เอกสารปริมาณสูงของความแปรปรวนในนิวซ

High volume document of New Zealand Chile and variation in other parts of the world (Brown et al., 1997 Buschmann et al., 2004 et al., and Graham, 2007).Previous studies have a seasonal cycle in the giant seaweed biomass, and assemble the circuit to control the environment, such as levels of nutrients, stress, temperature and interference of waves. (Clendenning 1971 Hay 1990 Jackson 1977 Reed and foster, 1984 and van Tussenbroek, 1993), however, these studies have been carried out on a local scale generally, and did not check the variation in seasonal cycle space. The population giant seaweed has been influenced by processes acting over a variety of complex space and time scale (Bell et al., in press and Ed woet, 2004). This variation has a significant impact for the wild seaweed. For example, in each year, the California fish and wildlife activity, except เนี. aerial surveys conducted amongst the seaweed in the late summer. /Early autumn so that it is consistent with the maximum period of seaweed roof. While the experience in General, Central California, maximum biomass at this time Southern California often (Figure 5). Further analysis of time-series Landsat algae biomass region (figs. 3a and 4a) indicates that between 1986 and 2009 California experienced the highest fertile biomass every year in the fall for 21 from 24 years old while the Southern California whose.Experience the highest biomass in the fall, only 4 of 24 years this strategic area of variation may lead to bias in the comparison of the regional stocks with the highest standing, seaweed, or in a regional comparison of the main production of annual net seaweed from the single measure that stands (Reed and Arkema Rassweiler 2009)The seasonal cycle, the giant seaweed affecting the ecosystem and important improvements in our understanding of seasonal changes, the giant seaweed may have important network. A giant species, the seaweed and the Foundation in Southern California where the abundance of seaweeds, Octopus spring has been shown to affect the diversity and the life of wild seaweed fiber by summer (boen et al., 2011)-giant seaweed to the formative influence of the net primary production and population changes of forest ecology in seaweeds (Reed et al, 2008).For example, the giant seaweed as food for the Red Sea, Porcupine, one species, the most important economic, living in the wild seaweed in California (Leh tons, 1971), the reproductive organs of female porcupines, the size and quality is controlled in part by the supply of foods that are harvested by fishermen before they spawn. The reproductive cycle of the Porcupine seafood in General, the following year, but like the abundant seaweed, there are a lot of complex space and time variation in spawn (Kato & Schroeter, 1985), so it's possible that spawn cycle of the porcupine is affected by sea seasonal cycle of abundant seaweed.Future climate change is likely to result in many types of phenological changes and the impact these may have been published, especially in marine and coastal ecosystems (ED woet and Richard, 2004). For example, there is evidence that the frequency of the wave is very high in the North East of the Pacific Ocean have increased in the last decades (et al, 2008, Menéndez and Ruggiero et al., 2010) this type of change undoubtedly will have a significant impact on the coastal ecosystem structure and function. Observing the world's coastal ecosystems, such as forests, giant seaweed on seasonal time scale allows researchers to track the changes. Phenological and improve our understanding of the drivers of these changes.4.2 the variance in seaweed economic medicineสภาพแวดล้อมแบบไดนามิกของชายฝั่งแคลิฟอร์เนียนำไปสู่​​การเปลี่ยนแปลงในรัฐทางสรีรวิทยาของหลังคาสาหร่ายทะเลยักษ์ตลอดทั้งปี การวิเคราะห์ธาตุของใ​​บมีดในสาหร่ายทะเล SBC แสดงให้เห็นว่าไนโตรเจนอินทรีย์ใบมีดตามรูปแบบที่คล้ายกันเป็นไนเตรตที่มีอยู่ในน้ำในขณะที่ใบมีดคาร์บอนยังคงค่อนข้างคงที่ตลอดทั้งปี (Brzezinski et al., 2013) นี้นำไปสู่​​การยกระดับ C: ยังไม่มีในช่วงฤดู​​ร้อนและฤดูใบไม้ร่วงเมื่อใบสาหร่ายจำนวนมากขาดเคล็ดลับการเจริญเติบโตของการใช้งาน, ใบมีดจะกลายเป็นเบาในสีและการลดลงของอัตราการสังเคราะห์แสง (Clendenning, 1971) เพิ่มความเข้มข้นโดยรอบ NO3 และลดลง PAR ฟลักซ์เป็นที่รู้จักกันในเชิงบวกที่มีอิทธิพลต่อความเข้มข้นของเม็ดสีสังเคราะห์ในสาหร่ายทะเลยักษ์ (เช่น Shivji, 1985) สถานะไนโตรเจนและสีของการเปลี่ยนแปลงหลังคาสาหร่ายทะเลยักษ์ฤดูกาลและอาจจะมีความผันผวนในการส่งมอบสารอาหารที่จะเก็บรักษาภายในดังนั้นจึงเป็นสิ่งสำคัญที่จะวัดชี้วัดเหล่านี้ของรัฐทางสรีรวิทยาที่ระยะเวลาที่เกี่ยวข้องกับการเปลี่ยนแปลงของสภาพแวดล้อมในท้องถิ่น วัดของเม็ดสีสีน้ำตาลและสถานะของสารอาหารที่ไม่กี่เว็บไซต์ไม่เพียงพอที่จะอธิบายรูปแบบเหล่านี้บนเครื่องชั่งน้ำหนักของความแปรปรวนส่งผลกระทบต่อสิ่งแวดล้อมประชากรสาหร่ายทะเลยักษ์การประเมิน Chl: C จากเมษายน 2013 ภาพสะท้อน AVIRIS แส​​ดงให้เห็นว่าจำนวนเงินที่สูงของความแปรปรวนเชิงพื้นที่ตั้งแต่ 0.005-0.025 มิลลิกรัม mg- 1 เป็นระยะทางประมาณ 15 กิโลเมตร (รูปที่ 6a.) สังเกตความแปรปรวนเชิงพื้นที่ตอกย้ำความสำคัญของการพัฒนาชุดช่วงเวลาของสภาพทางสรีรวิทยามากกว่าเครื่องชั่งเชิงพื้นที่และเวลาที่เหมาะสม ความแปรปรวนใน Chl: C อย่างมีนัยสำคัญและความสัมพันธ์เชิงบวกกับการเปลี่ยนแปลงในเชิงลึก ความสัมพันธ์นี้อาจบ่งชี้ว่าสภาพร่างกายสำหรับหลังคาสีน้ำตาลพื้นผิว (สูง Chl: ค่า C) อาจได้รับการปรับปรุงให้ดีขึ้นสำหรับบุคคลที่ติดอยู่กับพื้นที่ลึกของแนวปะการัง (รูป 6b.) สาหร่ายทะเลยักษ์สามารถครอบครองสภาพแวดล้อมที่แตกต่างกันของสารอาหารไม่เพียง แต่ในช่วงชั่งน้ำหนักในระดับภูมิภาค แต่ยังเหนือระดับแนวปะการังเป็น thalli กับ holdfasts ลึกอาจจะสามารถเข้าถึงจำนวนเงินที่มากขึ้นของ nitrogen.Parnell et al, (2010) พ

Document the amount of variance in New Zealand, Chile and other parts of the world (Brown et al., 1997 Buschmann et al., 2004 and Graham et al., 2007)
Previous studies have characterized the following. season in the biomass of seaweed and giant enterprises those circuits to control the environment such as nutrient levels, stress, temperature and wave interference (Clendenning 1971 Hayes 1990 Jackson 1977 kg and Foster, 1984 and van Tussenbroek. , 1993) However, these studies have been conducted generally on a local scale and did not examine the spatial variability in the seasonal cycle. Population seaweed giant influenced by processes acting over a variety of scales, spatial and time (Bell et al., In press and Edwards, 2004), this variability has important implications for policing. The kelp forest For example, each year the California Department of Fish and Wildlife has conducted aerial surveys of the Sargasso Sea in late summer / early fall to meet the peak period seaweed roof. While experienced by Central California Supreme biomass in this period, Southern California usually not (Fig. 5) The following analysis of the region Landsat algae time series biomass (Fig. 3a and 4a) show. that between 1986 and 2009 the central California experienced the highest biomass annually in the fall in the 21 to 24 years, while in southern California experienced the highest biomass. During the fall, only four of the 24-year spatial variability may lead to bias in comparison to the regional share of seaweed standing up or in a regional comparison of the main production of seaweed. of the net proceeds from the temple, standing stock (kg Rassweiler and Arkema 2009)
circuitry seasonal seaweed giant affect important ecosystem and improvements in our understanding of seasonal changes seaweed giant may have. Important Network Giant kelp species in Southern California roots and the abundance of seaweed, giant spring has been shown to affect the diversity and richness of dietary kelp forests during the season. As hot (Byrnes et al., 2011) abundance giant kelp also affect the net primary production and the changing demographics of persons in kelp forest ecosystems (Reed et al., 2008)
raised. For example, seaweed, giant food source for sea urchins Red, one of the species most important economic lives in the kelp forests of California (Leighton, 1971), the reproductive organs of female sea urchins the size and quality. Some are controlled by the supply of food that is harvested by fishermen before they spawn. The reproductive cycle of sea urchins generally follows the year. But like seaweed rich with a lot of variability, spatial and time to spawn (Kato & Schroeter, 1985), so it's possible that a spawning of sea urchins is affected by a seasonal algae. abundant
