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Selamat datang di situs Boyzforum yang diarsipkan oleh Queer Indonesia Archive. Forum untuk komunitas gay Indonesia yang populer ini didirikan pada tahun 2003, dan ditutup pada tanggal 15 Desember 2020.
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Forum ini diabadikan untuk kepentingan sejarah. Tidak akan ada konten baru di forum ini. Silakan menikmati forum ini sebagai potongan dari sejarah queer Indonesia.
Aquascaping: from beginner to advance hobbyist
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Air yang berbuih kan sudah pernah gw jelasin waktu kita chat di YM. Jadi kalau ammonia tinggi, airnya berubah jadi kental dan kalau ada gelembung udara akan terperangkap di bawah permukaan air, nggak langsung pecah. Gw kan top-up nya (nambahin air untuk mengganti penguapan) pakai botol, jadi waktu dituang ada gelembung yang ikut masuk tank dong. Nah gelembung itulah yang tertahan di permukaan jadi semacam buih. Hal yang sama bisa terjadi kalau ada gelembung CO2/udara dari aerator.
Mmm masi kepikiran ama red lotus yg di mol itu, cmn kok sek mahal-e..
Dan kayaknya di kantor baru jg gak memungkinkan utk taruh tank, hiks..
Tank & equipment:
Lighting scheme:
Seperti terlihat, dia pakai low dulu, baru high, terus low lagi, dan ada 'evening light'-nya segala.
Ini yang nanya George Farmer jadul sebelum sengetop sekarang:
Quote:
Originally Posted by George
Beautiful in all aspects.
What I find particularly interesting is your lighting schedule. I currently run an "algae gap" of 2 hours with 5 hours either side i.e. 5 on, 2 off, 5 on but am sceptical as to its usefulness in keeping algae away (I have no nuisance algae anyway).
Is there any science behind your lighting schedule method, except I suppose that it mimicks nature more closely than just lights on/off?
Ini jawabannya yang punya tank:
Hello George,
First, I don't want to start a war here. There is much discussion how light should be used etc.
There are a few basis points :
- 9 hours of light is enough to grow plants
- 12 hours is ok, but not necessary
- 6 hours is too short and some species will not flourish
- plants need ferts, depending of the light and CO2. More light means more need of ferts ( and CO2). More CO2 means more need of ferts.
- CO2 will help the plant to use the available light more efficient ( 30%)...
So, CO2 is more important than more light...
first step : get your CO2 right
Around 30 mg CO2/l is optimum for plants. Some algea can't stand CO2 concentrations above 40 mg ( due to blocking some enzyme systems). Plants have problems to absorb CO2 out the water and a little "over pressure" like the 30 mg CO2/l will help them a lott.
Before I even think of tweaking the lights, I will check over and over to get the CO2 levels right!
Use of light and ferts
We now have constant CO2 concentrations ( more or less ) in the range near 30 mg CO2/l.
The plants are provided well and there isn't any shortage of CO2.
By turning on the lights, they will grow...
With low light : grow slow
With high light : grow fast
( You knew that, didn't you ?
Low light means slow absoption ( and need) of nutrients ( micro/macro). CO2 is also an nutrient, but we leave it out because we gave it a fixed value 30 mg/l.
The plant has time to get the nutrients out of the water and get it delivered from the roots > stemm > leaf.
High light means fast absorption needed ! It's like high alert. The cyclus has to be completed. If one nutrient fails, the cyclus will stop and growth will stop or slow down also or we see defeciency symptoms... We all did see that sometimes. The plant will work and grow like crazy. It's become an athlete
With the high light we're gonna face a few problems more : the internal buffer of the growing leaf will be empty in a few hours. The transport time of the nutrients coming from the roots, stemms or other parts of the plants is not fast enough to help the leaf. So the only way is to get nutrients directly out the water column ! NO3, PO4, micro's etc.
Help !
So with plenty of light available we ( I mean the tank owner) become very nervous to feed the plants correctly. Otherwise the plant will stop growing and algea will show...
We dump in KNO3, PO4, micro's, extra Iron and so on and on to keep the athlete in topshape...
Yeah, nice said PJAN, but I need high lights, to keep the plants down
Fair enough, plants grow better with high light. Some species realy flourish under high light, making beautiful red colors etc.
Both worlds matched together
Hmmmmm...
We would like to have slow absorption and beautifull colors and healthy growth.
We would like to avoid shortage of nutrients at any point during the day...
So I combine the two worlds together ( low light - high light )
In this example only 5 hours are "high" light. The other 5 hours are "low" light.
