keeping with rates documented since 2006, when beekeeper concerns prompted the first nationwide survey of honeybee health. Hopes raised by drops in rates of loss to 22 percent in 2011-2012 were wiped out by the new numbers.
The honeybee shortage nearly came to a head in March in California, when there were barely enough bees to pollinate the almond crop.
Had the weather not been ideal, the almonds would have gone unpollinated -- a taste, as it were, of a future in which honeybee problems are not solved.
"If we want to grow fruits and nuts and berries, this is important," said vanEngelstorp. "One in every three bites [of food consumed in the US] is directly or indirectly pollinated by bees."
Scientists have raced to explain the losses, which fall into different categories. Some result from what's called colony collapse disorder, a malady first reported in 2006 in which honeybees abandon their hives and vanish. Colony collapse disorder, or CCD, subsequently became a public shorthand for describing bee calamities.
Most losses reported in the latest survey, however, don't actually fit the CCD profile. And though CCD is largely undocumented in western Europe, honeybee losses there have also been dramatic. In fact, CCD seems to be declining, even as total losses mount. The honeybees are simply dying.
"Even if CCD went away, we'd still have tremendous losses," said entomologist Diana Cox-Foster at Pennsylvania State University. "CCD losses are like the straw that breaks the camel's back. The system has many other issues."
Studying these issues isn't easy. In real-world agricultural settings, it's hard to run the rigorous, every-last-variable-controlled experiments on which definitive conclusions are founded. These experiments can be run in labs and small-scale test fields, but whether those accurately reflect real-world complexity is debated.
Amidst the uncertainties, scientific attention has settled on a group of culprits, the most high-profile of which is a class of pesticides known as neonicotinoids. These were developed in the 1990s, rushed to market with minimal studies of potential harms, and subsequently became the world's most-used pesticides.
In the last several years, it's become evident that neonicotinoids are extremely toxic to honeybees and, even in small, sub-lethal doses, make bees more vulnerable to disease. The European Union recently limited neonicotinoid use, and the US Environmental Protection Agency is reviewing their use.
Pesticide companies have fought the restrictions, arguing that neonicotinoids are unfairly blamed. Most non-industry scientists say the question isn't whether neonicotinoids are a problem, but where they fit into a constellation of problems.
"Different studies indicate that this class of pesticide is rather harmful to the bees," said honeybee pathologist Cédric Alaux of the French National Institute for Agricultural Research, who said the EU's restrictions are sensible. "However, we should not be too naive and think that it will solve the bee problem."
Just as important as neonicotinoids, and perhaps more so, are Varroa destructor mites. First detected in the United States in 1987, the mites weaken bees by sucking their hemolyph, the insect analogue of blood, and also transmit viruses and other parasites. A recent USDA report called Varroa "the single most detrimental pest of honey bees."
Monday, April 8, 2013
Honey bees dying on both sides of the Atlantic
by CHARLIE SMITH
DARIOS / SHUTTERSTOCK
DARIOS / SHUTTERSTOCK
The BBC’s environmental reporter, Matt McGrath, has reported that some British MPs want to ban pesticides linked to the death of honey bees.
Bees are critical in pollinating crops, and their disappearance poses a threat to food production in many countries.
Members of the British parliament’s Environmental Audit Committee want a “moratorium on the use of sprays containing neonicotinoids”, according to McGrath’s article on the BBC website.
He noted that the Conservative government has resisted supporting a European Union ban on neonicotinoids.
But the committee chair, Labour MP Joan Walley, has argued that peer-reviewed research makes it clear that there’s a serious problem.
McGrath quoted Walley’s claim that the government has been “extraordinarily complacent”.
Earlier this year, SFU bee expert Mark Winston, director of the Centre for Dialogue, told the Straight that he's writing a book that will highlight research into the various factors behind the demise of honey bee populations.
"The problem with bees is culturally and scientifically considerably more fascinating than most of us realize," Winston said in January. "It's a problem that speaks volumes about how agriculture is done. It speaks volumes about some of the hidden costs we have because of the large number of small challenges we have in our environment.”
He revealed at the time that there is a "whole array" of factors underlying the problem, including the rise of monoculture in agriculture, diseases, some beekeeping practices, and the large number of pesticides.
"It's not going to go away until we change the way we keep bees—and to change the way we keep bees, we have to also be simultaneously changing the way we do agriculture,” Winston declared.
Friday, February 22, 2013
Charged bees can sense electric flower fields
Positively charged bees are able to recognise electric signals given off by flowers as part of the plant pollination strategy.
The electrical signalling works in tandem with other signs such as colour, pattern and fragrance to tell bumblebees (and other insect pollinators) about the amount of nectar and pollen they may contain.
"This novel communication channel reveals how flowers can potentially inform their pollinators about the honest status of their precious nectar and pollen reserves" said co-author Heather Whitney of the University of Bristol.
Generally the flowers are negatively charged and generate a weak electric field while the bees become positively charged as they fly around -- the study suggests the charge can build to around 200 volts. The sensation felt by a positive bee meeting a negative plant can be enough to convey snippets of information while its absence could reveal whether the flower has recently hosted another insect.
The biologists noted that not only could the bumblebees tell the difference between various floral electric fields, but when learning to tell two colours apart having an electric field involved sped up the process.
"The co-evolution between flowers and bees has a long and beneficial history, so perhaps it's not entirely surprising that we are still discovering today how remarkably sophisticated their communication is," said Daniel Robert, who also worked on the study. He also stressed how a bee's intelligence made it necessary for the flowers to develop an effective communication strategy: "bees are good learners and would soon lose interest in such unrewarding flowers".
The exact mechanics by which the bees detect these electrical variations is not fully understood, although the explanation favoured by the researchers is that coming near the charged flowers causes the bees' fur to "bristle", like when you hold the back of your hand a couple of millimetres from an old TV screen.
Image: Laurent Jégou / CC BY ND 2.0
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