in the future climate change are likely to result in many phenological changes and the impact these may have been announced, particularly in marine and coastal ecosystems. (Edwards and Richardson, 2004), for example, there is evidence that the frequency is very high in the northeastern Pacific Ocean have increased during the past decade (Menéndez et al., 2008 and Ruggiero et al. ., 2010), this type of change will undoubtedly have a significant impact on the coastal ecosystem structure and function. The world's coastal ecosystems such as forests, giant kelp on seasonal time scales will allow researchers to track changes phenological and improve our understanding of the drivers of these changes 4.2. Variability in seaweed physiological condition dynamic environment of the California coast led to a change in the physiological state of giant kelp canopy throughout the year. Elemental analysis of the knife used in seaweed SBC shows that organic nitrogen blade following a pattern similar to the nitrate contained in the water while the blade carbon remained relatively stable. The whole year (Brzezinski et al., 2013), this leads to an elevated C: No, summer and autumn when the leaves lots of seaweed growing tips of applications. , the blade becomes lighter in color and a reduction in the rate of photosynthesis. (Clendenning, 1971) concentrated around NO3 and decreased PAR flux is known to positively influence the concentration of melanin synthesis in seaweed giant (like Shivji, 1985) the presence of nitrogen and colors. Changes roof giant kelp season and may fluctuate in the delivery of nutrients to keep inside, so it's important to measure these indicators of physiological state at the relevant period of the change. The local environment Measurement of grain brown and the presence of nutrients that a website is not enough to explain these variations on scales of variability impact on the environment of seaweed, giant evaluated Chl: C from April 2013 reflection. AVIRIS are shown that high amounts of from 0.005 to 0.025 mg spatial variability mg- 1, a distance of about 15 kilometers (Figure 6a.) observed spatial variability underscores the importance of developing a set range. physiological conditions over time scales of spatial and timely. Variation in Chl: C significantly and positively correlated with changes in depth. This relationship may indicate that the physical condition for roof brown surface (high Chl: the C) may be improved for persons addicted to deep area of the reef (Figure 6b.) Seaweed giant can. occupy different environments of nutrients not only. But at the regional scale. But still above the coral reef with holdfasts deep thalli may have access to greater amounts of. nitrogen.Parnell et al, (2010) May.

The document high amounts of variance in New Zealand, Chile and other parts of the world (Brown et al, 1997 Buschmann et al, and 2004 Graham. Et al, 2007)
.Previous studies are distinguished around the giant kelp in biomass and seasonal circuit assembly them to control the environment, such as nutrient level stress temperature and interference wave. (Clendenning 1971 hay years 1990, Jackson 1And 977 kg foster, years 1984 van, and TussenbroekHowever, these studies have been conducted 1993 generally on the local scale and did not check the variance in the space around the seasonal.(bell et al.In the press and Edwards,,2004) variance this have important consequences for monitoring the kelp forest. For example, each year the California Department of fish and wildlife survey operations air those algae sea in late summer.While commonly experienced by central California maximum biomass in this period แคลิฟอร์เนียภาคใต้ usually not (figure.5) further analysis of regional Landsat algae biomass time series (FIG.3A 4a) and show that between the years 1986 and years 2009 central California experienced highest biomass is every year in the fall in 21 from 24.4 from 24 years.Spatial variability of this may lead to bias in the comparison of regional stock stand seaweeds maximum or the regional comparison of the main production of seaweed annual net from the measurement of single stand, huh?On.(kg Rassweiler Arkema and 2009)
.Giant kelp seasonal cycles affect important ecosystem and improvements in our understanding of seasonal variations may have important network giant kelpGiant kelp is a species in Southern California foundation and the abundance of algae sea giant during the spring has been shown to affect the diversity and vitality of dietary kelp forest season.