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BIOLOGI LAUT Ocean Productivity.

Diterbitkan olehYandi Sanjaya Telah diubah "6 tahun yang lalu

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Presentasi berjudul: "BIOLOGI LAUT Ocean Productivity."— Transcript presentasi:

1 BIOLOGI LAUT Ocean Productivity

2 Mengapa Penting ? Kehidupan dilaut sangat terkait erat dengan variasi temporal dan spasial dari produktivitas primer

3 Pengertian Produktivitas Primer adalah laju pembentukan senyawa-senyawa organik yang kaya energi dari senyawa-senyawa anorganik. Jumlah seluruh bahan organik yang terbentuk dalam proses produksivitas dinamakan produksi primer kotor, atau produksi total Produksi primer bersih adalah istilah yang digunakan bagi jumlah sisa produksi primer kotor setelah sebagian digunakan untuk respirasi.

4 Produksi primer kotor maupun bersih pada umumnya dinyatakan dalam jumlah gram karbon (C) yang terikat per satuan luas atau volume air laut per interval waktu. Jadi, produksi dapat dilaporkan sebagai jumlah gram karbon per m2 per hari (gC/m2/hari)

5 Photosynthesis What is photosynthesis? What are autotrophs?
6CO2 + 6H2O → C6H12O6 + 6O2 Solar energy Fig. 4.5 new organic compounds Solar energy powers the reaction Carbon dioxide and water used to make glucose Oxygen gas is released as a by-product inorganic materials

6 Fotosintesis Merupakan suatu proses biokimia untuk memproduksi energi terpakai (nutrisi) dengan memanfaatkan energi cahaya. Hampir semua makhluk hidup bergantung dari energi yang dihasilkan dalam fotosintesis. 12H2O + 6CO2 + cahaya → C6H12O6 (glukosa) + 6O2+ 6H2O

7 Respirasi Respirasi adalah suatu proses pengambilan O2 untuk memecah senyawa-senyawa organik menjadi CO2, H2O dan energi. C6H12O6 + O  6CO2 + H2O + energi

8 biological pyramid

9 Sources of marine production
Sekitar 90% dari produksi primer berasal dari phytoplankton (oceanic and coastal) Macroalgae menyumbang sekitar 5% Sisanya berasal dari beberapa sumber seperti mangroves, reef algae, seagrasses, marsh plants

10 Faktor Pembatas Produktivitas Primer
1) Light 2) Temperature 3) Nutrients a. Phosphorous-phosphates b. Nitrogen- ammonia, nitrate, nitrite c. Potassium 4) Dissolved gases - carbon dioxide and oxygen

11 Cahaya Lautan meliputi 71% dari permukaan bumi, Tetapi sebagian besar mempunyai kedalaman >1km Hampir semua produksi terjadi di continental shelf waters < 200 m deep (only 7-8% of ocean)

12 Available light levels fall rapidly with depth
Longer wavelengths absorbed at surface Photosynthesis restricted to upper water column in turbid coastal areas

13 Compensation depth Kedalaman dimana laju fotosintesis sama dengan laju respirasi Perairan dangkal mengandung banyak cahaya, sehingga fotosintesis lebih besar daripada respirasi Perairan dalam mempunyai sedikit cahaya sehingga respirasi lebih besar dari pada fotosintesis

14 Temperature In addition to light levels, temperature also decreases with depth Formation of thermocline Thermocline shifts seasonally depending on wind stress

15 Thermoklin

16 Nutrient limitation Stratification prevents plankton from sinking below compensation depth, but also prevents nutrient transfer up from deep waters Leads to seasonal and spatial variation in production

17 Spatial and temporal variation in primary productivity
Climate variation (temp, winds) leads to latitudinal variation in production Different seasonal patterns at temperate, polar, and tropical latitudes

18 Regional productivity

19 POLAR Availability of sunlight
High nutrients due to upwelling of North Atlantic Deep Water – No thermocline – No barrier to vertical mixing Blue whales migrate to feed on maximum zooplankton productivity

20 Winter darkness Summer sunlight Phytoplankton (diatoms) bloom Zooplankton (mainly small crustaceans) productivity follows Example Arctic Ocean

21 Tropical Permanent thermocline is barrier to vertical mixing

22 Low rate of primary productivity (lack of nutrients)
High primary productivity in areas of Equatorial upwelling Coastal upwelling Coral reefs – Symbiotic algae – Recycle nutrients within the ecosystem

23 Temperate

24 Limited by both available sunlight and available nutrients
Highly seasonal pattern

25 Marine Primary Production
• Production is highest in continental margins and shallow seas, because – Upwelling transports nutrients to the surface – Nutrient runoff from land

26

27 Fate of primary production
About 90% of surface biomass decomposed in surface ocean About 10% sinks to deeper ocean Only 1% organic matter not decomposed in deep ocean Biological pump (CO2 and nutrients to sea floor sediments)

28 Metode Pengukuran

29

30 14C Method Now primary productivity is measured using radioactive carbon (14C) Paired light and dark bottles are injected with a known quantity of bicarbonate containing labeled 14C Amount of assimilated radioactive carbon is measured and net primary productivity is then computed using a conversion factor This method is much more accurate than the oxygen measurements, particularly when the productivity is very low

31 Next Week Topic Kehidupan di Laut : Food Chain dan Food Web

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