Low light : 110 W / 90 gallons = 1.2 W/G ( Shocking... )
High light : 260 W / 90 gallons = 2.9 W/G
I use very effective reflectors and cooling techniques, so the T5 lamps give more light than a normal used T5 lamp. If I correct these numbers, I would say :
Low light : 2 W/G
High light : 4 W/G ( with maximum 5 W/G)
In low light hours not much is happening, plants are growing slow. During the high light hours : massive pearling.
The trick is to tweak the number of hours of high light. 3 or 5 hours for example. With 3 hours the plants will be happy but growth is not at maximum/day. With 5 hours the plants are growing much faster.
So in short the peak will be improtant :
1) growth rate ( = pruning rate )
2) keep plants down ( not reaching towards the light)
3) high uptake of nutrients only during a short period.
The last point ( 3) is why I can keep the nutrients so low. PO4 at 0.1 mg/l.
Because the buffer is full ( due to the low light period) and the plant is not exhausted.
Also I don't have to worry too much about shortage of nutrients. If it is running very low ( e.g. 0,0) , the plants are not reacting fast or show defiencies.
Algea are not happy with this system. They have to compete with the plants.
I would ssy in my case PO4 is the limiting nutrient for the algea. As we know, most algea species can not buffer macro's ( NO3. PO4) very well. Plants do buffer much better and taking advantage of this during the high light hours.
Also a shortage isn't translated in a huge algea problem. The system runs easy and there is not 12 hours of high light available.
Ok, now you know...
Gr.PJAN
Tulisan aslinya di forum:
http://www.plantedtank.net/forums/showthread.php?t=18721&page=1
Kalau pertumbuhan mengecil, gw curiganya karena substrat loe inert, tidak mengandung nutrisi, jadi dia tumbuh dengan menggunakan cadangan dalam umbi, tapi nggak bisa mengisi umbi dengan cadangan makanan yang baru. Coba cek umbinya apa besar sehat, atau mengkerut/kosong. If so, waktunya mempertimbangkan untuk menggunakan soil yang subur.
#Ngemeng2 gw juga h2c nih sama aponogeton gw. Pertumbuhannya sekarang pesat, tapi umbinya tumbuh juga nggak ya? Soil gw kan baru, masih dalam proses mineralisasi, dan parameter gw masih naik-turun semuanya termasuk pencahayaan. Apa dia bisa berfotosintesis sempurna, tumbuh sempurna, atau sekedar pertumbuhan semu?
Kalau mau beli waterlily lagi, selalu cek umbinya, harus besar dan padat.
Emang loe mau pindah kantor?
Kalau kuras: ujung A masuk tank, ujung B ditaruh kamar mandi, keran ujung B dibuka, nyalakan power.
Kalau isi: ujung A masuk tandon (air pam gw simpan di tandon/tong plastik sebelum dipakai untuk menghilangkan kaporit), ujung B dicantolin ke kaca tank, keran ujung B dibuka, nyalakan power. Kalau tank penuh keran tinggal ditutup, matikan power.
DISCLAIMER: hati2 kalau mainan air + listrik. Sambungan elektrik jangan sampai kena air. Power plugs/semua sambungan elektrik tank (lampu, powerhead, dll) sebaiknya dipasang lebih tinggi dari tank. Kalau mau nyemplungin tangan ke dalam tank semua power dimatikan dulu. Play safe.
"U" shape pipe dibuat pakai clear pipe biasa, dilengkungkan dengan cara diisi pasir sampai padat, ujung2nya ditutup rapat, terus tengahnya dipanaskan pakai kompor supaya lunak dan bisa dilengkungkan. Waktu memanaskan pipanya diputar2 dan digoyang2 supaya panasnya rata. ATAU kalau mau keren pakai alat yang namanya pipe spring bender dan dipanaskan pakai gas torch. Hasilnya sih kurang lebih sama aja.
Kalau pipanya dipanaskan akan bisa dilengkungkan dengan mudah, nggak usah ditekuk pakai lutut. Diisi pasir/per itu gunanya supaya penampang pipa tetap circle sewaktu dipanaskan/ditekuk, nggak berubah jadi gepeng. Kalau mau bikin beberapa pipa lengkung, supaya diameter lengkungannya seragam, bisa dibantu pakai botol/kaleng aerosol atau benda lain sebagai tumpuan lengkungnya. Bikin lilypipe inlet juga bisa dilakukan dengan cara pemanasan seperti ini.
Lilypipe:
Sumber: http://www.plantedtank.net/forums/showthread.php?t=99443